Mercurial > hg > truffle
annotate src/cpu/sparc/vm/sparc.ad @ 1915:885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
Reviewed-by: never, kvn
author | twisti |
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date | Tue, 02 Nov 2010 14:56:40 -0700 |
parents | ae065c367d93 |
children | 2f644f85485d |
rev | line source |
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0 | 1 // |
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2 // Copyright (c) 1998, 2010, 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 | |
25 // SPARC Architecture Description File | |
26 | |
27 //----------REGISTER DEFINITION BLOCK------------------------------------------ | |
28 // This information is used by the matcher and the register allocator to | |
29 // describe individual registers and classes of registers within the target | |
30 // archtecture. | |
31 register %{ | |
32 //----------Architecture Description Register Definitions---------------------- | |
33 // General Registers | |
34 // "reg_def" name ( register save type, C convention save type, | |
35 // ideal register type, encoding, vm name ); | |
36 // Register Save Types: | |
37 // | |
38 // NS = No-Save: The register allocator assumes that these registers | |
39 // can be used without saving upon entry to the method, & | |
40 // that they do not need to be saved at call sites. | |
41 // | |
42 // SOC = Save-On-Call: The register allocator assumes that these registers | |
43 // can be used without saving upon entry to the method, | |
44 // but that they must be saved at call sites. | |
45 // | |
46 // SOE = Save-On-Entry: The register allocator assumes that these registers | |
47 // must be saved before using them upon entry to the | |
48 // method, but they do not need to be saved at call | |
49 // sites. | |
50 // | |
51 // AS = Always-Save: The register allocator assumes that these registers | |
52 // must be saved before using them upon entry to the | |
53 // method, & that they must be saved at call sites. | |
54 // | |
55 // Ideal Register Type is used to determine how to save & restore a | |
56 // register. Op_RegI will get spilled with LoadI/StoreI, Op_RegP will get | |
57 // spilled with LoadP/StoreP. If the register supports both, use Op_RegI. | |
58 // | |
59 // The encoding number is the actual bit-pattern placed into the opcodes. | |
60 | |
61 | |
62 // ---------------------------- | |
63 // Integer/Long Registers | |
64 // ---------------------------- | |
65 | |
66 // Need to expose the hi/lo aspect of 64-bit registers | |
67 // This register set is used for both the 64-bit build and | |
68 // the 32-bit build with 1-register longs. | |
69 | |
70 // Global Registers 0-7 | |
71 reg_def R_G0H( NS, NS, Op_RegI,128, G0->as_VMReg()->next()); | |
72 reg_def R_G0 ( NS, NS, Op_RegI, 0, G0->as_VMReg()); | |
73 reg_def R_G1H(SOC, SOC, Op_RegI,129, G1->as_VMReg()->next()); | |
74 reg_def R_G1 (SOC, SOC, Op_RegI, 1, G1->as_VMReg()); | |
75 reg_def R_G2H( NS, NS, Op_RegI,130, G2->as_VMReg()->next()); | |
76 reg_def R_G2 ( NS, NS, Op_RegI, 2, G2->as_VMReg()); | |
77 reg_def R_G3H(SOC, SOC, Op_RegI,131, G3->as_VMReg()->next()); | |
78 reg_def R_G3 (SOC, SOC, Op_RegI, 3, G3->as_VMReg()); | |
79 reg_def R_G4H(SOC, SOC, Op_RegI,132, G4->as_VMReg()->next()); | |
80 reg_def R_G4 (SOC, SOC, Op_RegI, 4, G4->as_VMReg()); | |
81 reg_def R_G5H(SOC, SOC, Op_RegI,133, G5->as_VMReg()->next()); | |
82 reg_def R_G5 (SOC, SOC, Op_RegI, 5, G5->as_VMReg()); | |
83 reg_def R_G6H( NS, NS, Op_RegI,134, G6->as_VMReg()->next()); | |
84 reg_def R_G6 ( NS, NS, Op_RegI, 6, G6->as_VMReg()); | |
85 reg_def R_G7H( NS, NS, Op_RegI,135, G7->as_VMReg()->next()); | |
86 reg_def R_G7 ( NS, NS, Op_RegI, 7, G7->as_VMReg()); | |
87 | |
88 // Output Registers 0-7 | |
89 reg_def R_O0H(SOC, SOC, Op_RegI,136, O0->as_VMReg()->next()); | |
90 reg_def R_O0 (SOC, SOC, Op_RegI, 8, O0->as_VMReg()); | |
91 reg_def R_O1H(SOC, SOC, Op_RegI,137, O1->as_VMReg()->next()); | |
92 reg_def R_O1 (SOC, SOC, Op_RegI, 9, O1->as_VMReg()); | |
93 reg_def R_O2H(SOC, SOC, Op_RegI,138, O2->as_VMReg()->next()); | |
94 reg_def R_O2 (SOC, SOC, Op_RegI, 10, O2->as_VMReg()); | |
95 reg_def R_O3H(SOC, SOC, Op_RegI,139, O3->as_VMReg()->next()); | |
96 reg_def R_O3 (SOC, SOC, Op_RegI, 11, O3->as_VMReg()); | |
97 reg_def R_O4H(SOC, SOC, Op_RegI,140, O4->as_VMReg()->next()); | |
98 reg_def R_O4 (SOC, SOC, Op_RegI, 12, O4->as_VMReg()); | |
99 reg_def R_O5H(SOC, SOC, Op_RegI,141, O5->as_VMReg()->next()); | |
100 reg_def R_O5 (SOC, SOC, Op_RegI, 13, O5->as_VMReg()); | |
101 reg_def R_SPH( NS, NS, Op_RegI,142, SP->as_VMReg()->next()); | |
102 reg_def R_SP ( NS, NS, Op_RegI, 14, SP->as_VMReg()); | |
103 reg_def R_O7H(SOC, SOC, Op_RegI,143, O7->as_VMReg()->next()); | |
104 reg_def R_O7 (SOC, SOC, Op_RegI, 15, O7->as_VMReg()); | |
105 | |
106 // Local Registers 0-7 | |
107 reg_def R_L0H( NS, NS, Op_RegI,144, L0->as_VMReg()->next()); | |
108 reg_def R_L0 ( NS, NS, Op_RegI, 16, L0->as_VMReg()); | |
109 reg_def R_L1H( NS, NS, Op_RegI,145, L1->as_VMReg()->next()); | |
110 reg_def R_L1 ( NS, NS, Op_RegI, 17, L1->as_VMReg()); | |
111 reg_def R_L2H( NS, NS, Op_RegI,146, L2->as_VMReg()->next()); | |
112 reg_def R_L2 ( NS, NS, Op_RegI, 18, L2->as_VMReg()); | |
113 reg_def R_L3H( NS, NS, Op_RegI,147, L3->as_VMReg()->next()); | |
114 reg_def R_L3 ( NS, NS, Op_RegI, 19, L3->as_VMReg()); | |
115 reg_def R_L4H( NS, NS, Op_RegI,148, L4->as_VMReg()->next()); | |
116 reg_def R_L4 ( NS, NS, Op_RegI, 20, L4->as_VMReg()); | |
117 reg_def R_L5H( NS, NS, Op_RegI,149, L5->as_VMReg()->next()); | |
118 reg_def R_L5 ( NS, NS, Op_RegI, 21, L5->as_VMReg()); | |
119 reg_def R_L6H( NS, NS, Op_RegI,150, L6->as_VMReg()->next()); | |
120 reg_def R_L6 ( NS, NS, Op_RegI, 22, L6->as_VMReg()); | |
121 reg_def R_L7H( NS, NS, Op_RegI,151, L7->as_VMReg()->next()); | |
122 reg_def R_L7 ( NS, NS, Op_RegI, 23, L7->as_VMReg()); | |
123 | |
124 // Input Registers 0-7 | |
125 reg_def R_I0H( NS, NS, Op_RegI,152, I0->as_VMReg()->next()); | |
126 reg_def R_I0 ( NS, NS, Op_RegI, 24, I0->as_VMReg()); | |
127 reg_def R_I1H( NS, NS, Op_RegI,153, I1->as_VMReg()->next()); | |
128 reg_def R_I1 ( NS, NS, Op_RegI, 25, I1->as_VMReg()); | |
129 reg_def R_I2H( NS, NS, Op_RegI,154, I2->as_VMReg()->next()); | |
130 reg_def R_I2 ( NS, NS, Op_RegI, 26, I2->as_VMReg()); | |
131 reg_def R_I3H( NS, NS, Op_RegI,155, I3->as_VMReg()->next()); | |
132 reg_def R_I3 ( NS, NS, Op_RegI, 27, I3->as_VMReg()); | |
133 reg_def R_I4H( NS, NS, Op_RegI,156, I4->as_VMReg()->next()); | |
134 reg_def R_I4 ( NS, NS, Op_RegI, 28, I4->as_VMReg()); | |
135 reg_def R_I5H( NS, NS, Op_RegI,157, I5->as_VMReg()->next()); | |
136 reg_def R_I5 ( NS, NS, Op_RegI, 29, I5->as_VMReg()); | |
137 reg_def R_FPH( NS, NS, Op_RegI,158, FP->as_VMReg()->next()); | |
138 reg_def R_FP ( NS, NS, Op_RegI, 30, FP->as_VMReg()); | |
139 reg_def R_I7H( NS, NS, Op_RegI,159, I7->as_VMReg()->next()); | |
140 reg_def R_I7 ( NS, NS, Op_RegI, 31, I7->as_VMReg()); | |
141 | |
142 // ---------------------------- | |
143 // Float/Double Registers | |
144 // ---------------------------- | |
145 | |
146 // Float Registers | |
147 reg_def R_F0 ( SOC, SOC, Op_RegF, 0, F0->as_VMReg()); | |
148 reg_def R_F1 ( SOC, SOC, Op_RegF, 1, F1->as_VMReg()); | |
149 reg_def R_F2 ( SOC, SOC, Op_RegF, 2, F2->as_VMReg()); | |
150 reg_def R_F3 ( SOC, SOC, Op_RegF, 3, F3->as_VMReg()); | |
151 reg_def R_F4 ( SOC, SOC, Op_RegF, 4, F4->as_VMReg()); | |
152 reg_def R_F5 ( SOC, SOC, Op_RegF, 5, F5->as_VMReg()); | |
153 reg_def R_F6 ( SOC, SOC, Op_RegF, 6, F6->as_VMReg()); | |
154 reg_def R_F7 ( SOC, SOC, Op_RegF, 7, F7->as_VMReg()); | |
155 reg_def R_F8 ( SOC, SOC, Op_RegF, 8, F8->as_VMReg()); | |
156 reg_def R_F9 ( SOC, SOC, Op_RegF, 9, F9->as_VMReg()); | |
157 reg_def R_F10( SOC, SOC, Op_RegF, 10, F10->as_VMReg()); | |
158 reg_def R_F11( SOC, SOC, Op_RegF, 11, F11->as_VMReg()); | |
159 reg_def R_F12( SOC, SOC, Op_RegF, 12, F12->as_VMReg()); | |
160 reg_def R_F13( SOC, SOC, Op_RegF, 13, F13->as_VMReg()); | |
161 reg_def R_F14( SOC, SOC, Op_RegF, 14, F14->as_VMReg()); | |
162 reg_def R_F15( SOC, SOC, Op_RegF, 15, F15->as_VMReg()); | |
163 reg_def R_F16( SOC, SOC, Op_RegF, 16, F16->as_VMReg()); | |
164 reg_def R_F17( SOC, SOC, Op_RegF, 17, F17->as_VMReg()); | |
165 reg_def R_F18( SOC, SOC, Op_RegF, 18, F18->as_VMReg()); | |
166 reg_def R_F19( SOC, SOC, Op_RegF, 19, F19->as_VMReg()); | |
167 reg_def R_F20( SOC, SOC, Op_RegF, 20, F20->as_VMReg()); | |
168 reg_def R_F21( SOC, SOC, Op_RegF, 21, F21->as_VMReg()); | |
169 reg_def R_F22( SOC, SOC, Op_RegF, 22, F22->as_VMReg()); | |
170 reg_def R_F23( SOC, SOC, Op_RegF, 23, F23->as_VMReg()); | |
171 reg_def R_F24( SOC, SOC, Op_RegF, 24, F24->as_VMReg()); | |
172 reg_def R_F25( SOC, SOC, Op_RegF, 25, F25->as_VMReg()); | |
173 reg_def R_F26( SOC, SOC, Op_RegF, 26, F26->as_VMReg()); | |
174 reg_def R_F27( SOC, SOC, Op_RegF, 27, F27->as_VMReg()); | |
175 reg_def R_F28( SOC, SOC, Op_RegF, 28, F28->as_VMReg()); | |
176 reg_def R_F29( SOC, SOC, Op_RegF, 29, F29->as_VMReg()); | |
177 reg_def R_F30( SOC, SOC, Op_RegF, 30, F30->as_VMReg()); | |
178 reg_def R_F31( SOC, SOC, Op_RegF, 31, F31->as_VMReg()); | |
179 | |
180 // Double Registers | |
181 // The rules of ADL require that double registers be defined in pairs. | |
182 // Each pair must be two 32-bit values, but not necessarily a pair of | |
183 // single float registers. In each pair, ADLC-assigned register numbers | |
184 // must be adjacent, with the lower number even. Finally, when the | |
185 // CPU stores such a register pair to memory, the word associated with | |
186 // the lower ADLC-assigned number must be stored to the lower address. | |
187 | |
188 // These definitions specify the actual bit encodings of the sparc | |
189 // double fp register numbers. FloatRegisterImpl in register_sparc.hpp | |
190 // wants 0-63, so we have to convert every time we want to use fp regs | |
191 // with the macroassembler, using reg_to_DoubleFloatRegister_object(). | |
605 | 192 // 255 is a flag meaning "don't go here". |
0 | 193 // I believe we can't handle callee-save doubles D32 and up until |
194 // the place in the sparc stack crawler that asserts on the 255 is | |
195 // fixed up. | |
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196 reg_def R_D32 (SOC, SOC, Op_RegD, 1, F32->as_VMReg()); |
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197 reg_def R_D32x(SOC, SOC, Op_RegD,255, F32->as_VMReg()->next()); |
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198 reg_def R_D34 (SOC, SOC, Op_RegD, 3, F34->as_VMReg()); |
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199 reg_def R_D34x(SOC, SOC, Op_RegD,255, F34->as_VMReg()->next()); |
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200 reg_def R_D36 (SOC, SOC, Op_RegD, 5, F36->as_VMReg()); |
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201 reg_def R_D36x(SOC, SOC, Op_RegD,255, F36->as_VMReg()->next()); |
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202 reg_def R_D38 (SOC, SOC, Op_RegD, 7, F38->as_VMReg()); |
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203 reg_def R_D38x(SOC, SOC, Op_RegD,255, F38->as_VMReg()->next()); |
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204 reg_def R_D40 (SOC, SOC, Op_RegD, 9, F40->as_VMReg()); |
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205 reg_def R_D40x(SOC, SOC, Op_RegD,255, F40->as_VMReg()->next()); |
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206 reg_def R_D42 (SOC, SOC, Op_RegD, 11, F42->as_VMReg()); |
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207 reg_def R_D42x(SOC, SOC, Op_RegD,255, F42->as_VMReg()->next()); |
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208 reg_def R_D44 (SOC, SOC, Op_RegD, 13, F44->as_VMReg()); |
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209 reg_def R_D44x(SOC, SOC, Op_RegD,255, F44->as_VMReg()->next()); |
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210 reg_def R_D46 (SOC, SOC, Op_RegD, 15, F46->as_VMReg()); |
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211 reg_def R_D46x(SOC, SOC, Op_RegD,255, F46->as_VMReg()->next()); |
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212 reg_def R_D48 (SOC, SOC, Op_RegD, 17, F48->as_VMReg()); |
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213 reg_def R_D48x(SOC, SOC, Op_RegD,255, F48->as_VMReg()->next()); |
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214 reg_def R_D50 (SOC, SOC, Op_RegD, 19, F50->as_VMReg()); |
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215 reg_def R_D50x(SOC, SOC, Op_RegD,255, F50->as_VMReg()->next()); |
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216 reg_def R_D52 (SOC, SOC, Op_RegD, 21, F52->as_VMReg()); |
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217 reg_def R_D52x(SOC, SOC, Op_RegD,255, F52->as_VMReg()->next()); |
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218 reg_def R_D54 (SOC, SOC, Op_RegD, 23, F54->as_VMReg()); |
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219 reg_def R_D54x(SOC, SOC, Op_RegD,255, F54->as_VMReg()->next()); |
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220 reg_def R_D56 (SOC, SOC, Op_RegD, 25, F56->as_VMReg()); |
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221 reg_def R_D56x(SOC, SOC, Op_RegD,255, F56->as_VMReg()->next()); |
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222 reg_def R_D58 (SOC, SOC, Op_RegD, 27, F58->as_VMReg()); |
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223 reg_def R_D58x(SOC, SOC, Op_RegD,255, F58->as_VMReg()->next()); |
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224 reg_def R_D60 (SOC, SOC, Op_RegD, 29, F60->as_VMReg()); |
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225 reg_def R_D60x(SOC, SOC, Op_RegD,255, F60->as_VMReg()->next()); |
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226 reg_def R_D62 (SOC, SOC, Op_RegD, 31, F62->as_VMReg()); |
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227 reg_def R_D62x(SOC, SOC, Op_RegD,255, F62->as_VMReg()->next()); |
0 | 228 |
229 | |
230 // ---------------------------- | |
231 // Special Registers | |
232 // Condition Codes Flag Registers | |
233 // I tried to break out ICC and XCC but it's not very pretty. | |
234 // Every Sparc instruction which defs/kills one also kills the other. | |
235 // Hence every compare instruction which defs one kind of flags ends | |
236 // up needing a kill of the other. | |
237 reg_def CCR (SOC, SOC, Op_RegFlags, 0, VMRegImpl::Bad()); | |
238 | |
239 reg_def FCC0(SOC, SOC, Op_RegFlags, 0, VMRegImpl::Bad()); | |
240 reg_def FCC1(SOC, SOC, Op_RegFlags, 1, VMRegImpl::Bad()); | |
241 reg_def FCC2(SOC, SOC, Op_RegFlags, 2, VMRegImpl::Bad()); | |
242 reg_def FCC3(SOC, SOC, Op_RegFlags, 3, VMRegImpl::Bad()); | |
243 | |
244 // ---------------------------- | |
245 // Specify the enum values for the registers. These enums are only used by the | |
246 // OptoReg "class". We can convert these enum values at will to VMReg when needed | |
247 // for visibility to the rest of the vm. The order of this enum influences the | |
248 // register allocator so having the freedom to set this order and not be stuck | |
249 // with the order that is natural for the rest of the vm is worth it. | |
250 alloc_class chunk0( | |
251 R_L0,R_L0H, R_L1,R_L1H, R_L2,R_L2H, R_L3,R_L3H, R_L4,R_L4H, R_L5,R_L5H, R_L6,R_L6H, R_L7,R_L7H, | |
252 R_G0,R_G0H, R_G1,R_G1H, R_G2,R_G2H, R_G3,R_G3H, R_G4,R_G4H, R_G5,R_G5H, R_G6,R_G6H, R_G7,R_G7H, | |
253 R_O7,R_O7H, R_SP,R_SPH, R_O0,R_O0H, R_O1,R_O1H, R_O2,R_O2H, R_O3,R_O3H, R_O4,R_O4H, R_O5,R_O5H, | |
254 R_I0,R_I0H, R_I1,R_I1H, R_I2,R_I2H, R_I3,R_I3H, R_I4,R_I4H, R_I5,R_I5H, R_FP,R_FPH, R_I7,R_I7H); | |
255 | |
256 // Note that a register is not allocatable unless it is also mentioned | |
257 // in a widely-used reg_class below. Thus, R_G7 and R_G0 are outside i_reg. | |
258 | |
259 alloc_class chunk1( | |
260 // The first registers listed here are those most likely to be used | |
261 // as temporaries. We move F0..F7 away from the front of the list, | |
262 // to reduce the likelihood of interferences with parameters and | |
263 // return values. Likewise, we avoid using F0/F1 for parameters, | |
264 // since they are used for return values. | |
265 // This FPU fine-tuning is worth about 1% on the SPEC geomean. | |
266 R_F8 ,R_F9 ,R_F10,R_F11,R_F12,R_F13,R_F14,R_F15, | |
267 R_F16,R_F17,R_F18,R_F19,R_F20,R_F21,R_F22,R_F23, | |
268 R_F24,R_F25,R_F26,R_F27,R_F28,R_F29,R_F30,R_F31, | |
269 R_F0 ,R_F1 ,R_F2 ,R_F3 ,R_F4 ,R_F5 ,R_F6 ,R_F7 , // used for arguments and return values | |
270 R_D32,R_D32x,R_D34,R_D34x,R_D36,R_D36x,R_D38,R_D38x, | |
271 R_D40,R_D40x,R_D42,R_D42x,R_D44,R_D44x,R_D46,R_D46x, | |
272 R_D48,R_D48x,R_D50,R_D50x,R_D52,R_D52x,R_D54,R_D54x, | |
273 R_D56,R_D56x,R_D58,R_D58x,R_D60,R_D60x,R_D62,R_D62x); | |
274 | |
275 alloc_class chunk2(CCR, FCC0, FCC1, FCC2, FCC3); | |
276 | |
277 //----------Architecture Description Register Classes-------------------------- | |
278 // Several register classes are automatically defined based upon information in | |
279 // this architecture description. | |
280 // 1) reg_class inline_cache_reg ( as defined in frame section ) | |
281 // 2) reg_class interpreter_method_oop_reg ( as defined in frame section ) | |
282 // 3) reg_class stack_slots( /* one chunk of stack-based "registers" */ ) | |
283 // | |
284 | |
285 // G0 is not included in integer class since it has special meaning. | |
286 reg_class g0_reg(R_G0); | |
287 | |
288 // ---------------------------- | |
289 // Integer Register Classes | |
290 // ---------------------------- | |
291 // Exclusions from i_reg: | |
292 // R_G0: hardwired zero | |
293 // R_G2: reserved by HotSpot to the TLS register (invariant within Java) | |
294 // R_G6: reserved by Solaris ABI to tools | |
295 // R_G7: reserved by Solaris ABI to libthread | |
296 // R_O7: Used as a temp in many encodings | |
297 reg_class int_reg(R_G1,R_G3,R_G4,R_G5,R_O0,R_O1,R_O2,R_O3,R_O4,R_O5,R_L0,R_L1,R_L2,R_L3,R_L4,R_L5,R_L6,R_L7,R_I0,R_I1,R_I2,R_I3,R_I4,R_I5); | |
298 | |
299 // Class for all integer registers, except the G registers. This is used for | |
300 // encodings which use G registers as temps. The regular inputs to such | |
301 // instructions use a "notemp_" prefix, as a hack to ensure that the allocator | |
302 // will not put an input into a temp register. | |
303 reg_class notemp_int_reg(R_O0,R_O1,R_O2,R_O3,R_O4,R_O5,R_L0,R_L1,R_L2,R_L3,R_L4,R_L5,R_L6,R_L7,R_I0,R_I1,R_I2,R_I3,R_I4,R_I5); | |
304 | |
305 reg_class g1_regI(R_G1); | |
306 reg_class g3_regI(R_G3); | |
307 reg_class g4_regI(R_G4); | |
308 reg_class o0_regI(R_O0); | |
309 reg_class o7_regI(R_O7); | |
310 | |
311 // ---------------------------- | |
312 // Pointer Register Classes | |
313 // ---------------------------- | |
314 #ifdef _LP64 | |
315 // 64-bit build means 64-bit pointers means hi/lo pairs | |
316 reg_class ptr_reg( R_G1H,R_G1, R_G3H,R_G3, R_G4H,R_G4, R_G5H,R_G5, | |
317 R_O0H,R_O0, R_O1H,R_O1, R_O2H,R_O2, R_O3H,R_O3, R_O4H,R_O4, R_O5H,R_O5, | |
318 R_L0H,R_L0, R_L1H,R_L1, R_L2H,R_L2, R_L3H,R_L3, R_L4H,R_L4, R_L5H,R_L5, R_L6H,R_L6, R_L7H,R_L7, | |
319 R_I0H,R_I0, R_I1H,R_I1, R_I2H,R_I2, R_I3H,R_I3, R_I4H,R_I4, R_I5H,R_I5 ); | |
320 // Lock encodings use G3 and G4 internally | |
321 reg_class lock_ptr_reg( R_G1H,R_G1, R_G5H,R_G5, | |
322 R_O0H,R_O0, R_O1H,R_O1, R_O2H,R_O2, R_O3H,R_O3, R_O4H,R_O4, R_O5H,R_O5, | |
323 R_L0H,R_L0, R_L1H,R_L1, R_L2H,R_L2, R_L3H,R_L3, R_L4H,R_L4, R_L5H,R_L5, R_L6H,R_L6, R_L7H,R_L7, | |
324 R_I0H,R_I0, R_I1H,R_I1, R_I2H,R_I2, R_I3H,R_I3, R_I4H,R_I4, R_I5H,R_I5 ); | |
325 // Special class for storeP instructions, which can store SP or RPC to TLS. | |
326 // It is also used for memory addressing, allowing direct TLS addressing. | |
327 reg_class sp_ptr_reg( R_G1H,R_G1, R_G2H,R_G2, R_G3H,R_G3, R_G4H,R_G4, R_G5H,R_G5, | |
328 R_O0H,R_O0, R_O1H,R_O1, R_O2H,R_O2, R_O3H,R_O3, R_O4H,R_O4, R_O5H,R_O5, R_SPH,R_SP, | |
329 R_L0H,R_L0, R_L1H,R_L1, R_L2H,R_L2, R_L3H,R_L3, R_L4H,R_L4, R_L5H,R_L5, R_L6H,R_L6, R_L7H,R_L7, | |
330 R_I0H,R_I0, R_I1H,R_I1, R_I2H,R_I2, R_I3H,R_I3, R_I4H,R_I4, R_I5H,R_I5, R_FPH,R_FP ); | |
331 // R_L7 is the lowest-priority callee-save (i.e., NS) register | |
332 // We use it to save R_G2 across calls out of Java. | |
333 reg_class l7_regP(R_L7H,R_L7); | |
334 | |
335 // Other special pointer regs | |
336 reg_class g1_regP(R_G1H,R_G1); | |
337 reg_class g2_regP(R_G2H,R_G2); | |
338 reg_class g3_regP(R_G3H,R_G3); | |
339 reg_class g4_regP(R_G4H,R_G4); | |
340 reg_class g5_regP(R_G5H,R_G5); | |
341 reg_class i0_regP(R_I0H,R_I0); | |
342 reg_class o0_regP(R_O0H,R_O0); | |
343 reg_class o1_regP(R_O1H,R_O1); | |
344 reg_class o2_regP(R_O2H,R_O2); | |
345 reg_class o7_regP(R_O7H,R_O7); | |
346 | |
347 #else // _LP64 | |
348 // 32-bit build means 32-bit pointers means 1 register. | |
349 reg_class ptr_reg( R_G1, R_G3,R_G4,R_G5, | |
350 R_O0,R_O1,R_O2,R_O3,R_O4,R_O5, | |
351 R_L0,R_L1,R_L2,R_L3,R_L4,R_L5,R_L6,R_L7, | |
352 R_I0,R_I1,R_I2,R_I3,R_I4,R_I5); | |
353 // Lock encodings use G3 and G4 internally | |
354 reg_class lock_ptr_reg(R_G1, R_G5, | |
355 R_O0,R_O1,R_O2,R_O3,R_O4,R_O5, | |
356 R_L0,R_L1,R_L2,R_L3,R_L4,R_L5,R_L6,R_L7, | |
357 R_I0,R_I1,R_I2,R_I3,R_I4,R_I5); | |
358 // Special class for storeP instructions, which can store SP or RPC to TLS. | |
359 // It is also used for memory addressing, allowing direct TLS addressing. | |
360 reg_class sp_ptr_reg( R_G1,R_G2,R_G3,R_G4,R_G5, | |
361 R_O0,R_O1,R_O2,R_O3,R_O4,R_O5,R_SP, | |
362 R_L0,R_L1,R_L2,R_L3,R_L4,R_L5,R_L6,R_L7, | |
363 R_I0,R_I1,R_I2,R_I3,R_I4,R_I5,R_FP); | |
364 // R_L7 is the lowest-priority callee-save (i.e., NS) register | |
365 // We use it to save R_G2 across calls out of Java. | |
366 reg_class l7_regP(R_L7); | |
367 | |
368 // Other special pointer regs | |
369 reg_class g1_regP(R_G1); | |
370 reg_class g2_regP(R_G2); | |
371 reg_class g3_regP(R_G3); | |
372 reg_class g4_regP(R_G4); | |
373 reg_class g5_regP(R_G5); | |
374 reg_class i0_regP(R_I0); | |
375 reg_class o0_regP(R_O0); | |
376 reg_class o1_regP(R_O1); | |
377 reg_class o2_regP(R_O2); | |
378 reg_class o7_regP(R_O7); | |
379 #endif // _LP64 | |
380 | |
381 | |
382 // ---------------------------- | |
383 // Long Register Classes | |
384 // ---------------------------- | |
385 // Longs in 1 register. Aligned adjacent hi/lo pairs. | |
386 // Note: O7 is never in this class; it is sometimes used as an encoding temp. | |
387 reg_class long_reg( R_G1H,R_G1, R_G3H,R_G3, R_G4H,R_G4, R_G5H,R_G5 | |
388 ,R_O0H,R_O0, R_O1H,R_O1, R_O2H,R_O2, R_O3H,R_O3, R_O4H,R_O4, R_O5H,R_O5 | |
389 #ifdef _LP64 | |
390 // 64-bit, longs in 1 register: use all 64-bit integer registers | |
391 // 32-bit, longs in 1 register: cannot use I's and L's. Restrict to O's and G's. | |
392 ,R_L0H,R_L0, R_L1H,R_L1, R_L2H,R_L2, R_L3H,R_L3, R_L4H,R_L4, R_L5H,R_L5, R_L6H,R_L6, R_L7H,R_L7 | |
393 ,R_I0H,R_I0, R_I1H,R_I1, R_I2H,R_I2, R_I3H,R_I3, R_I4H,R_I4, R_I5H,R_I5 | |
394 #endif // _LP64 | |
395 ); | |
396 | |
397 reg_class g1_regL(R_G1H,R_G1); | |
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398 reg_class g3_regL(R_G3H,R_G3); |
0 | 399 reg_class o2_regL(R_O2H,R_O2); |
400 reg_class o7_regL(R_O7H,R_O7); | |
401 | |
402 // ---------------------------- | |
403 // Special Class for Condition Code Flags Register | |
404 reg_class int_flags(CCR); | |
405 reg_class float_flags(FCC0,FCC1,FCC2,FCC3); | |
406 reg_class float_flag0(FCC0); | |
407 | |
408 | |
409 // ---------------------------- | |
410 // Float Point Register Classes | |
411 // ---------------------------- | |
412 // Skip F30/F31, they are reserved for mem-mem copies | |
413 reg_class sflt_reg(R_F0,R_F1,R_F2,R_F3,R_F4,R_F5,R_F6,R_F7,R_F8,R_F9,R_F10,R_F11,R_F12,R_F13,R_F14,R_F15,R_F16,R_F17,R_F18,R_F19,R_F20,R_F21,R_F22,R_F23,R_F24,R_F25,R_F26,R_F27,R_F28,R_F29); | |
414 | |
415 // Paired floating point registers--they show up in the same order as the floats, | |
416 // but they are used with the "Op_RegD" type, and always occur in even/odd pairs. | |
417 reg_class dflt_reg(R_F0, R_F1, R_F2, R_F3, R_F4, R_F5, R_F6, R_F7, R_F8, R_F9, R_F10,R_F11,R_F12,R_F13,R_F14,R_F15, | |
418 R_F16,R_F17,R_F18,R_F19,R_F20,R_F21,R_F22,R_F23,R_F24,R_F25,R_F26,R_F27,R_F28,R_F29, | |
419 /* Use extra V9 double registers; this AD file does not support V8 */ | |
420 R_D32,R_D32x,R_D34,R_D34x,R_D36,R_D36x,R_D38,R_D38x,R_D40,R_D40x,R_D42,R_D42x,R_D44,R_D44x,R_D46,R_D46x, | |
421 R_D48,R_D48x,R_D50,R_D50x,R_D52,R_D52x,R_D54,R_D54x,R_D56,R_D56x,R_D58,R_D58x,R_D60,R_D60x,R_D62,R_D62x | |
422 ); | |
423 | |
424 // Paired floating point registers--they show up in the same order as the floats, | |
425 // but they are used with the "Op_RegD" type, and always occur in even/odd pairs. | |
426 // This class is usable for mis-aligned loads as happen in I2C adapters. | |
427 reg_class dflt_low_reg(R_F0, R_F1, R_F2, R_F3, R_F4, R_F5, R_F6, R_F7, R_F8, R_F9, R_F10,R_F11,R_F12,R_F13,R_F14,R_F15, | |
428 R_F16,R_F17,R_F18,R_F19,R_F20,R_F21,R_F22,R_F23,R_F24,R_F25,R_F26,R_F27,R_F28,R_F29,R_F30,R_F31 ); | |
429 %} | |
430 | |
431 //----------DEFINITION BLOCK--------------------------------------------------- | |
432 // Define name --> value mappings to inform the ADLC of an integer valued name | |
433 // Current support includes integer values in the range [0, 0x7FFFFFFF] | |
434 // Format: | |
435 // int_def <name> ( <int_value>, <expression>); | |
436 // Generated Code in ad_<arch>.hpp | |
437 // #define <name> (<expression>) | |
438 // // value == <int_value> | |
439 // Generated code in ad_<arch>.cpp adlc_verification() | |
440 // assert( <name> == <int_value>, "Expect (<expression>) to equal <int_value>"); | |
441 // | |
442 definitions %{ | |
443 // The default cost (of an ALU instruction). | |
444 int_def DEFAULT_COST ( 100, 100); | |
445 int_def HUGE_COST (1000000, 1000000); | |
446 | |
447 // Memory refs are twice as expensive as run-of-the-mill. | |
448 int_def MEMORY_REF_COST ( 200, DEFAULT_COST * 2); | |
449 | |
450 // Branches are even more expensive. | |
451 int_def BRANCH_COST ( 300, DEFAULT_COST * 3); | |
452 int_def CALL_COST ( 300, DEFAULT_COST * 3); | |
453 %} | |
454 | |
455 | |
456 //----------SOURCE BLOCK------------------------------------------------------- | |
457 // This is a block of C++ code which provides values, functions, and | |
458 // definitions necessary in the rest of the architecture description | |
459 source_hpp %{ | |
460 // Must be visible to the DFA in dfa_sparc.cpp | |
461 extern bool can_branch_register( Node *bol, Node *cmp ); | |
462 | |
463 // Macros to extract hi & lo halves from a long pair. | |
464 // G0 is not part of any long pair, so assert on that. | |
605 | 465 // Prevents accidentally using G1 instead of G0. |
0 | 466 #define LONG_HI_REG(x) (x) |
467 #define LONG_LO_REG(x) (x) | |
468 | |
469 %} | |
470 | |
471 source %{ | |
472 #define __ _masm. | |
473 | |
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474 // Block initializing store |
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475 #define ASI_BLK_INIT_QUAD_LDD_P 0xE2 |
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476 |
0 | 477 // tertiary op of a LoadP or StoreP encoding |
478 #define REGP_OP true | |
479 | |
480 static FloatRegister reg_to_SingleFloatRegister_object(int register_encoding); | |
481 static FloatRegister reg_to_DoubleFloatRegister_object(int register_encoding); | |
482 static Register reg_to_register_object(int register_encoding); | |
483 | |
484 // Used by the DFA in dfa_sparc.cpp. | |
485 // Check for being able to use a V9 branch-on-register. Requires a | |
486 // compare-vs-zero, equal/not-equal, of a value which was zero- or sign- | |
487 // extended. Doesn't work following an integer ADD, for example, because of | |
488 // overflow (-1 incremented yields 0 plus a carry in the high-order word). On | |
489 // 32-bit V9 systems, interrupts currently blow away the high-order 32 bits and | |
490 // replace them with zero, which could become sign-extension in a different OS | |
491 // release. There's no obvious reason why an interrupt will ever fill these | |
492 // bits with non-zero junk (the registers are reloaded with standard LD | |
493 // instructions which either zero-fill or sign-fill). | |
494 bool can_branch_register( Node *bol, Node *cmp ) { | |
495 if( !BranchOnRegister ) return false; | |
496 #ifdef _LP64 | |
497 if( cmp->Opcode() == Op_CmpP ) | |
498 return true; // No problems with pointer compares | |
499 #endif | |
500 if( cmp->Opcode() == Op_CmpL ) | |
501 return true; // No problems with long compares | |
502 | |
503 if( !SparcV9RegsHiBitsZero ) return false; | |
504 if( bol->as_Bool()->_test._test != BoolTest::ne && | |
505 bol->as_Bool()->_test._test != BoolTest::eq ) | |
506 return false; | |
507 | |
508 // Check for comparing against a 'safe' value. Any operation which | |
509 // clears out the high word is safe. Thus, loads and certain shifts | |
510 // are safe, as are non-negative constants. Any operation which | |
511 // preserves zero bits in the high word is safe as long as each of its | |
512 // inputs are safe. Thus, phis and bitwise booleans are safe if their | |
513 // inputs are safe. At present, the only important case to recognize | |
514 // seems to be loads. Constants should fold away, and shifts & | |
515 // logicals can use the 'cc' forms. | |
516 Node *x = cmp->in(1); | |
517 if( x->is_Load() ) return true; | |
518 if( x->is_Phi() ) { | |
519 for( uint i = 1; i < x->req(); i++ ) | |
520 if( !x->in(i)->is_Load() ) | |
521 return false; | |
522 return true; | |
523 } | |
524 return false; | |
525 } | |
526 | |
527 // **************************************************************************** | |
528 | |
529 // REQUIRED FUNCTIONALITY | |
530 | |
531 // !!!!! Special hack to get all type of calls to specify the byte offset | |
532 // from the start of the call to the point where the return address | |
533 // will point. | |
534 // The "return address" is the address of the call instruction, plus 8. | |
535 | |
536 int MachCallStaticJavaNode::ret_addr_offset() { | |
1567 | 537 int offset = NativeCall::instruction_size; // call; delay slot |
538 if (_method_handle_invoke) | |
539 offset += 4; // restore SP | |
540 return offset; | |
0 | 541 } |
542 | |
543 int MachCallDynamicJavaNode::ret_addr_offset() { | |
544 int vtable_index = this->_vtable_index; | |
545 if (vtable_index < 0) { | |
546 // must be invalid_vtable_index, not nonvirtual_vtable_index | |
547 assert(vtable_index == methodOopDesc::invalid_vtable_index, "correct sentinel value"); | |
548 return (NativeMovConstReg::instruction_size + | |
549 NativeCall::instruction_size); // sethi; setlo; call; delay slot | |
550 } else { | |
551 assert(!UseInlineCaches, "expect vtable calls only if not using ICs"); | |
552 int entry_offset = instanceKlass::vtable_start_offset() + vtable_index*vtableEntry::size(); | |
553 int v_off = entry_offset*wordSize + vtableEntry::method_offset_in_bytes(); | |
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554 int klass_load_size; |
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555 if (UseCompressedOops) { |
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556 assert(Universe::heap() != NULL, "java heap should be initialized"); |
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557 if (Universe::narrow_oop_base() == NULL) |
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558 klass_load_size = 2*BytesPerInstWord; // see MacroAssembler::load_klass() |
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559 else |
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560 klass_load_size = 3*BytesPerInstWord; |
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561 } else { |
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562 klass_load_size = 1*BytesPerInstWord; |
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563 } |
0 | 564 if( Assembler::is_simm13(v_off) ) { |
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565 return klass_load_size + |
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566 (2*BytesPerInstWord + // ld_ptr, ld_ptr |
0 | 567 NativeCall::instruction_size); // call; delay slot |
568 } else { | |
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569 return klass_load_size + |
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570 (4*BytesPerInstWord + // set_hi, set, ld_ptr, ld_ptr |
0 | 571 NativeCall::instruction_size); // call; delay slot |
572 } | |
573 } | |
574 } | |
575 | |
576 int MachCallRuntimeNode::ret_addr_offset() { | |
577 #ifdef _LP64 | |
578 return NativeFarCall::instruction_size; // farcall; delay slot | |
579 #else | |
580 return NativeCall::instruction_size; // call; delay slot | |
581 #endif | |
582 } | |
583 | |
584 // Indicate if the safepoint node needs the polling page as an input. | |
585 // Since Sparc does not have absolute addressing, it does. | |
586 bool SafePointNode::needs_polling_address_input() { | |
587 return true; | |
588 } | |
589 | |
590 // emit an interrupt that is caught by the debugger (for debugging compiler) | |
591 void emit_break(CodeBuffer &cbuf) { | |
592 MacroAssembler _masm(&cbuf); | |
593 __ breakpoint_trap(); | |
594 } | |
595 | |
596 #ifndef PRODUCT | |
597 void MachBreakpointNode::format( PhaseRegAlloc *, outputStream *st ) const { | |
598 st->print("TA"); | |
599 } | |
600 #endif | |
601 | |
602 void MachBreakpointNode::emit(CodeBuffer &cbuf, PhaseRegAlloc *ra_) const { | |
603 emit_break(cbuf); | |
604 } | |
605 | |
606 uint MachBreakpointNode::size(PhaseRegAlloc *ra_) const { | |
607 return MachNode::size(ra_); | |
608 } | |
609 | |
610 // Traceable jump | |
611 void emit_jmpl(CodeBuffer &cbuf, int jump_target) { | |
612 MacroAssembler _masm(&cbuf); | |
613 Register rdest = reg_to_register_object(jump_target); | |
614 __ JMP(rdest, 0); | |
615 __ delayed()->nop(); | |
616 } | |
617 | |
618 // Traceable jump and set exception pc | |
619 void emit_jmpl_set_exception_pc(CodeBuffer &cbuf, int jump_target) { | |
620 MacroAssembler _masm(&cbuf); | |
621 Register rdest = reg_to_register_object(jump_target); | |
622 __ JMP(rdest, 0); | |
623 __ delayed()->add(O7, frame::pc_return_offset, Oissuing_pc ); | |
624 } | |
625 | |
626 void emit_nop(CodeBuffer &cbuf) { | |
627 MacroAssembler _masm(&cbuf); | |
628 __ nop(); | |
629 } | |
630 | |
631 void emit_illtrap(CodeBuffer &cbuf) { | |
632 MacroAssembler _masm(&cbuf); | |
633 __ illtrap(0); | |
634 } | |
635 | |
636 | |
637 intptr_t get_offset_from_base(const MachNode* n, const TypePtr* atype, int disp32) { | |
638 assert(n->rule() != loadUB_rule, ""); | |
639 | |
640 intptr_t offset = 0; | |
641 const TypePtr *adr_type = TYPE_PTR_SENTINAL; // Check for base==RegI, disp==immP | |
642 const Node* addr = n->get_base_and_disp(offset, adr_type); | |
643 assert(adr_type == (const TypePtr*)-1, "VerifyOops: no support for sparc operands with base==RegI, disp==immP"); | |
644 assert(addr != NULL && addr != (Node*)-1, "invalid addr"); | |
645 assert(addr->bottom_type()->isa_oopptr() == atype, ""); | |
646 atype = atype->add_offset(offset); | |
647 assert(disp32 == offset, "wrong disp32"); | |
648 return atype->_offset; | |
649 } | |
650 | |
651 | |
652 intptr_t get_offset_from_base_2(const MachNode* n, const TypePtr* atype, int disp32) { | |
653 assert(n->rule() != loadUB_rule, ""); | |
654 | |
655 intptr_t offset = 0; | |
656 Node* addr = n->in(2); | |
657 assert(addr->bottom_type()->isa_oopptr() == atype, ""); | |
658 if (addr->is_Mach() && addr->as_Mach()->ideal_Opcode() == Op_AddP) { | |
659 Node* a = addr->in(2/*AddPNode::Address*/); | |
660 Node* o = addr->in(3/*AddPNode::Offset*/); | |
661 offset = o->is_Con() ? o->bottom_type()->is_intptr_t()->get_con() : Type::OffsetBot; | |
662 atype = a->bottom_type()->is_ptr()->add_offset(offset); | |
663 assert(atype->isa_oop_ptr(), "still an oop"); | |
664 } | |
665 offset = atype->is_ptr()->_offset; | |
666 if (offset != Type::OffsetBot) offset += disp32; | |
667 return offset; | |
668 } | |
669 | |
670 // Standard Sparc opcode form2 field breakdown | |
671 static inline void emit2_19(CodeBuffer &cbuf, int f30, int f29, int f25, int f22, int f20, int f19, int f0 ) { | |
672 f0 &= (1<<19)-1; // Mask displacement to 19 bits | |
673 int op = (f30 << 30) | | |
674 (f29 << 29) | | |
675 (f25 << 25) | | |
676 (f22 << 22) | | |
677 (f20 << 20) | | |
678 (f19 << 19) | | |
679 (f0 << 0); | |
1748 | 680 cbuf.insts()->emit_int32(op); |
0 | 681 } |
682 | |
683 // Standard Sparc opcode form2 field breakdown | |
684 static inline void emit2_22(CodeBuffer &cbuf, int f30, int f25, int f22, int f0 ) { | |
685 f0 >>= 10; // Drop 10 bits | |
686 f0 &= (1<<22)-1; // Mask displacement to 22 bits | |
687 int op = (f30 << 30) | | |
688 (f25 << 25) | | |
689 (f22 << 22) | | |
690 (f0 << 0); | |
1748 | 691 cbuf.insts()->emit_int32(op); |
0 | 692 } |
693 | |
694 // Standard Sparc opcode form3 field breakdown | |
695 static inline void emit3(CodeBuffer &cbuf, int f30, int f25, int f19, int f14, int f5, int f0 ) { | |
696 int op = (f30 << 30) | | |
697 (f25 << 25) | | |
698 (f19 << 19) | | |
699 (f14 << 14) | | |
700 (f5 << 5) | | |
701 (f0 << 0); | |
1748 | 702 cbuf.insts()->emit_int32(op); |
0 | 703 } |
704 | |
705 // Standard Sparc opcode form3 field breakdown | |
706 static inline void emit3_simm13(CodeBuffer &cbuf, int f30, int f25, int f19, int f14, int simm13 ) { | |
707 simm13 &= (1<<13)-1; // Mask to 13 bits | |
708 int op = (f30 << 30) | | |
709 (f25 << 25) | | |
710 (f19 << 19) | | |
711 (f14 << 14) | | |
712 (1 << 13) | // bit to indicate immediate-mode | |
713 (simm13<<0); | |
1748 | 714 cbuf.insts()->emit_int32(op); |
0 | 715 } |
716 | |
717 static inline void emit3_simm10(CodeBuffer &cbuf, int f30, int f25, int f19, int f14, int simm10 ) { | |
718 simm10 &= (1<<10)-1; // Mask to 10 bits | |
719 emit3_simm13(cbuf,f30,f25,f19,f14,simm10); | |
720 } | |
721 | |
722 #ifdef ASSERT | |
723 // Helper function for VerifyOops in emit_form3_mem_reg | |
724 void verify_oops_warning(const MachNode *n, int ideal_op, int mem_op) { | |
725 warning("VerifyOops encountered unexpected instruction:"); | |
726 n->dump(2); | |
727 warning("Instruction has ideal_Opcode==Op_%s and op_ld==Op_%s \n", NodeClassNames[ideal_op], NodeClassNames[mem_op]); | |
728 } | |
729 #endif | |
730 | |
731 | |
732 void emit_form3_mem_reg(CodeBuffer &cbuf, const MachNode* n, int primary, int tertiary, | |
733 int src1_enc, int disp32, int src2_enc, int dst_enc) { | |
734 | |
735 #ifdef ASSERT | |
736 // The following code implements the +VerifyOops feature. | |
737 // It verifies oop values which are loaded into or stored out of | |
738 // the current method activation. +VerifyOops complements techniques | |
739 // like ScavengeALot, because it eagerly inspects oops in transit, | |
740 // as they enter or leave the stack, as opposed to ScavengeALot, | |
741 // which inspects oops "at rest", in the stack or heap, at safepoints. | |
742 // For this reason, +VerifyOops can sometimes detect bugs very close | |
743 // to their point of creation. It can also serve as a cross-check | |
744 // on the validity of oop maps, when used toegether with ScavengeALot. | |
745 | |
746 // It would be good to verify oops at other points, especially | |
747 // when an oop is used as a base pointer for a load or store. | |
748 // This is presently difficult, because it is hard to know when | |
749 // a base address is biased or not. (If we had such information, | |
750 // it would be easy and useful to make a two-argument version of | |
751 // verify_oop which unbiases the base, and performs verification.) | |
752 | |
753 assert((uint)tertiary == 0xFFFFFFFF || tertiary == REGP_OP, "valid tertiary"); | |
754 bool is_verified_oop_base = false; | |
755 bool is_verified_oop_load = false; | |
756 bool is_verified_oop_store = false; | |
757 int tmp_enc = -1; | |
758 if (VerifyOops && src1_enc != R_SP_enc) { | |
759 // classify the op, mainly for an assert check | |
760 int st_op = 0, ld_op = 0; | |
761 switch (primary) { | |
762 case Assembler::stb_op3: st_op = Op_StoreB; break; | |
763 case Assembler::sth_op3: st_op = Op_StoreC; break; | |
764 case Assembler::stx_op3: // may become StoreP or stay StoreI or StoreD0 | |
765 case Assembler::stw_op3: st_op = Op_StoreI; break; | |
766 case Assembler::std_op3: st_op = Op_StoreL; break; | |
767 case Assembler::stf_op3: st_op = Op_StoreF; break; | |
768 case Assembler::stdf_op3: st_op = Op_StoreD; break; | |
769 | |
770 case Assembler::ldsb_op3: ld_op = Op_LoadB; break; | |
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771 case Assembler::lduh_op3: ld_op = Op_LoadUS; break; |
0 | 772 case Assembler::ldsh_op3: ld_op = Op_LoadS; break; |
773 case Assembler::ldx_op3: // may become LoadP or stay LoadI | |
774 case Assembler::ldsw_op3: // may become LoadP or stay LoadI | |
775 case Assembler::lduw_op3: ld_op = Op_LoadI; break; | |
776 case Assembler::ldd_op3: ld_op = Op_LoadL; break; | |
777 case Assembler::ldf_op3: ld_op = Op_LoadF; break; | |
778 case Assembler::lddf_op3: ld_op = Op_LoadD; break; | |
779 case Assembler::ldub_op3: ld_op = Op_LoadB; break; | |
780 case Assembler::prefetch_op3: ld_op = Op_LoadI; break; | |
781 | |
782 default: ShouldNotReachHere(); | |
783 } | |
784 if (tertiary == REGP_OP) { | |
785 if (st_op == Op_StoreI) st_op = Op_StoreP; | |
786 else if (ld_op == Op_LoadI) ld_op = Op_LoadP; | |
787 else ShouldNotReachHere(); | |
788 if (st_op) { | |
789 // a store | |
790 // inputs are (0:control, 1:memory, 2:address, 3:value) | |
791 Node* n2 = n->in(3); | |
792 if (n2 != NULL) { | |
793 const Type* t = n2->bottom_type(); | |
794 is_verified_oop_store = t->isa_oop_ptr() ? (t->is_ptr()->_offset==0) : false; | |
795 } | |
796 } else { | |
797 // a load | |
798 const Type* t = n->bottom_type(); | |
799 is_verified_oop_load = t->isa_oop_ptr() ? (t->is_ptr()->_offset==0) : false; | |
800 } | |
801 } | |
802 | |
803 if (ld_op) { | |
804 // a Load | |
805 // inputs are (0:control, 1:memory, 2:address) | |
806 if (!(n->ideal_Opcode()==ld_op) && // Following are special cases | |
807 !(n->ideal_Opcode()==Op_LoadLLocked && ld_op==Op_LoadI) && | |
808 !(n->ideal_Opcode()==Op_LoadPLocked && ld_op==Op_LoadP) && | |
809 !(n->ideal_Opcode()==Op_LoadI && ld_op==Op_LoadF) && | |
810 !(n->ideal_Opcode()==Op_LoadF && ld_op==Op_LoadI) && | |
811 !(n->ideal_Opcode()==Op_LoadRange && ld_op==Op_LoadI) && | |
812 !(n->ideal_Opcode()==Op_LoadKlass && ld_op==Op_LoadP) && | |
813 !(n->ideal_Opcode()==Op_LoadL && ld_op==Op_LoadI) && | |
814 !(n->ideal_Opcode()==Op_LoadL_unaligned && ld_op==Op_LoadI) && | |
815 !(n->ideal_Opcode()==Op_LoadD_unaligned && ld_op==Op_LoadF) && | |
816 !(n->ideal_Opcode()==Op_ConvI2F && ld_op==Op_LoadF) && | |
817 !(n->ideal_Opcode()==Op_ConvI2D && ld_op==Op_LoadF) && | |
818 !(n->ideal_Opcode()==Op_PrefetchRead && ld_op==Op_LoadI) && | |
819 !(n->ideal_Opcode()==Op_PrefetchWrite && ld_op==Op_LoadI) && | |
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820 !(n->ideal_Opcode()==Op_Load2I && ld_op==Op_LoadD) && |
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821 !(n->ideal_Opcode()==Op_Load4C && ld_op==Op_LoadD) && |
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822 !(n->ideal_Opcode()==Op_Load4S && ld_op==Op_LoadD) && |
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823 !(n->ideal_Opcode()==Op_Load8B && ld_op==Op_LoadD) && |
0 | 824 !(n->rule() == loadUB_rule)) { |
825 verify_oops_warning(n, n->ideal_Opcode(), ld_op); | |
826 } | |
827 } else if (st_op) { | |
828 // a Store | |
829 // inputs are (0:control, 1:memory, 2:address, 3:value) | |
830 if (!(n->ideal_Opcode()==st_op) && // Following are special cases | |
831 !(n->ideal_Opcode()==Op_StoreCM && st_op==Op_StoreB) && | |
832 !(n->ideal_Opcode()==Op_StoreI && st_op==Op_StoreF) && | |
833 !(n->ideal_Opcode()==Op_StoreF && st_op==Op_StoreI) && | |
834 !(n->ideal_Opcode()==Op_StoreL && st_op==Op_StoreI) && | |
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835 !(n->ideal_Opcode()==Op_Store2I && st_op==Op_StoreD) && |
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836 !(n->ideal_Opcode()==Op_Store4C && st_op==Op_StoreD) && |
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837 !(n->ideal_Opcode()==Op_Store8B && st_op==Op_StoreD) && |
0 | 838 !(n->ideal_Opcode()==Op_StoreD && st_op==Op_StoreI && n->rule() == storeD0_rule)) { |
839 verify_oops_warning(n, n->ideal_Opcode(), st_op); | |
840 } | |
841 } | |
842 | |
843 if (src2_enc == R_G0_enc && n->rule() != loadUB_rule && n->ideal_Opcode() != Op_StoreCM ) { | |
844 Node* addr = n->in(2); | |
845 if (!(addr->is_Mach() && addr->as_Mach()->ideal_Opcode() == Op_AddP)) { | |
846 const TypeOopPtr* atype = addr->bottom_type()->isa_instptr(); // %%% oopptr? | |
847 if (atype != NULL) { | |
848 intptr_t offset = get_offset_from_base(n, atype, disp32); | |
849 intptr_t offset_2 = get_offset_from_base_2(n, atype, disp32); | |
850 if (offset != offset_2) { | |
851 get_offset_from_base(n, atype, disp32); | |
852 get_offset_from_base_2(n, atype, disp32); | |
853 } | |
854 assert(offset == offset_2, "different offsets"); | |
855 if (offset == disp32) { | |
856 // we now know that src1 is a true oop pointer | |
857 is_verified_oop_base = true; | |
858 if (ld_op && src1_enc == dst_enc && ld_op != Op_LoadF && ld_op != Op_LoadD) { | |
859 if( primary == Assembler::ldd_op3 ) { | |
860 is_verified_oop_base = false; // Cannot 'ldd' into O7 | |
861 } else { | |
862 tmp_enc = dst_enc; | |
863 dst_enc = R_O7_enc; // Load into O7; preserve source oop | |
864 assert(src1_enc != dst_enc, ""); | |
865 } | |
866 } | |
867 } | |
868 if (st_op && (( offset == oopDesc::klass_offset_in_bytes()) | |
869 || offset == oopDesc::mark_offset_in_bytes())) { | |
870 // loading the mark should not be allowed either, but | |
871 // we don't check this since it conflicts with InlineObjectHash | |
872 // usage of LoadINode to get the mark. We could keep the | |
873 // check if we create a new LoadMarkNode | |
874 // but do not verify the object before its header is initialized | |
875 ShouldNotReachHere(); | |
876 } | |
877 } | |
878 } | |
879 } | |
880 } | |
881 #endif | |
882 | |
883 uint instr; | |
884 instr = (Assembler::ldst_op << 30) | |
885 | (dst_enc << 25) | |
886 | (primary << 19) | |
887 | (src1_enc << 14); | |
888 | |
889 uint index = src2_enc; | |
890 int disp = disp32; | |
891 | |
892 if (src1_enc == R_SP_enc || src1_enc == R_FP_enc) | |
893 disp += STACK_BIAS; | |
894 | |
895 // We should have a compiler bailout here rather than a guarantee. | |
896 // Better yet would be some mechanism to handle variable-size matches correctly. | |
897 guarantee(Assembler::is_simm13(disp), "Do not match large constant offsets" ); | |
898 | |
899 if( disp == 0 ) { | |
900 // use reg-reg form | |
901 // bit 13 is already zero | |
902 instr |= index; | |
903 } else { | |
904 // use reg-imm form | |
905 instr |= 0x00002000; // set bit 13 to one | |
906 instr |= disp & 0x1FFF; | |
907 } | |
908 | |
1748 | 909 cbuf.insts()->emit_int32(instr); |
0 | 910 |
911 #ifdef ASSERT | |
912 { | |
913 MacroAssembler _masm(&cbuf); | |
914 if (is_verified_oop_base) { | |
915 __ verify_oop(reg_to_register_object(src1_enc)); | |
916 } | |
917 if (is_verified_oop_store) { | |
918 __ verify_oop(reg_to_register_object(dst_enc)); | |
919 } | |
920 if (tmp_enc != -1) { | |
921 __ mov(O7, reg_to_register_object(tmp_enc)); | |
922 } | |
923 if (is_verified_oop_load) { | |
924 __ verify_oop(reg_to_register_object(dst_enc)); | |
925 } | |
926 } | |
927 #endif | |
928 } | |
929 | |
930 void emit_call_reloc(CodeBuffer &cbuf, intptr_t entry_point, relocInfo::relocType rtype, bool preserve_g2 = false, bool force_far_call = false) { | |
931 // The method which records debug information at every safepoint | |
932 // expects the call to be the first instruction in the snippet as | |
933 // it creates a PcDesc structure which tracks the offset of a call | |
934 // from the start of the codeBlob. This offset is computed as | |
935 // code_end() - code_begin() of the code which has been emitted | |
936 // so far. | |
937 // In this particular case we have skirted around the problem by | |
938 // putting the "mov" instruction in the delay slot but the problem | |
939 // may bite us again at some other point and a cleaner/generic | |
940 // solution using relocations would be needed. | |
941 MacroAssembler _masm(&cbuf); | |
942 __ set_inst_mark(); | |
943 | |
944 // We flush the current window just so that there is a valid stack copy | |
945 // the fact that the current window becomes active again instantly is | |
946 // not a problem there is nothing live in it. | |
947 | |
948 #ifdef ASSERT | |
949 int startpos = __ offset(); | |
950 #endif /* ASSERT */ | |
951 | |
952 #ifdef _LP64 | |
953 // Calls to the runtime or native may not be reachable from compiled code, | |
954 // so we generate the far call sequence on 64 bit sparc. | |
955 // This code sequence is relocatable to any address, even on LP64. | |
956 if ( force_far_call ) { | |
957 __ relocate(rtype); | |
727 | 958 AddressLiteral dest(entry_point); |
959 __ jumpl_to(dest, O7, O7); | |
0 | 960 } |
961 else | |
962 #endif | |
963 { | |
964 __ call((address)entry_point, rtype); | |
965 } | |
966 | |
967 if (preserve_g2) __ delayed()->mov(G2, L7); | |
968 else __ delayed()->nop(); | |
969 | |
970 if (preserve_g2) __ mov(L7, G2); | |
971 | |
972 #ifdef ASSERT | |
973 if (preserve_g2 && (VerifyCompiledCode || VerifyOops)) { | |
974 #ifdef _LP64 | |
975 // Trash argument dump slots. | |
976 __ set(0xb0b8ac0db0b8ac0d, G1); | |
977 __ mov(G1, G5); | |
978 __ stx(G1, SP, STACK_BIAS + 0x80); | |
979 __ stx(G1, SP, STACK_BIAS + 0x88); | |
980 __ stx(G1, SP, STACK_BIAS + 0x90); | |
981 __ stx(G1, SP, STACK_BIAS + 0x98); | |
982 __ stx(G1, SP, STACK_BIAS + 0xA0); | |
983 __ stx(G1, SP, STACK_BIAS + 0xA8); | |
984 #else // _LP64 | |
985 // this is also a native call, so smash the first 7 stack locations, | |
986 // and the various registers | |
987 | |
988 // Note: [SP+0x40] is sp[callee_aggregate_return_pointer_sp_offset], | |
989 // while [SP+0x44..0x58] are the argument dump slots. | |
990 __ set((intptr_t)0xbaadf00d, G1); | |
991 __ mov(G1, G5); | |
992 __ sllx(G1, 32, G1); | |
993 __ or3(G1, G5, G1); | |
994 __ mov(G1, G5); | |
995 __ stx(G1, SP, 0x40); | |
996 __ stx(G1, SP, 0x48); | |
997 __ stx(G1, SP, 0x50); | |
998 __ stw(G1, SP, 0x58); // Do not trash [SP+0x5C] which is a usable spill slot | |
999 #endif // _LP64 | |
1000 } | |
1001 #endif /*ASSERT*/ | |
1002 } | |
1003 | |
1004 //============================================================================= | |
1005 // REQUIRED FUNCTIONALITY for encoding | |
1006 void emit_lo(CodeBuffer &cbuf, int val) { } | |
1007 void emit_hi(CodeBuffer &cbuf, int val) { } | |
1008 | |
1009 | |
1010 //============================================================================= | |
1011 | |
1012 #ifndef PRODUCT | |
1013 void MachPrologNode::format( PhaseRegAlloc *ra_, outputStream *st ) const { | |
1014 Compile* C = ra_->C; | |
1015 | |
1016 for (int i = 0; i < OptoPrologueNops; i++) { | |
1017 st->print_cr("NOP"); st->print("\t"); | |
1018 } | |
1019 | |
1020 if( VerifyThread ) { | |
1021 st->print_cr("Verify_Thread"); st->print("\t"); | |
1022 } | |
1023 | |
1024 size_t framesize = C->frame_slots() << LogBytesPerInt; | |
1025 | |
1026 // Calls to C2R adapters often do not accept exceptional returns. | |
1027 // We require that their callers must bang for them. But be careful, because | |
1028 // some VM calls (such as call site linkage) can use several kilobytes of | |
1029 // stack. But the stack safety zone should account for that. | |
1030 // See bugs 4446381, 4468289, 4497237. | |
1031 if (C->need_stack_bang(framesize)) { | |
1032 st->print_cr("! stack bang"); st->print("\t"); | |
1033 } | |
1034 | |
1035 if (Assembler::is_simm13(-framesize)) { | |
1036 st->print ("SAVE R_SP,-%d,R_SP",framesize); | |
1037 } else { | |
1038 st->print_cr("SETHI R_SP,hi%%(-%d),R_G3",framesize); st->print("\t"); | |
1039 st->print_cr("ADD R_G3,lo%%(-%d),R_G3",framesize); st->print("\t"); | |
1040 st->print ("SAVE R_SP,R_G3,R_SP"); | |
1041 } | |
1042 | |
1043 } | |
1044 #endif | |
1045 | |
1046 void MachPrologNode::emit(CodeBuffer &cbuf, PhaseRegAlloc *ra_) const { | |
1047 Compile* C = ra_->C; | |
1048 MacroAssembler _masm(&cbuf); | |
1049 | |
1050 for (int i = 0; i < OptoPrologueNops; i++) { | |
1051 __ nop(); | |
1052 } | |
1053 | |
1054 __ verify_thread(); | |
1055 | |
1056 size_t framesize = C->frame_slots() << LogBytesPerInt; | |
1057 assert(framesize >= 16*wordSize, "must have room for reg. save area"); | |
1058 assert(framesize%(2*wordSize) == 0, "must preserve 2*wordSize alignment"); | |
1059 | |
1060 // Calls to C2R adapters often do not accept exceptional returns. | |
1061 // We require that their callers must bang for them. But be careful, because | |
1062 // some VM calls (such as call site linkage) can use several kilobytes of | |
1063 // stack. But the stack safety zone should account for that. | |
1064 // See bugs 4446381, 4468289, 4497237. | |
1065 if (C->need_stack_bang(framesize)) { | |
1066 __ generate_stack_overflow_check(framesize); | |
1067 } | |
1068 | |
1069 if (Assembler::is_simm13(-framesize)) { | |
1070 __ save(SP, -framesize, SP); | |
1071 } else { | |
1072 __ sethi(-framesize & ~0x3ff, G3); | |
1073 __ add(G3, -framesize & 0x3ff, G3); | |
1074 __ save(SP, G3, SP); | |
1075 } | |
1076 C->set_frame_complete( __ offset() ); | |
1077 } | |
1078 | |
1079 uint MachPrologNode::size(PhaseRegAlloc *ra_) const { | |
1080 return MachNode::size(ra_); | |
1081 } | |
1082 | |
1083 int MachPrologNode::reloc() const { | |
1084 return 10; // a large enough number | |
1085 } | |
1086 | |
1087 //============================================================================= | |
1088 #ifndef PRODUCT | |
1089 void MachEpilogNode::format( PhaseRegAlloc *ra_, outputStream *st ) const { | |
1090 Compile* C = ra_->C; | |
1091 | |
1092 if( do_polling() && ra_->C->is_method_compilation() ) { | |
1093 st->print("SETHI #PollAddr,L0\t! Load Polling address\n\t"); | |
1094 #ifdef _LP64 | |
1095 st->print("LDX [L0],G0\t!Poll for Safepointing\n\t"); | |
1096 #else | |
1097 st->print("LDUW [L0],G0\t!Poll for Safepointing\n\t"); | |
1098 #endif | |
1099 } | |
1100 | |
1101 if( do_polling() ) | |
1102 st->print("RET\n\t"); | |
1103 | |
1104 st->print("RESTORE"); | |
1105 } | |
1106 #endif | |
1107 | |
1108 void MachEpilogNode::emit(CodeBuffer &cbuf, PhaseRegAlloc *ra_) const { | |
1109 MacroAssembler _masm(&cbuf); | |
1110 Compile* C = ra_->C; | |
1111 | |
1112 __ verify_thread(); | |
1113 | |
1114 // If this does safepoint polling, then do it here | |
1115 if( do_polling() && ra_->C->is_method_compilation() ) { | |
727 | 1116 AddressLiteral polling_page(os::get_polling_page()); |
1117 __ sethi(polling_page, L0); | |
0 | 1118 __ relocate(relocInfo::poll_return_type); |
1119 __ ld_ptr( L0, 0, G0 ); | |
1120 } | |
1121 | |
1122 // If this is a return, then stuff the restore in the delay slot | |
1123 if( do_polling() ) { | |
1124 __ ret(); | |
1125 __ delayed()->restore(); | |
1126 } else { | |
1127 __ restore(); | |
1128 } | |
1129 } | |
1130 | |
1131 uint MachEpilogNode::size(PhaseRegAlloc *ra_) const { | |
1132 return MachNode::size(ra_); | |
1133 } | |
1134 | |
1135 int MachEpilogNode::reloc() const { | |
1136 return 16; // a large enough number | |
1137 } | |
1138 | |
1139 const Pipeline * MachEpilogNode::pipeline() const { | |
1140 return MachNode::pipeline_class(); | |
1141 } | |
1142 | |
1143 int MachEpilogNode::safepoint_offset() const { | |
1144 assert( do_polling(), "no return for this epilog node"); | |
1145 return MacroAssembler::size_of_sethi(os::get_polling_page()); | |
1146 } | |
1147 | |
1148 //============================================================================= | |
1149 | |
1150 // Figure out which register class each belongs in: rc_int, rc_float, rc_stack | |
1151 enum RC { rc_bad, rc_int, rc_float, rc_stack }; | |
1152 static enum RC rc_class( OptoReg::Name reg ) { | |
1153 if( !OptoReg::is_valid(reg) ) return rc_bad; | |
1154 if (OptoReg::is_stack(reg)) return rc_stack; | |
1155 VMReg r = OptoReg::as_VMReg(reg); | |
1156 if (r->is_Register()) return rc_int; | |
1157 assert(r->is_FloatRegister(), "must be"); | |
1158 return rc_float; | |
1159 } | |
1160 | |
1161 static int impl_helper( const MachNode *mach, CodeBuffer *cbuf, PhaseRegAlloc *ra_, bool do_size, bool is_load, int offset, int reg, int opcode, const char *op_str, int size, outputStream* st ) { | |
1162 if( cbuf ) { | |
1163 // Better yet would be some mechanism to handle variable-size matches correctly | |
1164 if (!Assembler::is_simm13(offset + STACK_BIAS)) { | |
1165 ra_->C->record_method_not_compilable("unable to handle large constant offsets"); | |
1166 } else { | |
1167 emit_form3_mem_reg(*cbuf, mach, opcode, -1, R_SP_enc, offset, 0, Matcher::_regEncode[reg]); | |
1168 } | |
1169 } | |
1170 #ifndef PRODUCT | |
1171 else if( !do_size ) { | |
1172 if( size != 0 ) st->print("\n\t"); | |
1173 if( is_load ) st->print("%s [R_SP + #%d],R_%s\t! spill",op_str,offset,OptoReg::regname(reg)); | |
1174 else st->print("%s R_%s,[R_SP + #%d]\t! spill",op_str,OptoReg::regname(reg),offset); | |
1175 } | |
1176 #endif | |
1177 return size+4; | |
1178 } | |
1179 | |
1180 static int impl_mov_helper( CodeBuffer *cbuf, bool do_size, int src, int dst, int op1, int op2, const char *op_str, int size, outputStream* st ) { | |
1181 if( cbuf ) emit3( *cbuf, Assembler::arith_op, Matcher::_regEncode[dst], op1, 0, op2, Matcher::_regEncode[src] ); | |
1182 #ifndef PRODUCT | |
1183 else if( !do_size ) { | |
1184 if( size != 0 ) st->print("\n\t"); | |
1185 st->print("%s R_%s,R_%s\t! spill",op_str,OptoReg::regname(src),OptoReg::regname(dst)); | |
1186 } | |
1187 #endif | |
1188 return size+4; | |
1189 } | |
1190 | |
1191 uint MachSpillCopyNode::implementation( CodeBuffer *cbuf, | |
1192 PhaseRegAlloc *ra_, | |
1193 bool do_size, | |
1194 outputStream* st ) const { | |
1195 // Get registers to move | |
1196 OptoReg::Name src_second = ra_->get_reg_second(in(1)); | |
1197 OptoReg::Name src_first = ra_->get_reg_first(in(1)); | |
1198 OptoReg::Name dst_second = ra_->get_reg_second(this ); | |
1199 OptoReg::Name dst_first = ra_->get_reg_first(this ); | |
1200 | |
1201 enum RC src_second_rc = rc_class(src_second); | |
1202 enum RC src_first_rc = rc_class(src_first); | |
1203 enum RC dst_second_rc = rc_class(dst_second); | |
1204 enum RC dst_first_rc = rc_class(dst_first); | |
1205 | |
1206 assert( OptoReg::is_valid(src_first) && OptoReg::is_valid(dst_first), "must move at least 1 register" ); | |
1207 | |
1208 // Generate spill code! | |
1209 int size = 0; | |
1210 | |
1211 if( src_first == dst_first && src_second == dst_second ) | |
1212 return size; // Self copy, no move | |
1213 | |
1214 // -------------------------------------- | |
1215 // Check for mem-mem move. Load into unused float registers and fall into | |
1216 // the float-store case. | |
1217 if( src_first_rc == rc_stack && dst_first_rc == rc_stack ) { | |
1218 int offset = ra_->reg2offset(src_first); | |
1219 // Further check for aligned-adjacent pair, so we can use a double load | |
1220 if( (src_first&1)==0 && src_first+1 == src_second ) { | |
1221 src_second = OptoReg::Name(R_F31_num); | |
1222 src_second_rc = rc_float; | |
1223 size = impl_helper(this,cbuf,ra_,do_size,true,offset,R_F30_num,Assembler::lddf_op3,"LDDF",size, st); | |
1224 } else { | |
1225 size = impl_helper(this,cbuf,ra_,do_size,true,offset,R_F30_num,Assembler::ldf_op3 ,"LDF ",size, st); | |
1226 } | |
1227 src_first = OptoReg::Name(R_F30_num); | |
1228 src_first_rc = rc_float; | |
1229 } | |
1230 | |
1231 if( src_second_rc == rc_stack && dst_second_rc == rc_stack ) { | |
1232 int offset = ra_->reg2offset(src_second); | |
1233 size = impl_helper(this,cbuf,ra_,do_size,true,offset,R_F31_num,Assembler::ldf_op3,"LDF ",size, st); | |
1234 src_second = OptoReg::Name(R_F31_num); | |
1235 src_second_rc = rc_float; | |
1236 } | |
1237 | |
1238 // -------------------------------------- | |
1239 // Check for float->int copy; requires a trip through memory | |
1240 if( src_first_rc == rc_float && dst_first_rc == rc_int ) { | |
1241 int offset = frame::register_save_words*wordSize; | |
1242 if( cbuf ) { | |
1243 emit3_simm13( *cbuf, Assembler::arith_op, R_SP_enc, Assembler::sub_op3, R_SP_enc, 16 ); | |
1244 impl_helper(this,cbuf,ra_,do_size,false,offset,src_first,Assembler::stf_op3 ,"STF ",size, st); | |
1245 impl_helper(this,cbuf,ra_,do_size,true ,offset,dst_first,Assembler::lduw_op3,"LDUW",size, st); | |
1246 emit3_simm13( *cbuf, Assembler::arith_op, R_SP_enc, Assembler::add_op3, R_SP_enc, 16 ); | |
1247 } | |
1248 #ifndef PRODUCT | |
1249 else if( !do_size ) { | |
1250 if( size != 0 ) st->print("\n\t"); | |
1251 st->print( "SUB R_SP,16,R_SP\n"); | |
1252 impl_helper(this,cbuf,ra_,do_size,false,offset,src_first,Assembler::stf_op3 ,"STF ",size, st); | |
1253 impl_helper(this,cbuf,ra_,do_size,true ,offset,dst_first,Assembler::lduw_op3,"LDUW",size, st); | |
1254 st->print("\tADD R_SP,16,R_SP\n"); | |
1255 } | |
1256 #endif | |
1257 size += 16; | |
1258 } | |
1259 | |
1260 // -------------------------------------- | |
1261 // In the 32-bit 1-reg-longs build ONLY, I see mis-aligned long destinations. | |
1262 // In such cases, I have to do the big-endian swap. For aligned targets, the | |
1263 // hardware does the flop for me. Doubles are always aligned, so no problem | |
1264 // there. Misaligned sources only come from native-long-returns (handled | |
1265 // special below). | |
1266 #ifndef _LP64 | |
1267 if( src_first_rc == rc_int && // source is already big-endian | |
1268 src_second_rc != rc_bad && // 64-bit move | |
1269 ((dst_first&1)!=0 || dst_second != dst_first+1) ) { // misaligned dst | |
1270 assert( (src_first&1)==0 && src_second == src_first+1, "source must be aligned" ); | |
1271 // Do the big-endian flop. | |
1272 OptoReg::Name tmp = dst_first ; dst_first = dst_second ; dst_second = tmp ; | |
1273 enum RC tmp_rc = dst_first_rc; dst_first_rc = dst_second_rc; dst_second_rc = tmp_rc; | |
1274 } | |
1275 #endif | |
1276 | |
1277 // -------------------------------------- | |
1278 // Check for integer reg-reg copy | |
1279 if( src_first_rc == rc_int && dst_first_rc == rc_int ) { | |
1280 #ifndef _LP64 | |
1281 if( src_first == R_O0_num && src_second == R_O1_num ) { // Check for the evil O0/O1 native long-return case | |
1282 // Note: The _first and _second suffixes refer to the addresses of the the 2 halves of the 64-bit value | |
1283 // as stored in memory. On a big-endian machine like SPARC, this means that the _second | |
1284 // operand contains the least significant word of the 64-bit value and vice versa. | |
1285 OptoReg::Name tmp = OptoReg::Name(R_O7_num); | |
1286 assert( (dst_first&1)==0 && dst_second == dst_first+1, "return a native O0/O1 long to an aligned-adjacent 64-bit reg" ); | |
1287 // Shift O0 left in-place, zero-extend O1, then OR them into the dst | |
1288 if( cbuf ) { | |
1289 emit3_simm13( *cbuf, Assembler::arith_op, Matcher::_regEncode[tmp], Assembler::sllx_op3, Matcher::_regEncode[src_first], 0x1020 ); | |
1290 emit3_simm13( *cbuf, Assembler::arith_op, Matcher::_regEncode[src_second], Assembler::srl_op3, Matcher::_regEncode[src_second], 0x0000 ); | |
1291 emit3 ( *cbuf, Assembler::arith_op, Matcher::_regEncode[dst_first], Assembler:: or_op3, Matcher::_regEncode[tmp], 0, Matcher::_regEncode[src_second] ); | |
1292 #ifndef PRODUCT | |
1293 } else if( !do_size ) { | |
1294 if( size != 0 ) st->print("\n\t"); | |
1295 st->print("SLLX R_%s,32,R_%s\t! Move O0-first to O7-high\n\t", OptoReg::regname(src_first), OptoReg::regname(tmp)); | |
1296 st->print("SRL R_%s, 0,R_%s\t! Zero-extend O1\n\t", OptoReg::regname(src_second), OptoReg::regname(src_second)); | |
1297 st->print("OR R_%s,R_%s,R_%s\t! spill",OptoReg::regname(tmp), OptoReg::regname(src_second), OptoReg::regname(dst_first)); | |
1298 #endif | |
1299 } | |
1300 return size+12; | |
1301 } | |
1302 else if( dst_first == R_I0_num && dst_second == R_I1_num ) { | |
1303 // returning a long value in I0/I1 | |
1304 // a SpillCopy must be able to target a return instruction's reg_class | |
1305 // Note: The _first and _second suffixes refer to the addresses of the the 2 halves of the 64-bit value | |
1306 // as stored in memory. On a big-endian machine like SPARC, this means that the _second | |
1307 // operand contains the least significant word of the 64-bit value and vice versa. | |
1308 OptoReg::Name tdest = dst_first; | |
1309 | |
1310 if (src_first == dst_first) { | |
1311 tdest = OptoReg::Name(R_O7_num); | |
1312 size += 4; | |
1313 } | |
1314 | |
1315 if( cbuf ) { | |
1316 assert( (src_first&1) == 0 && (src_first+1) == src_second, "return value was in an aligned-adjacent 64-bit reg"); | |
1317 // Shift value in upper 32-bits of src to lower 32-bits of I0; move lower 32-bits to I1 | |
1318 // ShrL_reg_imm6 | |
1319 emit3_simm13( *cbuf, Assembler::arith_op, Matcher::_regEncode[tdest], Assembler::srlx_op3, Matcher::_regEncode[src_second], 32 | 0x1000 ); | |
1320 // ShrR_reg_imm6 src, 0, dst | |
1321 emit3_simm13( *cbuf, Assembler::arith_op, Matcher::_regEncode[dst_second], Assembler::srl_op3, Matcher::_regEncode[src_first], 0x0000 ); | |
1322 if (tdest != dst_first) { | |
1323 emit3 ( *cbuf, Assembler::arith_op, Matcher::_regEncode[dst_first], Assembler::or_op3, 0/*G0*/, 0/*op2*/, Matcher::_regEncode[tdest] ); | |
1324 } | |
1325 } | |
1326 #ifndef PRODUCT | |
1327 else if( !do_size ) { | |
1328 if( size != 0 ) st->print("\n\t"); // %%%%% !!!!! | |
1329 st->print("SRLX R_%s,32,R_%s\t! Extract MSW\n\t",OptoReg::regname(src_second),OptoReg::regname(tdest)); | |
1330 st->print("SRL R_%s, 0,R_%s\t! Extract LSW\n\t",OptoReg::regname(src_first),OptoReg::regname(dst_second)); | |
1331 if (tdest != dst_first) { | |
1332 st->print("MOV R_%s,R_%s\t! spill\n\t", OptoReg::regname(tdest), OptoReg::regname(dst_first)); | |
1333 } | |
1334 } | |
1335 #endif // PRODUCT | |
1336 return size+8; | |
1337 } | |
1338 #endif // !_LP64 | |
1339 // Else normal reg-reg copy | |
1340 assert( src_second != dst_first, "smashed second before evacuating it" ); | |
1341 size = impl_mov_helper(cbuf,do_size,src_first,dst_first,Assembler::or_op3,0,"MOV ",size, st); | |
1342 assert( (src_first&1) == 0 && (dst_first&1) == 0, "never move second-halves of int registers" ); | |
1343 // This moves an aligned adjacent pair. | |
1344 // See if we are done. | |
1345 if( src_first+1 == src_second && dst_first+1 == dst_second ) | |
1346 return size; | |
1347 } | |
1348 | |
1349 // Check for integer store | |
1350 if( src_first_rc == rc_int && dst_first_rc == rc_stack ) { | |
1351 int offset = ra_->reg2offset(dst_first); | |
1352 // Further check for aligned-adjacent pair, so we can use a double store | |
1353 if( (src_first&1)==0 && src_first+1 == src_second && (dst_first&1)==0 && dst_first+1 == dst_second ) | |
1354 return impl_helper(this,cbuf,ra_,do_size,false,offset,src_first,Assembler::stx_op3,"STX ",size, st); | |
1355 size = impl_helper(this,cbuf,ra_,do_size,false,offset,src_first,Assembler::stw_op3,"STW ",size, st); | |
1356 } | |
1357 | |
1358 // Check for integer load | |
1359 if( dst_first_rc == rc_int && src_first_rc == rc_stack ) { | |
1360 int offset = ra_->reg2offset(src_first); | |
1361 // Further check for aligned-adjacent pair, so we can use a double load | |
1362 if( (src_first&1)==0 && src_first+1 == src_second && (dst_first&1)==0 && dst_first+1 == dst_second ) | |
1363 return impl_helper(this,cbuf,ra_,do_size,true,offset,dst_first,Assembler::ldx_op3 ,"LDX ",size, st); | |
1364 size = impl_helper(this,cbuf,ra_,do_size,true,offset,dst_first,Assembler::lduw_op3,"LDUW",size, st); | |
1365 } | |
1366 | |
1367 // Check for float reg-reg copy | |
1368 if( src_first_rc == rc_float && dst_first_rc == rc_float ) { | |
1369 // Further check for aligned-adjacent pair, so we can use a double move | |
1370 if( (src_first&1)==0 && src_first+1 == src_second && (dst_first&1)==0 && dst_first+1 == dst_second ) | |
1371 return impl_mov_helper(cbuf,do_size,src_first,dst_first,Assembler::fpop1_op3,Assembler::fmovd_opf,"FMOVD",size, st); | |
1372 size = impl_mov_helper(cbuf,do_size,src_first,dst_first,Assembler::fpop1_op3,Assembler::fmovs_opf,"FMOVS",size, st); | |
1373 } | |
1374 | |
1375 // Check for float store | |
1376 if( src_first_rc == rc_float && dst_first_rc == rc_stack ) { | |
1377 int offset = ra_->reg2offset(dst_first); | |
1378 // Further check for aligned-adjacent pair, so we can use a double store | |
1379 if( (src_first&1)==0 && src_first+1 == src_second && (dst_first&1)==0 && dst_first+1 == dst_second ) | |
1380 return impl_helper(this,cbuf,ra_,do_size,false,offset,src_first,Assembler::stdf_op3,"STDF",size, st); | |
1381 size = impl_helper(this,cbuf,ra_,do_size,false,offset,src_first,Assembler::stf_op3 ,"STF ",size, st); | |
1382 } | |
1383 | |
1384 // Check for float load | |
1385 if( dst_first_rc == rc_float && src_first_rc == rc_stack ) { | |
1386 int offset = ra_->reg2offset(src_first); | |
1387 // Further check for aligned-adjacent pair, so we can use a double load | |
1388 if( (src_first&1)==0 && src_first+1 == src_second && (dst_first&1)==0 && dst_first+1 == dst_second ) | |
1389 return impl_helper(this,cbuf,ra_,do_size,true,offset,dst_first,Assembler::lddf_op3,"LDDF",size, st); | |
1390 size = impl_helper(this,cbuf,ra_,do_size,true,offset,dst_first,Assembler::ldf_op3 ,"LDF ",size, st); | |
1391 } | |
1392 | |
1393 // -------------------------------------------------------------------- | |
1394 // Check for hi bits still needing moving. Only happens for misaligned | |
1395 // arguments to native calls. | |
1396 if( src_second == dst_second ) | |
1397 return size; // Self copy; no move | |
1398 assert( src_second_rc != rc_bad && dst_second_rc != rc_bad, "src_second & dst_second cannot be Bad" ); | |
1399 | |
1400 #ifndef _LP64 | |
1401 // In the LP64 build, all registers can be moved as aligned/adjacent | |
605 | 1402 // pairs, so there's never any need to move the high bits separately. |
0 | 1403 // The 32-bit builds have to deal with the 32-bit ABI which can force |
1404 // all sorts of silly alignment problems. | |
1405 | |
1406 // Check for integer reg-reg copy. Hi bits are stuck up in the top | |
1407 // 32-bits of a 64-bit register, but are needed in low bits of another | |
1408 // register (else it's a hi-bits-to-hi-bits copy which should have | |
1409 // happened already as part of a 64-bit move) | |
1410 if( src_second_rc == rc_int && dst_second_rc == rc_int ) { | |
1411 assert( (src_second&1)==1, "its the evil O0/O1 native return case" ); | |
1412 assert( (dst_second&1)==0, "should have moved with 1 64-bit move" ); | |
1413 // Shift src_second down to dst_second's low bits. | |
1414 if( cbuf ) { | |
1415 emit3_simm13( *cbuf, Assembler::arith_op, Matcher::_regEncode[dst_second], Assembler::srlx_op3, Matcher::_regEncode[src_second-1], 0x1020 ); | |
1416 #ifndef PRODUCT | |
1417 } else if( !do_size ) { | |
1418 if( size != 0 ) st->print("\n\t"); | |
1419 st->print("SRLX R_%s,32,R_%s\t! spill: Move high bits down low",OptoReg::regname(src_second-1),OptoReg::regname(dst_second)); | |
1420 #endif | |
1421 } | |
1422 return size+4; | |
1423 } | |
1424 | |
1425 // Check for high word integer store. Must down-shift the hi bits | |
1426 // into a temp register, then fall into the case of storing int bits. | |
1427 if( src_second_rc == rc_int && dst_second_rc == rc_stack && (src_second&1)==1 ) { | |
1428 // Shift src_second down to dst_second's low bits. | |
1429 if( cbuf ) { | |
1430 emit3_simm13( *cbuf, Assembler::arith_op, Matcher::_regEncode[R_O7_num], Assembler::srlx_op3, Matcher::_regEncode[src_second-1], 0x1020 ); | |
1431 #ifndef PRODUCT | |
1432 } else if( !do_size ) { | |
1433 if( size != 0 ) st->print("\n\t"); | |
1434 st->print("SRLX R_%s,32,R_%s\t! spill: Move high bits down low",OptoReg::regname(src_second-1),OptoReg::regname(R_O7_num)); | |
1435 #endif | |
1436 } | |
1437 size+=4; | |
1438 src_second = OptoReg::Name(R_O7_num); // Not R_O7H_num! | |
1439 } | |
1440 | |
1441 // Check for high word integer load | |
1442 if( dst_second_rc == rc_int && src_second_rc == rc_stack ) | |
1443 return impl_helper(this,cbuf,ra_,do_size,true ,ra_->reg2offset(src_second),dst_second,Assembler::lduw_op3,"LDUW",size, st); | |
1444 | |
1445 // Check for high word integer store | |
1446 if( src_second_rc == rc_int && dst_second_rc == rc_stack ) | |
1447 return impl_helper(this,cbuf,ra_,do_size,false,ra_->reg2offset(dst_second),src_second,Assembler::stw_op3 ,"STW ",size, st); | |
1448 | |
1449 // Check for high word float store | |
1450 if( src_second_rc == rc_float && dst_second_rc == rc_stack ) | |
1451 return impl_helper(this,cbuf,ra_,do_size,false,ra_->reg2offset(dst_second),src_second,Assembler::stf_op3 ,"STF ",size, st); | |
1452 | |
1453 #endif // !_LP64 | |
1454 | |
1455 Unimplemented(); | |
1456 } | |
1457 | |
1458 #ifndef PRODUCT | |
1459 void MachSpillCopyNode::format( PhaseRegAlloc *ra_, outputStream *st ) const { | |
1460 implementation( NULL, ra_, false, st ); | |
1461 } | |
1462 #endif | |
1463 | |
1464 void MachSpillCopyNode::emit(CodeBuffer &cbuf, PhaseRegAlloc *ra_) const { | |
1465 implementation( &cbuf, ra_, false, NULL ); | |
1466 } | |
1467 | |
1468 uint MachSpillCopyNode::size(PhaseRegAlloc *ra_) const { | |
1469 return implementation( NULL, ra_, true, NULL ); | |
1470 } | |
1471 | |
1472 //============================================================================= | |
1473 #ifndef PRODUCT | |
1474 void MachNopNode::format( PhaseRegAlloc *, outputStream *st ) const { | |
1475 st->print("NOP \t# %d bytes pad for loops and calls", 4 * _count); | |
1476 } | |
1477 #endif | |
1478 | |
1479 void MachNopNode::emit(CodeBuffer &cbuf, PhaseRegAlloc * ) const { | |
1480 MacroAssembler _masm(&cbuf); | |
1481 for(int i = 0; i < _count; i += 1) { | |
1482 __ nop(); | |
1483 } | |
1484 } | |
1485 | |
1486 uint MachNopNode::size(PhaseRegAlloc *ra_) const { | |
1487 return 4 * _count; | |
1488 } | |
1489 | |
1490 | |
1491 //============================================================================= | |
1492 #ifndef PRODUCT | |
1493 void BoxLockNode::format( PhaseRegAlloc *ra_, outputStream *st ) const { | |
1494 int offset = ra_->reg2offset(in_RegMask(0).find_first_elem()); | |
1495 int reg = ra_->get_reg_first(this); | |
1496 st->print("LEA [R_SP+#%d+BIAS],%s",offset,Matcher::regName[reg]); | |
1497 } | |
1498 #endif | |
1499 | |
1500 void BoxLockNode::emit(CodeBuffer &cbuf, PhaseRegAlloc *ra_) const { | |
1501 MacroAssembler _masm(&cbuf); | |
1502 int offset = ra_->reg2offset(in_RegMask(0).find_first_elem()) + STACK_BIAS; | |
1503 int reg = ra_->get_encode(this); | |
1504 | |
1505 if (Assembler::is_simm13(offset)) { | |
1506 __ add(SP, offset, reg_to_register_object(reg)); | |
1507 } else { | |
1508 __ set(offset, O7); | |
1509 __ add(SP, O7, reg_to_register_object(reg)); | |
1510 } | |
1511 } | |
1512 | |
1513 uint BoxLockNode::size(PhaseRegAlloc *ra_) const { | |
1514 // BoxLockNode is not a MachNode, so we can't just call MachNode::size(ra_) | |
1515 assert(ra_ == ra_->C->regalloc(), "sanity"); | |
1516 return ra_->C->scratch_emit_size(this); | |
1517 } | |
1518 | |
1519 //============================================================================= | |
1520 | |
1521 // emit call stub, compiled java to interpretor | |
1522 void emit_java_to_interp(CodeBuffer &cbuf ) { | |
1523 | |
1524 // Stub is fixed up when the corresponding call is converted from calling | |
1525 // compiled code to calling interpreted code. | |
1526 // set (empty), G5 | |
1527 // jmp -1 | |
1528 | |
1748 | 1529 address mark = cbuf.insts_mark(); // get mark within main instrs section |
0 | 1530 |
1531 MacroAssembler _masm(&cbuf); | |
1532 | |
1533 address base = | |
1534 __ start_a_stub(Compile::MAX_stubs_size); | |
1535 if (base == NULL) return; // CodeBuffer::expand failed | |
1536 | |
1537 // static stub relocation stores the instruction address of the call | |
1538 __ relocate(static_stub_Relocation::spec(mark)); | |
1539 | |
1540 __ set_oop(NULL, reg_to_register_object(Matcher::inline_cache_reg_encode())); | |
1541 | |
1542 __ set_inst_mark(); | |
727 | 1543 AddressLiteral addrlit(-1); |
1544 __ JUMP(addrlit, G3, 0); | |
0 | 1545 |
1546 __ delayed()->nop(); | |
1547 | |
1548 // Update current stubs pointer and restore code_end. | |
1549 __ end_a_stub(); | |
1550 } | |
1551 | |
1552 // size of call stub, compiled java to interpretor | |
1553 uint size_java_to_interp() { | |
1554 // This doesn't need to be accurate but it must be larger or equal to | |
1555 // the real size of the stub. | |
1556 return (NativeMovConstReg::instruction_size + // sethi/setlo; | |
1557 NativeJump::instruction_size + // sethi; jmp; nop | |
1558 (TraceJumps ? 20 * BytesPerInstWord : 0) ); | |
1559 } | |
1560 // relocation entries for call stub, compiled java to interpretor | |
1561 uint reloc_java_to_interp() { | |
1562 return 10; // 4 in emit_java_to_interp + 1 in Java_Static_Call | |
1563 } | |
1564 | |
1565 | |
1566 //============================================================================= | |
1567 #ifndef PRODUCT | |
1568 void MachUEPNode::format( PhaseRegAlloc *ra_, outputStream *st ) const { | |
1569 st->print_cr("\nUEP:"); | |
1570 #ifdef _LP64 | |
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1571 if (UseCompressedOops) { |
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1572 assert(Universe::heap() != NULL, "java heap should be initialized"); |
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1573 st->print_cr("\tLDUW [R_O0 + oopDesc::klass_offset_in_bytes],R_G5\t! Inline cache check - compressed klass"); |
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1574 st->print_cr("\tSLL R_G5,3,R_G5"); |
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1575 if (Universe::narrow_oop_base() != NULL) |
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1576 st->print_cr("\tADD R_G5,R_G6_heap_base,R_G5"); |
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1577 } else { |
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1578 st->print_cr("\tLDX [R_O0 + oopDesc::klass_offset_in_bytes],R_G5\t! Inline cache check"); |
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1579 } |
0 | 1580 st->print_cr("\tCMP R_G5,R_G3" ); |
1581 st->print ("\tTne xcc,R_G0+ST_RESERVED_FOR_USER_0+2"); | |
1582 #else // _LP64 | |
1583 st->print_cr("\tLDUW [R_O0 + oopDesc::klass_offset_in_bytes],R_G5\t! Inline cache check"); | |
1584 st->print_cr("\tCMP R_G5,R_G3" ); | |
1585 st->print ("\tTne icc,R_G0+ST_RESERVED_FOR_USER_0+2"); | |
1586 #endif // _LP64 | |
1587 } | |
1588 #endif | |
1589 | |
1590 void MachUEPNode::emit(CodeBuffer &cbuf, PhaseRegAlloc *ra_) const { | |
1591 MacroAssembler _masm(&cbuf); | |
1592 Label L; | |
1593 Register G5_ic_reg = reg_to_register_object(Matcher::inline_cache_reg_encode()); | |
1594 Register temp_reg = G3; | |
1595 assert( G5_ic_reg != temp_reg, "conflicting registers" ); | |
1596 | |
605 | 1597 // Load klass from receiver |
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1598 __ load_klass(O0, temp_reg); |
0 | 1599 // Compare against expected klass |
1600 __ cmp(temp_reg, G5_ic_reg); | |
1601 // Branch to miss code, checks xcc or icc depending | |
1602 __ trap(Assembler::notEqual, Assembler::ptr_cc, G0, ST_RESERVED_FOR_USER_0+2); | |
1603 } | |
1604 | |
1605 uint MachUEPNode::size(PhaseRegAlloc *ra_) const { | |
1606 return MachNode::size(ra_); | |
1607 } | |
1608 | |
1609 | |
1610 //============================================================================= | |
1611 | |
1612 uint size_exception_handler() { | |
1613 if (TraceJumps) { | |
1614 return (400); // just a guess | |
1615 } | |
1616 return ( NativeJump::instruction_size ); // sethi;jmp;nop | |
1617 } | |
1618 | |
1619 uint size_deopt_handler() { | |
1620 if (TraceJumps) { | |
1621 return (400); // just a guess | |
1622 } | |
1623 return ( 4+ NativeJump::instruction_size ); // save;sethi;jmp;restore | |
1624 } | |
1625 | |
1626 // Emit exception handler code. | |
1627 int emit_exception_handler(CodeBuffer& cbuf) { | |
1628 Register temp_reg = G3; | |
1748 | 1629 AddressLiteral exception_blob(OptoRuntime::exception_blob()->entry_point()); |
0 | 1630 MacroAssembler _masm(&cbuf); |
1631 | |
1632 address base = | |
1633 __ start_a_stub(size_exception_handler()); | |
1634 if (base == NULL) return 0; // CodeBuffer::expand failed | |
1635 | |
1636 int offset = __ offset(); | |
1637 | |
727 | 1638 __ JUMP(exception_blob, temp_reg, 0); // sethi;jmp |
0 | 1639 __ delayed()->nop(); |
1640 | |
1641 assert(__ offset() - offset <= (int) size_exception_handler(), "overflow"); | |
1642 | |
1643 __ end_a_stub(); | |
1644 | |
1645 return offset; | |
1646 } | |
1647 | |
1648 int emit_deopt_handler(CodeBuffer& cbuf) { | |
1649 // Can't use any of the current frame's registers as we may have deopted | |
1650 // at a poll and everything (including G3) can be live. | |
1651 Register temp_reg = L0; | |
727 | 1652 AddressLiteral deopt_blob(SharedRuntime::deopt_blob()->unpack()); |
0 | 1653 MacroAssembler _masm(&cbuf); |
1654 | |
1655 address base = | |
1656 __ start_a_stub(size_deopt_handler()); | |
1657 if (base == NULL) return 0; // CodeBuffer::expand failed | |
1658 | |
1659 int offset = __ offset(); | |
1660 __ save_frame(0); | |
727 | 1661 __ JUMP(deopt_blob, temp_reg, 0); // sethi;jmp |
0 | 1662 __ delayed()->restore(); |
1663 | |
1664 assert(__ offset() - offset <= (int) size_deopt_handler(), "overflow"); | |
1665 | |
1666 __ end_a_stub(); | |
1667 return offset; | |
1668 | |
1669 } | |
1670 | |
1671 // Given a register encoding, produce a Integer Register object | |
1672 static Register reg_to_register_object(int register_encoding) { | |
1673 assert(L5->encoding() == R_L5_enc && G1->encoding() == R_G1_enc, "right coding"); | |
1674 return as_Register(register_encoding); | |
1675 } | |
1676 | |
1677 // Given a register encoding, produce a single-precision Float Register object | |
1678 static FloatRegister reg_to_SingleFloatRegister_object(int register_encoding) { | |
1679 assert(F5->encoding(FloatRegisterImpl::S) == R_F5_enc && F12->encoding(FloatRegisterImpl::S) == R_F12_enc, "right coding"); | |
1680 return as_SingleFloatRegister(register_encoding); | |
1681 } | |
1682 | |
1683 // Given a register encoding, produce a double-precision Float Register object | |
1684 static FloatRegister reg_to_DoubleFloatRegister_object(int register_encoding) { | |
1685 assert(F4->encoding(FloatRegisterImpl::D) == R_F4_enc, "right coding"); | |
1686 assert(F32->encoding(FloatRegisterImpl::D) == R_D32_enc, "right coding"); | |
1687 return as_DoubleFloatRegister(register_encoding); | |
1688 } | |
1689 | |
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1690 const bool Matcher::match_rule_supported(int opcode) { |
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1691 if (!has_match_rule(opcode)) |
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1692 return false; |
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1693 |
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1694 switch (opcode) { |
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1695 case Op_CountLeadingZerosI: |
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1696 case Op_CountLeadingZerosL: |
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1697 case Op_CountTrailingZerosI: |
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1698 case Op_CountTrailingZerosL: |
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1699 if (!UsePopCountInstruction) |
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1700 return false; |
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1701 break; |
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1702 } |
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1703 |
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1704 return true; // Per default match rules are supported. |
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1705 } |
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1706 |
0 | 1707 int Matcher::regnum_to_fpu_offset(int regnum) { |
1708 return regnum - 32; // The FP registers are in the second chunk | |
1709 } | |
1710 | |
1711 #ifdef ASSERT | |
1712 address last_rethrow = NULL; // debugging aid for Rethrow encoding | |
1713 #endif | |
1714 | |
1715 // Vector width in bytes | |
1716 const uint Matcher::vector_width_in_bytes(void) { | |
1717 return 8; | |
1718 } | |
1719 | |
1720 // Vector ideal reg | |
1721 const uint Matcher::vector_ideal_reg(void) { | |
1722 return Op_RegD; | |
1723 } | |
1724 | |
1725 // USII supports fxtof through the whole range of number, USIII doesn't | |
1726 const bool Matcher::convL2FSupported(void) { | |
1727 return VM_Version::has_fast_fxtof(); | |
1728 } | |
1729 | |
1730 // Is this branch offset short enough that a short branch can be used? | |
1731 // | |
1732 // NOTE: If the platform does not provide any short branch variants, then | |
1733 // this method should return false for offset 0. | |
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1734 bool Matcher::is_short_branch_offset(int rule, int offset) { |
0 | 1735 return false; |
1736 } | |
1737 | |
1738 const bool Matcher::isSimpleConstant64(jlong value) { | |
1739 // Will one (StoreL ConL) be cheaper than two (StoreI ConI)?. | |
1740 // Depends on optimizations in MacroAssembler::setx. | |
1741 int hi = (int)(value >> 32); | |
1742 int lo = (int)(value & ~0); | |
1743 return (hi == 0) || (hi == -1) || (lo == 0); | |
1744 } | |
1745 | |
1746 // No scaling for the parameter the ClearArray node. | |
1747 const bool Matcher::init_array_count_is_in_bytes = true; | |
1748 | |
1749 // Threshold size for cleararray. | |
1750 const int Matcher::init_array_short_size = 8 * BytesPerLong; | |
1751 | |
1752 // Should the Matcher clone shifts on addressing modes, expecting them to | |
1753 // be subsumed into complex addressing expressions or compute them into | |
1754 // registers? True for Intel but false for most RISCs | |
1755 const bool Matcher::clone_shift_expressions = false; | |
1756 | |
1575
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1757 bool Matcher::narrow_oop_use_complex_address() { |
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1758 NOT_LP64(ShouldNotCallThis()); |
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1759 assert(UseCompressedOops, "only for compressed oops code"); |
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1760 return false; |
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1761 } |
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1762 |
0 | 1763 // Is it better to copy float constants, or load them directly from memory? |
1764 // Intel can load a float constant from a direct address, requiring no | |
1765 // extra registers. Most RISCs will have to materialize an address into a | |
1766 // register first, so they would do better to copy the constant from stack. | |
1767 const bool Matcher::rematerialize_float_constants = false; | |
1768 | |
1769 // If CPU can load and store mis-aligned doubles directly then no fixup is | |
1770 // needed. Else we split the double into 2 integer pieces and move it | |
1771 // piece-by-piece. Only happens when passing doubles into C code as the | |
1772 // Java calling convention forces doubles to be aligned. | |
1773 #ifdef _LP64 | |
1774 const bool Matcher::misaligned_doubles_ok = true; | |
1775 #else | |
1776 const bool Matcher::misaligned_doubles_ok = false; | |
1777 #endif | |
1778 | |
1779 // No-op on SPARC. | |
1780 void Matcher::pd_implicit_null_fixup(MachNode *node, uint idx) { | |
1781 } | |
1782 | |
1783 // Advertise here if the CPU requires explicit rounding operations | |
1784 // to implement the UseStrictFP mode. | |
1785 const bool Matcher::strict_fp_requires_explicit_rounding = false; | |
1786 | |
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1787 // Are floats conerted to double when stored to stack during deoptimization? |
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1788 // Sparc does not handle callee-save floats. |
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1789 bool Matcher::float_in_double() { return false; } |
0 | 1790 |
1791 // Do ints take an entire long register or just half? | |
1792 // Note that we if-def off of _LP64. | |
1793 // The relevant question is how the int is callee-saved. In _LP64 | |
1794 // the whole long is written but de-opt'ing will have to extract | |
1795 // the relevant 32 bits, in not-_LP64 only the low 32 bits is written. | |
1796 #ifdef _LP64 | |
1797 const bool Matcher::int_in_long = true; | |
1798 #else | |
1799 const bool Matcher::int_in_long = false; | |
1800 #endif | |
1801 | |
1802 // Return whether or not this register is ever used as an argument. This | |
1803 // function is used on startup to build the trampoline stubs in generateOptoStub. | |
1804 // Registers not mentioned will be killed by the VM call in the trampoline, and | |
1805 // arguments in those registers not be available to the callee. | |
1806 bool Matcher::can_be_java_arg( int reg ) { | |
1807 // Standard sparc 6 args in registers | |
1808 if( reg == R_I0_num || | |
1809 reg == R_I1_num || | |
1810 reg == R_I2_num || | |
1811 reg == R_I3_num || | |
1812 reg == R_I4_num || | |
1813 reg == R_I5_num ) return true; | |
1814 #ifdef _LP64 | |
1815 // 64-bit builds can pass 64-bit pointers and longs in | |
1816 // the high I registers | |
1817 if( reg == R_I0H_num || | |
1818 reg == R_I1H_num || | |
1819 reg == R_I2H_num || | |
1820 reg == R_I3H_num || | |
1821 reg == R_I4H_num || | |
1822 reg == R_I5H_num ) return true; | |
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1823 |
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1824 if ((UseCompressedOops) && (reg == R_G6_num || reg == R_G6H_num)) { |
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1825 return true; |
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1826 } |
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1827 |
0 | 1828 #else |
1829 // 32-bit builds with longs-in-one-entry pass longs in G1 & G4. | |
1830 // Longs cannot be passed in O regs, because O regs become I regs | |
1831 // after a 'save' and I regs get their high bits chopped off on | |
1832 // interrupt. | |
1833 if( reg == R_G1H_num || reg == R_G1_num ) return true; | |
1834 if( reg == R_G4H_num || reg == R_G4_num ) return true; | |
1835 #endif | |
1836 // A few float args in registers | |
1837 if( reg >= R_F0_num && reg <= R_F7_num ) return true; | |
1838 | |
1839 return false; | |
1840 } | |
1841 | |
1842 bool Matcher::is_spillable_arg( int reg ) { | |
1843 return can_be_java_arg(reg); | |
1844 } | |
1845 | |
1914
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1846 bool Matcher::use_asm_for_ldiv_by_con( jlong divisor ) { |
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1847 // Use hardware SDIVX instruction when it is |
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1848 // faster than a code which use multiply. |
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1849 return VM_Version::has_fast_idiv(); |
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1850 } |
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1851 |
0 | 1852 // Register for DIVI projection of divmodI |
1853 RegMask Matcher::divI_proj_mask() { | |
1854 ShouldNotReachHere(); | |
1855 return RegMask(); | |
1856 } | |
1857 | |
1858 // Register for MODI projection of divmodI | |
1859 RegMask Matcher::modI_proj_mask() { | |
1860 ShouldNotReachHere(); | |
1861 return RegMask(); | |
1862 } | |
1863 | |
1864 // Register for DIVL projection of divmodL | |
1865 RegMask Matcher::divL_proj_mask() { | |
1866 ShouldNotReachHere(); | |
1867 return RegMask(); | |
1868 } | |
1869 | |
1870 // Register for MODL projection of divmodL | |
1871 RegMask Matcher::modL_proj_mask() { | |
1872 ShouldNotReachHere(); | |
1873 return RegMask(); | |
1874 } | |
1875 | |
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1876 const RegMask Matcher::method_handle_invoke_SP_save_mask() { |
1567 | 1877 return L7_REGP_mask; |
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1878 } |
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1879 |
0 | 1880 %} |
1881 | |
1882 | |
1883 // The intptr_t operand types, defined by textual substitution. | |
1884 // (Cf. opto/type.hpp. This lets us avoid many, many other ifdefs.) | |
1885 #ifdef _LP64 | |
824 | 1886 #define immX immL |
1887 #define immX13 immL13 | |
1888 #define immX13m7 immL13m7 | |
1889 #define iRegX iRegL | |
1890 #define g1RegX g1RegL | |
0 | 1891 #else |
824 | 1892 #define immX immI |
1893 #define immX13 immI13 | |
1894 #define immX13m7 immI13m7 | |
1895 #define iRegX iRegI | |
1896 #define g1RegX g1RegI | |
0 | 1897 #endif |
1898 | |
1899 //----------ENCODING BLOCK----------------------------------------------------- | |
1900 // This block specifies the encoding classes used by the compiler to output | |
1901 // byte streams. Encoding classes are parameterized macros used by | |
1902 // Machine Instruction Nodes in order to generate the bit encoding of the | |
1903 // instruction. Operands specify their base encoding interface with the | |
1904 // interface keyword. There are currently supported four interfaces, | |
1905 // REG_INTER, CONST_INTER, MEMORY_INTER, & COND_INTER. REG_INTER causes an | |
1906 // operand to generate a function which returns its register number when | |
1907 // queried. CONST_INTER causes an operand to generate a function which | |
1908 // returns the value of the constant when queried. MEMORY_INTER causes an | |
1909 // operand to generate four functions which return the Base Register, the | |
1910 // Index Register, the Scale Value, and the Offset Value of the operand when | |
1911 // queried. COND_INTER causes an operand to generate six functions which | |
1912 // return the encoding code (ie - encoding bits for the instruction) | |
1913 // associated with each basic boolean condition for a conditional instruction. | |
1914 // | |
1915 // Instructions specify two basic values for encoding. Again, a function | |
1916 // is available to check if the constant displacement is an oop. They use the | |
1917 // ins_encode keyword to specify their encoding classes (which must be | |
1918 // a sequence of enc_class names, and their parameters, specified in | |
1919 // the encoding block), and they use the | |
1920 // opcode keyword to specify, in order, their primary, secondary, and | |
1921 // tertiary opcode. Only the opcode sections which a particular instruction | |
1922 // needs for encoding need to be specified. | |
1923 encode %{ | |
1924 enc_class enc_untested %{ | |
1925 #ifdef ASSERT | |
1926 MacroAssembler _masm(&cbuf); | |
1927 __ untested("encoding"); | |
1928 #endif | |
1929 %} | |
1930 | |
1931 enc_class form3_mem_reg( memory mem, iRegI dst ) %{ | |
1932 emit_form3_mem_reg(cbuf, this, $primary, $tertiary, | |
1933 $mem$$base, $mem$$disp, $mem$$index, $dst$$reg); | |
1934 %} | |
1935 | |
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1936 enc_class simple_form3_mem_reg( memory mem, iRegI dst ) %{ |
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1937 emit_form3_mem_reg(cbuf, this, $primary, -1, |
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1938 $mem$$base, $mem$$disp, $mem$$index, $dst$$reg); |
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1939 %} |
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1940 |
0 | 1941 enc_class form3_mem_prefetch_read( memory mem ) %{ |
415
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1942 emit_form3_mem_reg(cbuf, this, $primary, -1, |
0 | 1943 $mem$$base, $mem$$disp, $mem$$index, 0/*prefetch function many-reads*/); |
1944 %} | |
1945 | |
1946 enc_class form3_mem_prefetch_write( memory mem ) %{ | |
415
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1947 emit_form3_mem_reg(cbuf, this, $primary, -1, |
0 | 1948 $mem$$base, $mem$$disp, $mem$$index, 2/*prefetch function many-writes*/); |
1949 %} | |
1950 | |
1951 enc_class form3_mem_reg_long_unaligned_marshal( memory mem, iRegL reg ) %{ | |
1952 assert( Assembler::is_simm13($mem$$disp ), "need disp and disp+4" ); | |
1953 assert( Assembler::is_simm13($mem$$disp+4), "need disp and disp+4" ); | |
1954 guarantee($mem$$index == R_G0_enc, "double index?"); | |
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1955 emit_form3_mem_reg(cbuf, this, $primary, -1, $mem$$base, $mem$$disp+4, R_G0_enc, R_O7_enc ); |
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1956 emit_form3_mem_reg(cbuf, this, $primary, -1, $mem$$base, $mem$$disp, R_G0_enc, $reg$$reg ); |
0 | 1957 emit3_simm13( cbuf, Assembler::arith_op, $reg$$reg, Assembler::sllx_op3, $reg$$reg, 0x1020 ); |
1958 emit3( cbuf, Assembler::arith_op, $reg$$reg, Assembler::or_op3, $reg$$reg, 0, R_O7_enc ); | |
1959 %} | |
1960 | |
1961 enc_class form3_mem_reg_double_unaligned( memory mem, RegD_low reg ) %{ | |
1962 assert( Assembler::is_simm13($mem$$disp ), "need disp and disp+4" ); | |
1963 assert( Assembler::is_simm13($mem$$disp+4), "need disp and disp+4" ); | |
1964 guarantee($mem$$index == R_G0_enc, "double index?"); | |
1965 // Load long with 2 instructions | |
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1966 emit_form3_mem_reg(cbuf, this, $primary, -1, $mem$$base, $mem$$disp, R_G0_enc, $reg$$reg+0 ); |
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1967 emit_form3_mem_reg(cbuf, this, $primary, -1, $mem$$base, $mem$$disp+4, R_G0_enc, $reg$$reg+1 ); |
0 | 1968 %} |
1969 | |
1970 //%%% form3_mem_plus_4_reg is a hack--get rid of it | |
1971 enc_class form3_mem_plus_4_reg( memory mem, iRegI dst ) %{ | |
1972 guarantee($mem$$disp, "cannot offset a reg-reg operand by 4"); | |
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1973 emit_form3_mem_reg(cbuf, this, $primary, -1, $mem$$base, $mem$$disp + 4, $mem$$index, $dst$$reg); |
0 | 1974 %} |
1975 | |
1976 enc_class form3_g0_rs2_rd_move( iRegI rs2, iRegI rd ) %{ | |
1977 // Encode a reg-reg copy. If it is useless, then empty encoding. | |
1978 if( $rs2$$reg != $rd$$reg ) | |
1979 emit3( cbuf, Assembler::arith_op, $rd$$reg, Assembler::or_op3, 0, 0, $rs2$$reg ); | |
1980 %} | |
1981 | |
1982 // Target lo half of long | |
1983 enc_class form3_g0_rs2_rd_move_lo( iRegI rs2, iRegL rd ) %{ | |
1984 // Encode a reg-reg copy. If it is useless, then empty encoding. | |
1985 if( $rs2$$reg != LONG_LO_REG($rd$$reg) ) | |
1986 emit3( cbuf, Assembler::arith_op, LONG_LO_REG($rd$$reg), Assembler::or_op3, 0, 0, $rs2$$reg ); | |
1987 %} | |
1988 | |
1989 // Source lo half of long | |
1990 enc_class form3_g0_rs2_rd_move_lo2( iRegL rs2, iRegI rd ) %{ | |
1991 // Encode a reg-reg copy. If it is useless, then empty encoding. | |
1992 if( LONG_LO_REG($rs2$$reg) != $rd$$reg ) | |
1993 emit3( cbuf, Assembler::arith_op, $rd$$reg, Assembler::or_op3, 0, 0, LONG_LO_REG($rs2$$reg) ); | |
1994 %} | |
1995 | |
1996 // Target hi half of long | |
1997 enc_class form3_rs1_rd_copysign_hi( iRegI rs1, iRegL rd ) %{ | |
1998 emit3_simm13( cbuf, Assembler::arith_op, $rd$$reg, Assembler::sra_op3, $rs1$$reg, 31 ); | |
1999 %} | |
2000 | |
2001 // Source lo half of long, and leave it sign extended. | |
2002 enc_class form3_rs1_rd_signextend_lo1( iRegL rs1, iRegI rd ) %{ | |
2003 // Sign extend low half | |
2004 emit3( cbuf, Assembler::arith_op, $rd$$reg, Assembler::sra_op3, $rs1$$reg, 0, 0 ); | |
2005 %} | |
2006 | |
2007 // Source hi half of long, and leave it sign extended. | |
2008 enc_class form3_rs1_rd_copy_hi1( iRegL rs1, iRegI rd ) %{ | |
2009 // Shift high half to low half | |
2010 emit3_simm13( cbuf, Assembler::arith_op, $rd$$reg, Assembler::srlx_op3, $rs1$$reg, 32 ); | |
2011 %} | |
2012 | |
2013 // Source hi half of long | |
2014 enc_class form3_g0_rs2_rd_move_hi2( iRegL rs2, iRegI rd ) %{ | |
2015 // Encode a reg-reg copy. If it is useless, then empty encoding. | |
2016 if( LONG_HI_REG($rs2$$reg) != $rd$$reg ) | |
2017 emit3( cbuf, Assembler::arith_op, $rd$$reg, Assembler::or_op3, 0, 0, LONG_HI_REG($rs2$$reg) ); | |
2018 %} | |
2019 | |
2020 enc_class form3_rs1_rs2_rd( iRegI rs1, iRegI rs2, iRegI rd ) %{ | |
2021 emit3( cbuf, $secondary, $rd$$reg, $primary, $rs1$$reg, 0, $rs2$$reg ); | |
2022 %} | |
2023 | |
2024 enc_class enc_to_bool( iRegI src, iRegI dst ) %{ | |
2025 emit3 ( cbuf, Assembler::arith_op, 0, Assembler::subcc_op3, 0, 0, $src$$reg ); | |
2026 emit3_simm13( cbuf, Assembler::arith_op, $dst$$reg, Assembler::addc_op3 , 0, 0 ); | |
2027 %} | |
2028 | |
2029 enc_class enc_ltmask( iRegI p, iRegI q, iRegI dst ) %{ | |
2030 emit3 ( cbuf, Assembler::arith_op, 0, Assembler::subcc_op3, $p$$reg, 0, $q$$reg ); | |
2031 // clear if nothing else is happening | |
2032 emit3_simm13( cbuf, Assembler::arith_op, $dst$$reg, Assembler::or_op3, 0, 0 ); | |
2033 // blt,a,pn done | |
2034 emit2_19 ( cbuf, Assembler::branch_op, 1/*annul*/, Assembler::less, Assembler::bp_op2, Assembler::icc, 0/*predict not taken*/, 2 ); | |
2035 // mov dst,-1 in delay slot | |
2036 emit3_simm13( cbuf, Assembler::arith_op, $dst$$reg, Assembler::or_op3, 0, -1 ); | |
2037 %} | |
2038 | |
2039 enc_class form3_rs1_imm5_rd( iRegI rs1, immU5 imm5, iRegI rd ) %{ | |
2040 emit3_simm13( cbuf, $secondary, $rd$$reg, $primary, $rs1$$reg, $imm5$$constant & 0x1F ); | |
2041 %} | |
2042 | |
2043 enc_class form3_sd_rs1_imm6_rd( iRegL rs1, immU6 imm6, iRegL rd ) %{ | |
2044 emit3_simm13( cbuf, $secondary, $rd$$reg, $primary, $rs1$$reg, ($imm6$$constant & 0x3F) | 0x1000 ); | |
2045 %} | |
2046 | |
2047 enc_class form3_sd_rs1_rs2_rd( iRegL rs1, iRegI rs2, iRegL rd ) %{ | |
2048 emit3( cbuf, $secondary, $rd$$reg, $primary, $rs1$$reg, 0x80, $rs2$$reg ); | |
2049 %} | |
2050 | |
2051 enc_class form3_rs1_simm13_rd( iRegI rs1, immI13 simm13, iRegI rd ) %{ | |
2052 emit3_simm13( cbuf, $secondary, $rd$$reg, $primary, $rs1$$reg, $simm13$$constant ); | |
2053 %} | |
2054 | |
2055 enc_class move_return_pc_to_o1() %{ | |
2056 emit3_simm13( cbuf, Assembler::arith_op, R_O1_enc, Assembler::add_op3, R_O7_enc, frame::pc_return_offset ); | |
2057 %} | |
2058 | |
2059 #ifdef _LP64 | |
2060 /* %%% merge with enc_to_bool */ | |
2061 enc_class enc_convP2B( iRegI dst, iRegP src ) %{ | |
2062 MacroAssembler _masm(&cbuf); | |
2063 | |
2064 Register src_reg = reg_to_register_object($src$$reg); | |
2065 Register dst_reg = reg_to_register_object($dst$$reg); | |
2066 __ movr(Assembler::rc_nz, src_reg, 1, dst_reg); | |
2067 %} | |
2068 #endif | |
2069 | |
2070 enc_class enc_cadd_cmpLTMask( iRegI p, iRegI q, iRegI y, iRegI tmp ) %{ | |
2071 // (Set p (AddI (AndI (CmpLTMask p q) y) (SubI p q))) | |
2072 MacroAssembler _masm(&cbuf); | |
2073 | |
2074 Register p_reg = reg_to_register_object($p$$reg); | |
2075 Register q_reg = reg_to_register_object($q$$reg); | |
2076 Register y_reg = reg_to_register_object($y$$reg); | |
2077 Register tmp_reg = reg_to_register_object($tmp$$reg); | |
2078 | |
2079 __ subcc( p_reg, q_reg, p_reg ); | |
2080 __ add ( p_reg, y_reg, tmp_reg ); | |
2081 __ movcc( Assembler::less, false, Assembler::icc, tmp_reg, p_reg ); | |
2082 %} | |
2083 | |
2084 enc_class form_d2i_helper(regD src, regF dst) %{ | |
2085 // fcmp %fcc0,$src,$src | |
2086 emit3( cbuf, Assembler::arith_op , Assembler::fcc0, Assembler::fpop2_op3, $src$$reg, Assembler::fcmpd_opf, $src$$reg ); | |
2087 // branch %fcc0 not-nan, predict taken | |
2088 emit2_19( cbuf, Assembler::branch_op, 0/*annul*/, Assembler::f_ordered, Assembler::fbp_op2, Assembler::fcc0, 1/*predict taken*/, 4 ); | |
2089 // fdtoi $src,$dst | |
2090 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, 0, Assembler::fdtoi_opf, $src$$reg ); | |
2091 // fitos $dst,$dst (if nan) | |
2092 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, 0, Assembler::fitos_opf, $dst$$reg ); | |
2093 // clear $dst (if nan) | |
2094 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, $dst$$reg, Assembler::fsubs_opf, $dst$$reg ); | |
2095 // carry on here... | |
2096 %} | |
2097 | |
2098 enc_class form_d2l_helper(regD src, regD dst) %{ | |
2099 // fcmp %fcc0,$src,$src check for NAN | |
2100 emit3( cbuf, Assembler::arith_op , Assembler::fcc0, Assembler::fpop2_op3, $src$$reg, Assembler::fcmpd_opf, $src$$reg ); | |
2101 // branch %fcc0 not-nan, predict taken | |
2102 emit2_19( cbuf, Assembler::branch_op, 0/*annul*/, Assembler::f_ordered, Assembler::fbp_op2, Assembler::fcc0, 1/*predict taken*/, 4 ); | |
2103 // fdtox $src,$dst convert in delay slot | |
2104 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, 0, Assembler::fdtox_opf, $src$$reg ); | |
2105 // fxtod $dst,$dst (if nan) | |
2106 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, 0, Assembler::fxtod_opf, $dst$$reg ); | |
2107 // clear $dst (if nan) | |
2108 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, $dst$$reg, Assembler::fsubd_opf, $dst$$reg ); | |
2109 // carry on here... | |
2110 %} | |
2111 | |
2112 enc_class form_f2i_helper(regF src, regF dst) %{ | |
2113 // fcmps %fcc0,$src,$src | |
2114 emit3( cbuf, Assembler::arith_op , Assembler::fcc0, Assembler::fpop2_op3, $src$$reg, Assembler::fcmps_opf, $src$$reg ); | |
2115 // branch %fcc0 not-nan, predict taken | |
2116 emit2_19( cbuf, Assembler::branch_op, 0/*annul*/, Assembler::f_ordered, Assembler::fbp_op2, Assembler::fcc0, 1/*predict taken*/, 4 ); | |
2117 // fstoi $src,$dst | |
2118 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, 0, Assembler::fstoi_opf, $src$$reg ); | |
2119 // fitos $dst,$dst (if nan) | |
2120 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, 0, Assembler::fitos_opf, $dst$$reg ); | |
2121 // clear $dst (if nan) | |
2122 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, $dst$$reg, Assembler::fsubs_opf, $dst$$reg ); | |
2123 // carry on here... | |
2124 %} | |
2125 | |
2126 enc_class form_f2l_helper(regF src, regD dst) %{ | |
2127 // fcmps %fcc0,$src,$src | |
2128 emit3( cbuf, Assembler::arith_op , Assembler::fcc0, Assembler::fpop2_op3, $src$$reg, Assembler::fcmps_opf, $src$$reg ); | |
2129 // branch %fcc0 not-nan, predict taken | |
2130 emit2_19( cbuf, Assembler::branch_op, 0/*annul*/, Assembler::f_ordered, Assembler::fbp_op2, Assembler::fcc0, 1/*predict taken*/, 4 ); | |
2131 // fstox $src,$dst | |
2132 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, 0, Assembler::fstox_opf, $src$$reg ); | |
2133 // fxtod $dst,$dst (if nan) | |
2134 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, 0, Assembler::fxtod_opf, $dst$$reg ); | |
2135 // clear $dst (if nan) | |
2136 emit3( cbuf, Assembler::arith_op , $dst$$reg, Assembler::fpop1_op3, $dst$$reg, Assembler::fsubd_opf, $dst$$reg ); | |
2137 // carry on here... | |
2138 %} | |
2139 | |
2140 enc_class form3_opf_rs2F_rdF(regF rs2, regF rd) %{ emit3(cbuf,$secondary,$rd$$reg,$primary,0,$tertiary,$rs2$$reg); %} | |
2141 enc_class form3_opf_rs2F_rdD(regF rs2, regD rd) %{ emit3(cbuf,$secondary,$rd$$reg,$primary,0,$tertiary,$rs2$$reg); %} | |
2142 enc_class form3_opf_rs2D_rdF(regD rs2, regF rd) %{ emit3(cbuf,$secondary,$rd$$reg,$primary,0,$tertiary,$rs2$$reg); %} | |
2143 enc_class form3_opf_rs2D_rdD(regD rs2, regD rd) %{ emit3(cbuf,$secondary,$rd$$reg,$primary,0,$tertiary,$rs2$$reg); %} | |
2144 | |
2145 enc_class form3_opf_rs2D_lo_rdF(regD rs2, regF rd) %{ emit3(cbuf,$secondary,$rd$$reg,$primary,0,$tertiary,$rs2$$reg+1); %} | |
2146 | |
2147 enc_class form3_opf_rs2D_hi_rdD_hi(regD rs2, regD rd) %{ emit3(cbuf,$secondary,$rd$$reg,$primary,0,$tertiary,$rs2$$reg); %} | |
2148 enc_class form3_opf_rs2D_lo_rdD_lo(regD rs2, regD rd) %{ emit3(cbuf,$secondary,$rd$$reg+1,$primary,0,$tertiary,$rs2$$reg+1); %} | |
2149 | |
2150 enc_class form3_opf_rs1F_rs2F_rdF( regF rs1, regF rs2, regF rd ) %{ | |
2151 emit3( cbuf, $secondary, $rd$$reg, $primary, $rs1$$reg, $tertiary, $rs2$$reg ); | |
2152 %} | |
2153 | |
2154 enc_class form3_opf_rs1D_rs2D_rdD( regD rs1, regD rs2, regD rd ) %{ | |
2155 emit3( cbuf, $secondary, $rd$$reg, $primary, $rs1$$reg, $tertiary, $rs2$$reg ); | |
2156 %} | |
2157 | |
2158 enc_class form3_opf_rs1F_rs2F_fcc( regF rs1, regF rs2, flagsRegF fcc ) %{ | |
2159 emit3( cbuf, $secondary, $fcc$$reg, $primary, $rs1$$reg, $tertiary, $rs2$$reg ); | |
2160 %} | |
2161 | |
2162 enc_class form3_opf_rs1D_rs2D_fcc( regD rs1, regD rs2, flagsRegF fcc ) %{ | |
2163 emit3( cbuf, $secondary, $fcc$$reg, $primary, $rs1$$reg, $tertiary, $rs2$$reg ); | |
2164 %} | |
2165 | |
2166 enc_class form3_convI2F(regF rs2, regF rd) %{ | |
2167 emit3(cbuf,Assembler::arith_op,$rd$$reg,Assembler::fpop1_op3,0,$secondary,$rs2$$reg); | |
2168 %} | |
2169 | |
2170 // Encloding class for traceable jumps | |
2171 enc_class form_jmpl(g3RegP dest) %{ | |
2172 emit_jmpl(cbuf, $dest$$reg); | |
2173 %} | |
2174 | |
2175 enc_class form_jmpl_set_exception_pc(g1RegP dest) %{ | |
2176 emit_jmpl_set_exception_pc(cbuf, $dest$$reg); | |
2177 %} | |
2178 | |
2179 enc_class form2_nop() %{ | |
2180 emit_nop(cbuf); | |
2181 %} | |
2182 | |
2183 enc_class form2_illtrap() %{ | |
2184 emit_illtrap(cbuf); | |
2185 %} | |
2186 | |
2187 | |
2188 // Compare longs and convert into -1, 0, 1. | |
2189 enc_class cmpl_flag( iRegL src1, iRegL src2, iRegI dst ) %{ | |
2190 // CMP $src1,$src2 | |
2191 emit3( cbuf, Assembler::arith_op, 0, Assembler::subcc_op3, $src1$$reg, 0, $src2$$reg ); | |
2192 // blt,a,pn done | |
2193 emit2_19( cbuf, Assembler::branch_op, 1/*annul*/, Assembler::less , Assembler::bp_op2, Assembler::xcc, 0/*predict not taken*/, 5 ); | |
2194 // mov dst,-1 in delay slot | |
2195 emit3_simm13( cbuf, Assembler::arith_op, $dst$$reg, Assembler::or_op3, 0, -1 ); | |
2196 // bgt,a,pn done | |
2197 emit2_19( cbuf, Assembler::branch_op, 1/*annul*/, Assembler::greater, Assembler::bp_op2, Assembler::xcc, 0/*predict not taken*/, 3 ); | |
2198 // mov dst,1 in delay slot | |
2199 emit3_simm13( cbuf, Assembler::arith_op, $dst$$reg, Assembler::or_op3, 0, 1 ); | |
2200 // CLR $dst | |
2201 emit3( cbuf, Assembler::arith_op, $dst$$reg, Assembler::or_op3 , 0, 0, 0 ); | |
2202 %} | |
2203 | |
2204 enc_class enc_PartialSubtypeCheck() %{ | |
2205 MacroAssembler _masm(&cbuf); | |
2206 __ call(StubRoutines::Sparc::partial_subtype_check(), relocInfo::runtime_call_type); | |
2207 __ delayed()->nop(); | |
2208 %} | |
2209 | |
2210 enc_class enc_bp( Label labl, cmpOp cmp, flagsReg cc ) %{ | |
2211 MacroAssembler _masm(&cbuf); | |
2212 Label &L = *($labl$$label); | |
2213 Assembler::Predict predict_taken = | |
2214 cbuf.is_backward_branch(L) ? Assembler::pt : Assembler::pn; | |
2215 | |
2216 __ bp( (Assembler::Condition)($cmp$$cmpcode), false, Assembler::icc, predict_taken, L); | |
2217 __ delayed()->nop(); | |
2218 %} | |
2219 | |
2220 enc_class enc_bpl( Label labl, cmpOp cmp, flagsRegL cc ) %{ | |
2221 MacroAssembler _masm(&cbuf); | |
2222 Label &L = *($labl$$label); | |
2223 Assembler::Predict predict_taken = | |
2224 cbuf.is_backward_branch(L) ? Assembler::pt : Assembler::pn; | |
2225 | |
2226 __ bp( (Assembler::Condition)($cmp$$cmpcode), false, Assembler::xcc, predict_taken, L); | |
2227 __ delayed()->nop(); | |
2228 %} | |
2229 | |
2230 enc_class enc_bpx( Label labl, cmpOp cmp, flagsRegP cc ) %{ | |
2231 MacroAssembler _masm(&cbuf); | |
2232 Label &L = *($labl$$label); | |
2233 Assembler::Predict predict_taken = | |
2234 cbuf.is_backward_branch(L) ? Assembler::pt : Assembler::pn; | |
2235 | |
2236 __ bp( (Assembler::Condition)($cmp$$cmpcode), false, Assembler::ptr_cc, predict_taken, L); | |
2237 __ delayed()->nop(); | |
2238 %} | |
2239 | |
2240 enc_class enc_fbp( Label labl, cmpOpF cmp, flagsRegF cc ) %{ | |
2241 MacroAssembler _masm(&cbuf); | |
2242 Label &L = *($labl$$label); | |
2243 Assembler::Predict predict_taken = | |
2244 cbuf.is_backward_branch(L) ? Assembler::pt : Assembler::pn; | |
2245 | |
2246 __ fbp( (Assembler::Condition)($cmp$$cmpcode), false, (Assembler::CC)($cc$$reg), predict_taken, L); | |
2247 __ delayed()->nop(); | |
2248 %} | |
2249 | |
2250 enc_class jump_enc( iRegX switch_val, o7RegI table) %{ | |
2251 MacroAssembler _masm(&cbuf); | |
2252 | |
2253 Register switch_reg = as_Register($switch_val$$reg); | |
2254 Register table_reg = O7; | |
2255 | |
2256 address table_base = __ address_table_constant(_index2label); | |
2257 RelocationHolder rspec = internal_word_Relocation::spec(table_base); | |
2258 | |
727 | 2259 // Move table address into a register. |
2260 __ set(table_base, table_reg, rspec); | |
0 | 2261 |
2262 // Jump to base address + switch value | |
2263 __ ld_ptr(table_reg, switch_reg, table_reg); | |
2264 __ jmp(table_reg, G0); | |
2265 __ delayed()->nop(); | |
2266 | |
2267 %} | |
2268 | |
2269 enc_class enc_ba( Label labl ) %{ | |
2270 MacroAssembler _masm(&cbuf); | |
2271 Label &L = *($labl$$label); | |
2272 __ ba(false, L); | |
2273 __ delayed()->nop(); | |
2274 %} | |
2275 | |
2276 enc_class enc_bpr( Label labl, cmpOp_reg cmp, iRegI op1 ) %{ | |
2277 MacroAssembler _masm(&cbuf); | |
2278 Label &L = *$labl$$label; | |
2279 Assembler::Predict predict_taken = | |
2280 cbuf.is_backward_branch(L) ? Assembler::pt : Assembler::pn; | |
2281 | |
2282 __ bpr( (Assembler::RCondition)($cmp$$cmpcode), false, predict_taken, as_Register($op1$$reg), L); | |
2283 __ delayed()->nop(); | |
2284 %} | |
2285 | |
2286 enc_class enc_cmov_reg( cmpOp cmp, iRegI dst, iRegI src, immI pcc) %{ | |
2287 int op = (Assembler::arith_op << 30) | | |
2288 ($dst$$reg << 25) | | |
2289 (Assembler::movcc_op3 << 19) | | |
2290 (1 << 18) | // cc2 bit for 'icc' | |
2291 ($cmp$$cmpcode << 14) | | |
2292 (0 << 13) | // select register move | |
2293 ($pcc$$constant << 11) | // cc1, cc0 bits for 'icc' or 'xcc' | |
2294 ($src$$reg << 0); | |
1748 | 2295 cbuf.insts()->emit_int32(op); |
0 | 2296 %} |
2297 | |
2298 enc_class enc_cmov_imm( cmpOp cmp, iRegI dst, immI11 src, immI pcc ) %{ | |
2299 int simm11 = $src$$constant & ((1<<11)-1); // Mask to 11 bits | |
2300 int op = (Assembler::arith_op << 30) | | |
2301 ($dst$$reg << 25) | | |
2302 (Assembler::movcc_op3 << 19) | | |
2303 (1 << 18) | // cc2 bit for 'icc' | |
2304 ($cmp$$cmpcode << 14) | | |
2305 (1 << 13) | // select immediate move | |
2306 ($pcc$$constant << 11) | // cc1, cc0 bits for 'icc' | |
2307 (simm11 << 0); | |
1748 | 2308 cbuf.insts()->emit_int32(op); |
0 | 2309 %} |
2310 | |
2311 enc_class enc_cmov_reg_f( cmpOpF cmp, iRegI dst, iRegI src, flagsRegF fcc ) %{ | |
2312 int op = (Assembler::arith_op << 30) | | |
2313 ($dst$$reg << 25) | | |
2314 (Assembler::movcc_op3 << 19) | | |
2315 (0 << 18) | // cc2 bit for 'fccX' | |
2316 ($cmp$$cmpcode << 14) | | |
2317 (0 << 13) | // select register move | |
2318 ($fcc$$reg << 11) | // cc1, cc0 bits for fcc0-fcc3 | |
2319 ($src$$reg << 0); | |
1748 | 2320 cbuf.insts()->emit_int32(op); |
0 | 2321 %} |
2322 | |
2323 enc_class enc_cmov_imm_f( cmpOp cmp, iRegI dst, immI11 src, flagsRegF fcc ) %{ | |
2324 int simm11 = $src$$constant & ((1<<11)-1); // Mask to 11 bits | |
2325 int op = (Assembler::arith_op << 30) | | |
2326 ($dst$$reg << 25) | | |
2327 (Assembler::movcc_op3 << 19) | | |
2328 (0 << 18) | // cc2 bit for 'fccX' | |
2329 ($cmp$$cmpcode << 14) | | |
2330 (1 << 13) | // select immediate move | |
2331 ($fcc$$reg << 11) | // cc1, cc0 bits for fcc0-fcc3 | |
2332 (simm11 << 0); | |
1748 | 2333 cbuf.insts()->emit_int32(op); |
0 | 2334 %} |
2335 | |
2336 enc_class enc_cmovf_reg( cmpOp cmp, regD dst, regD src, immI pcc ) %{ | |
2337 int op = (Assembler::arith_op << 30) | | |
2338 ($dst$$reg << 25) | | |
2339 (Assembler::fpop2_op3 << 19) | | |
2340 (0 << 18) | | |
2341 ($cmp$$cmpcode << 14) | | |
2342 (1 << 13) | // select register move | |
2343 ($pcc$$constant << 11) | // cc1-cc0 bits for 'icc' or 'xcc' | |
2344 ($primary << 5) | // select single, double or quad | |
2345 ($src$$reg << 0); | |
1748 | 2346 cbuf.insts()->emit_int32(op); |
0 | 2347 %} |
2348 | |
2349 enc_class enc_cmovff_reg( cmpOpF cmp, flagsRegF fcc, regD dst, regD src ) %{ | |
2350 int op = (Assembler::arith_op << 30) | | |
2351 ($dst$$reg << 25) | | |
2352 (Assembler::fpop2_op3 << 19) | | |
2353 (0 << 18) | | |
2354 ($cmp$$cmpcode << 14) | | |
2355 ($fcc$$reg << 11) | // cc2-cc0 bits for 'fccX' | |
2356 ($primary << 5) | // select single, double or quad | |
2357 ($src$$reg << 0); | |
1748 | 2358 cbuf.insts()->emit_int32(op); |
0 | 2359 %} |
2360 | |
2361 // Used by the MIN/MAX encodings. Same as a CMOV, but | |
2362 // the condition comes from opcode-field instead of an argument. | |
2363 enc_class enc_cmov_reg_minmax( iRegI dst, iRegI src ) %{ | |
2364 int op = (Assembler::arith_op << 30) | | |
2365 ($dst$$reg << 25) | | |
2366 (Assembler::movcc_op3 << 19) | | |
2367 (1 << 18) | // cc2 bit for 'icc' | |
2368 ($primary << 14) | | |
2369 (0 << 13) | // select register move | |
2370 (0 << 11) | // cc1, cc0 bits for 'icc' | |
2371 ($src$$reg << 0); | |
1748 | 2372 cbuf.insts()->emit_int32(op); |
0 | 2373 %} |
2374 | |
2375 enc_class enc_cmov_reg_minmax_long( iRegL dst, iRegL src ) %{ | |
2376 int op = (Assembler::arith_op << 30) | | |
2377 ($dst$$reg << 25) | | |
2378 (Assembler::movcc_op3 << 19) | | |
2379 (6 << 16) | // cc2 bit for 'xcc' | |
2380 ($primary << 14) | | |
2381 (0 << 13) | // select register move | |
2382 (0 << 11) | // cc1, cc0 bits for 'icc' | |
2383 ($src$$reg << 0); | |
1748 | 2384 cbuf.insts()->emit_int32(op); |
0 | 2385 %} |
2386 | |
2387 // Utility encoding for loading a 64 bit Pointer into a register | |
2388 // The 64 bit pointer is stored in the generated code stream | |
2389 enc_class SetPtr( immP src, iRegP rd ) %{ | |
2390 Register dest = reg_to_register_object($rd$$reg); | |
727 | 2391 MacroAssembler _masm(&cbuf); |
0 | 2392 // [RGV] This next line should be generated from ADLC |
2393 if ( _opnds[1]->constant_is_oop() ) { | |
2394 intptr_t val = $src$$constant; | |
2395 __ set_oop_constant((jobject)val, dest); | |
2396 } else { // non-oop pointers, e.g. card mark base, heap top | |
727 | 2397 __ set($src$$constant, dest); |
0 | 2398 } |
2399 %} | |
2400 | |
2401 enc_class Set13( immI13 src, iRegI rd ) %{ | |
2402 emit3_simm13( cbuf, Assembler::arith_op, $rd$$reg, Assembler::or_op3, 0, $src$$constant ); | |
2403 %} | |
2404 | |
2405 enc_class SetHi22( immI src, iRegI rd ) %{ | |
2406 emit2_22( cbuf, Assembler::branch_op, $rd$$reg, Assembler::sethi_op2, $src$$constant ); | |
2407 %} | |
2408 | |
2409 enc_class Set32( immI src, iRegI rd ) %{ | |
2410 MacroAssembler _masm(&cbuf); | |
2411 __ set($src$$constant, reg_to_register_object($rd$$reg)); | |
2412 %} | |
2413 | |
2414 enc_class SetNull( iRegI rd ) %{ | |
2415 emit3_simm13( cbuf, Assembler::arith_op, $rd$$reg, Assembler::or_op3, 0, 0 ); | |
2416 %} | |
2417 | |
2418 enc_class call_epilog %{ | |
2419 if( VerifyStackAtCalls ) { | |
2420 MacroAssembler _masm(&cbuf); | |
2421 int framesize = ra_->C->frame_slots() << LogBytesPerInt; | |
2422 Register temp_reg = G3; | |
2423 __ add(SP, framesize, temp_reg); | |
2424 __ cmp(temp_reg, FP); | |
2425 __ breakpoint_trap(Assembler::notEqual, Assembler::ptr_cc); | |
2426 } | |
2427 %} | |
2428 | |
2429 // Long values come back from native calls in O0:O1 in the 32-bit VM, copy the value | |
2430 // to G1 so the register allocator will not have to deal with the misaligned register | |
2431 // pair. | |
2432 enc_class adjust_long_from_native_call %{ | |
2433 #ifndef _LP64 | |
2434 if (returns_long()) { | |
2435 // sllx O0,32,O0 | |
2436 emit3_simm13( cbuf, Assembler::arith_op, R_O0_enc, Assembler::sllx_op3, R_O0_enc, 0x1020 ); | |
2437 // srl O1,0,O1 | |
2438 emit3_simm13( cbuf, Assembler::arith_op, R_O1_enc, Assembler::srl_op3, R_O1_enc, 0x0000 ); | |
2439 // or O0,O1,G1 | |
2440 emit3 ( cbuf, Assembler::arith_op, R_G1_enc, Assembler:: or_op3, R_O0_enc, 0, R_O1_enc ); | |
2441 } | |
2442 #endif | |
2443 %} | |
2444 | |
2445 enc_class Java_To_Runtime (method meth) %{ // CALL Java_To_Runtime | |
2446 // CALL directly to the runtime | |
2447 // The user of this is responsible for ensuring that R_L7 is empty (killed). | |
2448 emit_call_reloc(cbuf, $meth$$method, relocInfo::runtime_call_type, | |
2449 /*preserve_g2=*/true, /*force far call*/true); | |
2450 %} | |
2451 | |
1567 | 2452 enc_class preserve_SP %{ |
2453 MacroAssembler _masm(&cbuf); | |
2454 __ mov(SP, L7_mh_SP_save); | |
2455 %} | |
2456 | |
2457 enc_class restore_SP %{ | |
2458 MacroAssembler _masm(&cbuf); | |
2459 __ mov(L7_mh_SP_save, SP); | |
2460 %} | |
2461 | |
0 | 2462 enc_class Java_Static_Call (method meth) %{ // JAVA STATIC CALL |
2463 // CALL to fixup routine. Fixup routine uses ScopeDesc info to determine | |
2464 // who we intended to call. | |
2465 if ( !_method ) { | |
2466 emit_call_reloc(cbuf, $meth$$method, relocInfo::runtime_call_type); | |
2467 } else if (_optimized_virtual) { | |
2468 emit_call_reloc(cbuf, $meth$$method, relocInfo::opt_virtual_call_type); | |
2469 } else { | |
2470 emit_call_reloc(cbuf, $meth$$method, relocInfo::static_call_type); | |
2471 } | |
2472 if( _method ) { // Emit stub for static call | |
2473 emit_java_to_interp(cbuf); | |
2474 } | |
2475 %} | |
2476 | |
2477 enc_class Java_Dynamic_Call (method meth) %{ // JAVA DYNAMIC CALL | |
2478 MacroAssembler _masm(&cbuf); | |
2479 __ set_inst_mark(); | |
2480 int vtable_index = this->_vtable_index; | |
2481 // MachCallDynamicJavaNode::ret_addr_offset uses this same test | |
2482 if (vtable_index < 0) { | |
2483 // must be invalid_vtable_index, not nonvirtual_vtable_index | |
2484 assert(vtable_index == methodOopDesc::invalid_vtable_index, "correct sentinel value"); | |
2485 Register G5_ic_reg = reg_to_register_object(Matcher::inline_cache_reg_encode()); | |
2486 assert(G5_ic_reg == G5_inline_cache_reg, "G5_inline_cache_reg used in assemble_ic_buffer_code()"); | |
2487 assert(G5_ic_reg == G5_megamorphic_method, "G5_megamorphic_method used in megamorphic call stub"); | |
2488 // !!!!! | |
2489 // Generate "set 0x01, R_G5", placeholder instruction to load oop-info | |
2490 // emit_call_dynamic_prologue( cbuf ); | |
2491 __ set_oop((jobject)Universe::non_oop_word(), G5_ic_reg); | |
2492 | |
2493 address virtual_call_oop_addr = __ inst_mark(); | |
2494 // CALL to fixup routine. Fixup routine uses ScopeDesc info to determine | |
2495 // who we intended to call. | |
2496 __ relocate(virtual_call_Relocation::spec(virtual_call_oop_addr)); | |
2497 emit_call_reloc(cbuf, $meth$$method, relocInfo::none); | |
2498 } else { | |
2499 assert(!UseInlineCaches, "expect vtable calls only if not using ICs"); | |
2500 // Just go thru the vtable | |
2501 // get receiver klass (receiver already checked for non-null) | |
2502 // If we end up going thru a c2i adapter interpreter expects method in G5 | |
2503 int off = __ offset(); | |
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2504 __ load_klass(O0, G3_scratch); |
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2505 int klass_load_size; |
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2506 if (UseCompressedOops) { |
642
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2507 assert(Universe::heap() != NULL, "java heap should be initialized"); |
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2508 if (Universe::narrow_oop_base() == NULL) |
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2509 klass_load_size = 2*BytesPerInstWord; |
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2510 else |
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2511 klass_load_size = 3*BytesPerInstWord; |
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2512 } else { |
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2513 klass_load_size = 1*BytesPerInstWord; |
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2514 } |
0 | 2515 int entry_offset = instanceKlass::vtable_start_offset() + vtable_index*vtableEntry::size(); |
2516 int v_off = entry_offset*wordSize + vtableEntry::method_offset_in_bytes(); | |
2517 if( __ is_simm13(v_off) ) { | |
2518 __ ld_ptr(G3, v_off, G5_method); | |
2519 } else { | |
2520 // Generate 2 instructions | |
2521 __ Assembler::sethi(v_off & ~0x3ff, G5_method); | |
2522 __ or3(G5_method, v_off & 0x3ff, G5_method); | |
2523 // ld_ptr, set_hi, set | |
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2524 assert(__ offset() - off == klass_load_size + 2*BytesPerInstWord, |
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2525 "Unexpected instruction size(s)"); |
0 | 2526 __ ld_ptr(G3, G5_method, G5_method); |
2527 } | |
2528 // NOTE: for vtable dispatches, the vtable entry will never be null. | |
2529 // However it may very well end up in handle_wrong_method if the | |
2530 // method is abstract for the particular class. | |
2531 __ ld_ptr(G5_method, in_bytes(methodOopDesc::from_compiled_offset()), G3_scratch); | |
2532 // jump to target (either compiled code or c2iadapter) | |
2533 __ jmpl(G3_scratch, G0, O7); | |
2534 __ delayed()->nop(); | |
2535 } | |
2536 %} | |
2537 | |
2538 enc_class Java_Compiled_Call (method meth) %{ // JAVA COMPILED CALL | |
2539 MacroAssembler _masm(&cbuf); | |
2540 | |
2541 Register G5_ic_reg = reg_to_register_object(Matcher::inline_cache_reg_encode()); | |
2542 Register temp_reg = G3; // caller must kill G3! We cannot reuse G5_ic_reg here because | |
2543 // we might be calling a C2I adapter which needs it. | |
2544 | |
2545 assert(temp_reg != G5_ic_reg, "conflicting registers"); | |
2546 // Load nmethod | |
2547 __ ld_ptr(G5_ic_reg, in_bytes(methodOopDesc::from_compiled_offset()), temp_reg); | |
2548 | |
2549 // CALL to compiled java, indirect the contents of G3 | |
2550 __ set_inst_mark(); | |
2551 __ callr(temp_reg, G0); | |
2552 __ delayed()->nop(); | |
2553 %} | |
2554 | |
2555 enc_class idiv_reg(iRegIsafe src1, iRegIsafe src2, iRegIsafe dst) %{ | |
2556 MacroAssembler _masm(&cbuf); | |
2557 Register Rdividend = reg_to_register_object($src1$$reg); | |
2558 Register Rdivisor = reg_to_register_object($src2$$reg); | |
2559 Register Rresult = reg_to_register_object($dst$$reg); | |
2560 | |
2561 __ sra(Rdivisor, 0, Rdivisor); | |
2562 __ sra(Rdividend, 0, Rdividend); | |
2563 __ sdivx(Rdividend, Rdivisor, Rresult); | |
2564 %} | |
2565 | |
2566 enc_class idiv_imm(iRegIsafe src1, immI13 imm, iRegIsafe dst) %{ | |
2567 MacroAssembler _masm(&cbuf); | |
2568 | |
2569 Register Rdividend = reg_to_register_object($src1$$reg); | |
2570 int divisor = $imm$$constant; | |
2571 Register Rresult = reg_to_register_object($dst$$reg); | |
2572 | |
2573 __ sra(Rdividend, 0, Rdividend); | |
2574 __ sdivx(Rdividend, divisor, Rresult); | |
2575 %} | |
2576 | |
2577 enc_class enc_mul_hi(iRegIsafe dst, iRegIsafe src1, iRegIsafe src2) %{ | |
2578 MacroAssembler _masm(&cbuf); | |
2579 Register Rsrc1 = reg_to_register_object($src1$$reg); | |
2580 Register Rsrc2 = reg_to_register_object($src2$$reg); | |
2581 Register Rdst = reg_to_register_object($dst$$reg); | |
2582 | |
2583 __ sra( Rsrc1, 0, Rsrc1 ); | |
2584 __ sra( Rsrc2, 0, Rsrc2 ); | |
2585 __ mulx( Rsrc1, Rsrc2, Rdst ); | |
2586 __ srlx( Rdst, 32, Rdst ); | |
2587 %} | |
2588 | |
2589 enc_class irem_reg(iRegIsafe src1, iRegIsafe src2, iRegIsafe dst, o7RegL scratch) %{ | |
2590 MacroAssembler _masm(&cbuf); | |
2591 Register Rdividend = reg_to_register_object($src1$$reg); | |
2592 Register Rdivisor = reg_to_register_object($src2$$reg); | |
2593 Register Rresult = reg_to_register_object($dst$$reg); | |
2594 Register Rscratch = reg_to_register_object($scratch$$reg); | |
2595 | |
2596 assert(Rdividend != Rscratch, ""); | |
2597 assert(Rdivisor != Rscratch, ""); | |
2598 | |
2599 __ sra(Rdividend, 0, Rdividend); | |
2600 __ sra(Rdivisor, 0, Rdivisor); | |
2601 __ sdivx(Rdividend, Rdivisor, Rscratch); | |
2602 __ mulx(Rscratch, Rdivisor, Rscratch); | |
2603 __ sub(Rdividend, Rscratch, Rresult); | |
2604 %} | |
2605 | |
2606 enc_class irem_imm(iRegIsafe src1, immI13 imm, iRegIsafe dst, o7RegL scratch) %{ | |
2607 MacroAssembler _masm(&cbuf); | |
2608 | |
2609 Register Rdividend = reg_to_register_object($src1$$reg); | |
2610 int divisor = $imm$$constant; | |
2611 Register Rresult = reg_to_register_object($dst$$reg); | |
2612 Register Rscratch = reg_to_register_object($scratch$$reg); | |
2613 | |
2614 assert(Rdividend != Rscratch, ""); | |
2615 | |
2616 __ sra(Rdividend, 0, Rdividend); | |
2617 __ sdivx(Rdividend, divisor, Rscratch); | |
2618 __ mulx(Rscratch, divisor, Rscratch); | |
2619 __ sub(Rdividend, Rscratch, Rresult); | |
2620 %} | |
2621 | |
2622 enc_class fabss (sflt_reg dst, sflt_reg src) %{ | |
2623 MacroAssembler _masm(&cbuf); | |
2624 | |
2625 FloatRegister Fdst = reg_to_SingleFloatRegister_object($dst$$reg); | |
2626 FloatRegister Fsrc = reg_to_SingleFloatRegister_object($src$$reg); | |
2627 | |
2628 __ fabs(FloatRegisterImpl::S, Fsrc, Fdst); | |
2629 %} | |
2630 | |
2631 enc_class fabsd (dflt_reg dst, dflt_reg src) %{ | |
2632 MacroAssembler _masm(&cbuf); | |
2633 | |
2634 FloatRegister Fdst = reg_to_DoubleFloatRegister_object($dst$$reg); | |
2635 FloatRegister Fsrc = reg_to_DoubleFloatRegister_object($src$$reg); | |
2636 | |
2637 __ fabs(FloatRegisterImpl::D, Fsrc, Fdst); | |
2638 %} | |
2639 | |
2640 enc_class fnegd (dflt_reg dst, dflt_reg src) %{ | |
2641 MacroAssembler _masm(&cbuf); | |
2642 | |
2643 FloatRegister Fdst = reg_to_DoubleFloatRegister_object($dst$$reg); | |
2644 FloatRegister Fsrc = reg_to_DoubleFloatRegister_object($src$$reg); | |
2645 | |
2646 __ fneg(FloatRegisterImpl::D, Fsrc, Fdst); | |
2647 %} | |
2648 | |
2649 enc_class fsqrts (sflt_reg dst, sflt_reg src) %{ | |
2650 MacroAssembler _masm(&cbuf); | |
2651 | |
2652 FloatRegister Fdst = reg_to_SingleFloatRegister_object($dst$$reg); | |
2653 FloatRegister Fsrc = reg_to_SingleFloatRegister_object($src$$reg); | |
2654 | |
2655 __ fsqrt(FloatRegisterImpl::S, Fsrc, Fdst); | |
2656 %} | |
2657 | |
2658 enc_class fsqrtd (dflt_reg dst, dflt_reg src) %{ | |
2659 MacroAssembler _masm(&cbuf); | |
2660 | |
2661 FloatRegister Fdst = reg_to_DoubleFloatRegister_object($dst$$reg); | |
2662 FloatRegister Fsrc = reg_to_DoubleFloatRegister_object($src$$reg); | |
2663 | |
2664 __ fsqrt(FloatRegisterImpl::D, Fsrc, Fdst); | |
2665 %} | |
2666 | |
2667 enc_class fmovs (dflt_reg dst, dflt_reg src) %{ | |
2668 MacroAssembler _masm(&cbuf); | |
2669 | |
2670 FloatRegister Fdst = reg_to_SingleFloatRegister_object($dst$$reg); | |
2671 FloatRegister Fsrc = reg_to_SingleFloatRegister_object($src$$reg); | |
2672 | |
2673 __ fmov(FloatRegisterImpl::S, Fsrc, Fdst); | |
2674 %} | |
2675 | |
2676 enc_class fmovd (dflt_reg dst, dflt_reg src) %{ | |
2677 MacroAssembler _masm(&cbuf); | |
2678 | |
2679 FloatRegister Fdst = reg_to_DoubleFloatRegister_object($dst$$reg); | |
2680 FloatRegister Fsrc = reg_to_DoubleFloatRegister_object($src$$reg); | |
2681 | |
2682 __ fmov(FloatRegisterImpl::D, Fsrc, Fdst); | |
2683 %} | |
2684 | |
2685 enc_class Fast_Lock(iRegP oop, iRegP box, o7RegP scratch, iRegP scratch2) %{ | |
2686 MacroAssembler _masm(&cbuf); | |
2687 | |
2688 Register Roop = reg_to_register_object($oop$$reg); | |
2689 Register Rbox = reg_to_register_object($box$$reg); | |
2690 Register Rscratch = reg_to_register_object($scratch$$reg); | |
2691 Register Rmark = reg_to_register_object($scratch2$$reg); | |
2692 | |
2693 assert(Roop != Rscratch, ""); | |
2694 assert(Roop != Rmark, ""); | |
2695 assert(Rbox != Rscratch, ""); | |
2696 assert(Rbox != Rmark, ""); | |
2697 | |
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2698 __ compiler_lock_object(Roop, Rmark, Rbox, Rscratch, _counters, UseBiasedLocking && !UseOptoBiasInlining); |
0 | 2699 %} |
2700 | |
2701 enc_class Fast_Unlock(iRegP oop, iRegP box, o7RegP scratch, iRegP scratch2) %{ | |
2702 MacroAssembler _masm(&cbuf); | |
2703 | |
2704 Register Roop = reg_to_register_object($oop$$reg); | |
2705 Register Rbox = reg_to_register_object($box$$reg); | |
2706 Register Rscratch = reg_to_register_object($scratch$$reg); | |
2707 Register Rmark = reg_to_register_object($scratch2$$reg); | |
2708 | |
2709 assert(Roop != Rscratch, ""); | |
2710 assert(Roop != Rmark, ""); | |
2711 assert(Rbox != Rscratch, ""); | |
2712 assert(Rbox != Rmark, ""); | |
2713 | |
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2714 __ compiler_unlock_object(Roop, Rmark, Rbox, Rscratch, UseBiasedLocking && !UseOptoBiasInlining); |
0 | 2715 %} |
2716 | |
2717 enc_class enc_cas( iRegP mem, iRegP old, iRegP new ) %{ | |
2718 MacroAssembler _masm(&cbuf); | |
2719 Register Rmem = reg_to_register_object($mem$$reg); | |
2720 Register Rold = reg_to_register_object($old$$reg); | |
2721 Register Rnew = reg_to_register_object($new$$reg); | |
2722 | |
2723 // casx_under_lock picks 1 of 3 encodings: | |
2724 // For 32-bit pointers you get a 32-bit CAS | |
2725 // For 64-bit pointers you get a 64-bit CASX | |
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2726 __ casn(Rmem, Rold, Rnew); // Swap(*Rmem,Rnew) if *Rmem == Rold |
0 | 2727 __ cmp( Rold, Rnew ); |
2728 %} | |
2729 | |
2730 enc_class enc_casx( iRegP mem, iRegL old, iRegL new) %{ | |
2731 Register Rmem = reg_to_register_object($mem$$reg); | |
2732 Register Rold = reg_to_register_object($old$$reg); | |
2733 Register Rnew = reg_to_register_object($new$$reg); | |
2734 | |
2735 MacroAssembler _masm(&cbuf); | |
2736 __ mov(Rnew, O7); | |
2737 __ casx(Rmem, Rold, O7); | |
2738 __ cmp( Rold, O7 ); | |
2739 %} | |
2740 | |
2741 // raw int cas, used for compareAndSwap | |
2742 enc_class enc_casi( iRegP mem, iRegL old, iRegL new) %{ | |
2743 Register Rmem = reg_to_register_object($mem$$reg); | |
2744 Register Rold = reg_to_register_object($old$$reg); | |
2745 Register Rnew = reg_to_register_object($new$$reg); | |
2746 | |
2747 MacroAssembler _masm(&cbuf); | |
2748 __ mov(Rnew, O7); | |
2749 __ cas(Rmem, Rold, O7); | |
2750 __ cmp( Rold, O7 ); | |
2751 %} | |
2752 | |
2753 enc_class enc_lflags_ne_to_boolean( iRegI res ) %{ | |
2754 Register Rres = reg_to_register_object($res$$reg); | |
2755 | |
2756 MacroAssembler _masm(&cbuf); | |
2757 __ mov(1, Rres); | |
2758 __ movcc( Assembler::notEqual, false, Assembler::xcc, G0, Rres ); | |
2759 %} | |
2760 | |
2761 enc_class enc_iflags_ne_to_boolean( iRegI res ) %{ | |
2762 Register Rres = reg_to_register_object($res$$reg); | |
2763 | |
2764 MacroAssembler _masm(&cbuf); | |
2765 __ mov(1, Rres); | |
2766 __ movcc( Assembler::notEqual, false, Assembler::icc, G0, Rres ); | |
2767 %} | |
2768 | |
2769 enc_class floating_cmp ( iRegP dst, regF src1, regF src2 ) %{ | |
2770 MacroAssembler _masm(&cbuf); | |
2771 Register Rdst = reg_to_register_object($dst$$reg); | |
2772 FloatRegister Fsrc1 = $primary ? reg_to_SingleFloatRegister_object($src1$$reg) | |
2773 : reg_to_DoubleFloatRegister_object($src1$$reg); | |
2774 FloatRegister Fsrc2 = $primary ? reg_to_SingleFloatRegister_object($src2$$reg) | |
2775 : reg_to_DoubleFloatRegister_object($src2$$reg); | |
2776 | |
2777 // Convert condition code fcc0 into -1,0,1; unordered reports less-than (-1) | |
2778 __ float_cmp( $primary, -1, Fsrc1, Fsrc2, Rdst); | |
2779 %} | |
2780 | |
2781 enc_class LdImmL (immL src, iRegL dst, o7RegL tmp) %{ // Load Immediate | |
2782 MacroAssembler _masm(&cbuf); | |
2783 Register dest = reg_to_register_object($dst$$reg); | |
2784 Register temp = reg_to_register_object($tmp$$reg); | |
2785 __ set64( $src$$constant, dest, temp ); | |
2786 %} | |
2787 | |
2788 enc_class LdReplImmI(immI src, regD dst, o7RegP tmp, int count, int width) %{ | |
2789 // Load a constant replicated "count" times with width "width" | |
2790 int bit_width = $width$$constant * 8; | |
2791 jlong elt_val = $src$$constant; | |
2792 elt_val &= (((jlong)1) << bit_width) - 1; // mask off sign bits | |
2793 jlong val = elt_val; | |
2794 for (int i = 0; i < $count$$constant - 1; i++) { | |
2795 val <<= bit_width; | |
2796 val |= elt_val; | |
2797 } | |
2798 jdouble dval = *(jdouble*)&val; // coerce to double type | |
727 | 2799 MacroAssembler _masm(&cbuf); |
2800 address double_address = __ double_constant(dval); | |
0 | 2801 RelocationHolder rspec = internal_word_Relocation::spec(double_address); |
727 | 2802 AddressLiteral addrlit(double_address, rspec); |
2803 | |
2804 __ sethi(addrlit, $tmp$$Register); | |
732
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2805 // XXX This is a quick fix for 6833573. |
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2806 //__ ldf(FloatRegisterImpl::D, $tmp$$Register, addrlit.low10(), $dst$$FloatRegister, rspec); |
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2807 __ ldf(FloatRegisterImpl::D, $tmp$$Register, addrlit.low10(), as_DoubleFloatRegister($dst$$reg), rspec); |
0 | 2808 %} |
2809 | |
2810 // Compiler ensures base is doubleword aligned and cnt is count of doublewords | |
2811 enc_class enc_Clear_Array(iRegX cnt, iRegP base, iRegX temp) %{ | |
2812 MacroAssembler _masm(&cbuf); | |
2813 Register nof_bytes_arg = reg_to_register_object($cnt$$reg); | |
2814 Register nof_bytes_tmp = reg_to_register_object($temp$$reg); | |
2815 Register base_pointer_arg = reg_to_register_object($base$$reg); | |
2816 | |
2817 Label loop; | |
2818 __ mov(nof_bytes_arg, nof_bytes_tmp); | |
2819 | |
2820 // Loop and clear, walking backwards through the array. | |
2821 // nof_bytes_tmp (if >0) is always the number of bytes to zero | |
2822 __ bind(loop); | |
2823 __ deccc(nof_bytes_tmp, 8); | |
2824 __ br(Assembler::greaterEqual, true, Assembler::pt, loop); | |
2825 __ delayed()-> stx(G0, base_pointer_arg, nof_bytes_tmp); | |
2826 // %%%% this mini-loop must not cross a cache boundary! | |
2827 %} | |
2828 | |
2829 | |
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2830 enc_class enc_String_Compare(o0RegP str1, o1RegP str2, g3RegI cnt1, g4RegI cnt2, notemp_iRegI result) %{ |
0 | 2831 Label Ldone, Lloop; |
2832 MacroAssembler _masm(&cbuf); | |
2833 | |
2834 Register str1_reg = reg_to_register_object($str1$$reg); | |
2835 Register str2_reg = reg_to_register_object($str2$$reg); | |
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2836 Register cnt1_reg = reg_to_register_object($cnt1$$reg); |
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2837 Register cnt2_reg = reg_to_register_object($cnt2$$reg); |
0 | 2838 Register result_reg = reg_to_register_object($result$$reg); |
2839 | |
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2840 assert(result_reg != str1_reg && |
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2841 result_reg != str2_reg && |
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2842 result_reg != cnt1_reg && |
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2843 result_reg != cnt2_reg , |
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2844 "need different registers"); |
0 | 2845 |
2846 // Compute the minimum of the string lengths(str1_reg) and the | |
2847 // difference of the string lengths (stack) | |
2848 | |
2849 // See if the lengths are different, and calculate min in str1_reg. | |
2850 // Stash diff in O7 in case we need it for a tie-breaker. | |
2851 Label Lskip; | |
986
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2852 __ subcc(cnt1_reg, cnt2_reg, O7); |
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|
2853 __ sll(cnt1_reg, exact_log2(sizeof(jchar)), cnt1_reg); // scale the limit |
0 | 2854 __ br(Assembler::greater, true, Assembler::pt, Lskip); |
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2855 // cnt2 is shorter, so use its count: |
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2856 __ delayed()->sll(cnt2_reg, exact_log2(sizeof(jchar)), cnt1_reg); // scale the limit |
0 | 2857 __ bind(Lskip); |
2858 | |
986
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2859 // reallocate cnt1_reg, cnt2_reg, result_reg |
0 | 2860 // Note: limit_reg holds the string length pre-scaled by 2 |
986
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|
2861 Register limit_reg = cnt1_reg; |
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2862 Register chr2_reg = cnt2_reg; |
0 | 2863 Register chr1_reg = result_reg; |
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2864 // str{12} are the base pointers |
0 | 2865 |
2866 // Is the minimum length zero? | |
2867 __ cmp(limit_reg, (int)(0 * sizeof(jchar))); // use cast to resolve overloading ambiguity | |
2868 __ br(Assembler::equal, true, Assembler::pn, Ldone); | |
2869 __ delayed()->mov(O7, result_reg); // result is difference in lengths | |
2870 | |
2871 // Load first characters | |
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2872 __ lduh(str1_reg, 0, chr1_reg); |
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|
2873 __ lduh(str2_reg, 0, chr2_reg); |
0 | 2874 |
2875 // Compare first characters | |
2876 __ subcc(chr1_reg, chr2_reg, chr1_reg); | |
2877 __ br(Assembler::notZero, false, Assembler::pt, Ldone); | |
2878 assert(chr1_reg == result_reg, "result must be pre-placed"); | |
2879 __ delayed()->nop(); | |
2880 | |
2881 { | |
2882 // Check after comparing first character to see if strings are equivalent | |
2883 Label LSkip2; | |
2884 // Check if the strings start at same location | |
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|
2885 __ cmp(str1_reg, str2_reg); |
0 | 2886 __ brx(Assembler::notEqual, true, Assembler::pt, LSkip2); |
2887 __ delayed()->nop(); | |
2888 | |
2889 // Check if the length difference is zero (in O7) | |
2890 __ cmp(G0, O7); | |
2891 __ br(Assembler::equal, true, Assembler::pn, Ldone); | |
2892 __ delayed()->mov(G0, result_reg); // result is zero | |
2893 | |
2894 // Strings might not be equal | |
2895 __ bind(LSkip2); | |
2896 } | |
2897 | |
2898 __ subcc(limit_reg, 1 * sizeof(jchar), chr1_reg); | |
2899 __ br(Assembler::equal, true, Assembler::pn, Ldone); | |
2900 __ delayed()->mov(O7, result_reg); // result is difference in lengths | |
2901 | |
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2902 // Shift str1_reg and str2_reg to the end of the arrays, negate limit |
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2903 __ add(str1_reg, limit_reg, str1_reg); |
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2904 __ add(str2_reg, limit_reg, str2_reg); |
0 | 2905 __ neg(chr1_reg, limit_reg); // limit = -(limit-2) |
2906 | |
2907 // Compare the rest of the characters | |
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2908 __ lduh(str1_reg, limit_reg, chr1_reg); |
0 | 2909 __ bind(Lloop); |
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2910 // __ lduh(str1_reg, limit_reg, chr1_reg); // hoisted |
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2911 __ lduh(str2_reg, limit_reg, chr2_reg); |
0 | 2912 __ subcc(chr1_reg, chr2_reg, chr1_reg); |
2913 __ br(Assembler::notZero, false, Assembler::pt, Ldone); | |
2914 assert(chr1_reg == result_reg, "result must be pre-placed"); | |
2915 __ delayed()->inccc(limit_reg, sizeof(jchar)); | |
2916 // annul LDUH if branch is not taken to prevent access past end of string | |
2917 __ br(Assembler::notZero, true, Assembler::pt, Lloop); | |
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2918 __ delayed()->lduh(str1_reg, limit_reg, chr1_reg); // hoisted |
0 | 2919 |
2920 // If strings are equal up to min length, return the length difference. | |
2921 __ mov(O7, result_reg); | |
2922 | |
2923 // Otherwise, return the difference between the first mismatched chars. | |
2924 __ bind(Ldone); | |
2925 %} | |
2926 | |
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2927 enc_class enc_String_Equals(o0RegP str1, o1RegP str2, g3RegI cnt, notemp_iRegI result) %{ |
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2928 Label Lword_loop, Lpost_word, Lchar, Lchar_loop, Ldone; |
681 | 2929 MacroAssembler _masm(&cbuf); |
2930 | |
2931 Register str1_reg = reg_to_register_object($str1$$reg); | |
2932 Register str2_reg = reg_to_register_object($str2$$reg); | |
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2933 Register cnt_reg = reg_to_register_object($cnt$$reg); |
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2934 Register tmp1_reg = O7; |
681 | 2935 Register result_reg = reg_to_register_object($result$$reg); |
2936 | |
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2937 assert(result_reg != str1_reg && |
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2938 result_reg != str2_reg && |
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2939 result_reg != cnt_reg && |
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2940 result_reg != tmp1_reg , |
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2941 "need different registers"); |
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2942 |
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2943 __ cmp(str1_reg, str2_reg); //same char[] ? |
681 | 2944 __ brx(Assembler::equal, true, Assembler::pn, Ldone); |
2945 __ delayed()->add(G0, 1, result_reg); | |
2946 | |
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2947 __ br_on_reg_cond(Assembler::rc_z, true, Assembler::pn, cnt_reg, Ldone); |
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2948 __ delayed()->add(G0, 1, result_reg); // count == 0 |
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2949 |
681 | 2950 //rename registers |
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2951 Register limit_reg = cnt_reg; |
681 | 2952 Register chr1_reg = result_reg; |
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2953 Register chr2_reg = tmp1_reg; |
681 | 2954 |
2955 //check for alignment and position the pointers to the ends | |
986
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2956 __ or3(str1_reg, str2_reg, chr1_reg); |
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2957 __ andcc(chr1_reg, 0x3, chr1_reg); |
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2958 // notZero means at least one not 4-byte aligned. |
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2959 // We could optimize the case when both arrays are not aligned |
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2960 // but it is not frequent case and it requires additional checks. |
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2961 __ br(Assembler::notZero, false, Assembler::pn, Lchar); // char by char compare |
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2962 __ delayed()->sll(limit_reg, exact_log2(sizeof(jchar)), limit_reg); // set byte count |
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2963 |
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2964 // Compare char[] arrays aligned to 4 bytes. |
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2965 __ char_arrays_equals(str1_reg, str2_reg, limit_reg, result_reg, |
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2966 chr1_reg, chr2_reg, Ldone); |
681 | 2967 __ ba(false,Ldone); |
2968 __ delayed()->add(G0, 1, result_reg); | |
2969 | |
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2970 // char by char compare |
681 | 2971 __ bind(Lchar); |
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2972 __ add(str1_reg, limit_reg, str1_reg); |
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2973 __ add(str2_reg, limit_reg, str2_reg); |
681 | 2974 __ neg(limit_reg); //negate count |
2975 | |
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2976 __ lduh(str1_reg, limit_reg, chr1_reg); |
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2977 // Lchar_loop |
681 | 2978 __ bind(Lchar_loop); |
986
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2979 __ lduh(str2_reg, limit_reg, chr2_reg); |
681 | 2980 __ cmp(chr1_reg, chr2_reg); |
2981 __ br(Assembler::notEqual, true, Assembler::pt, Ldone); | |
2982 __ delayed()->mov(G0, result_reg); //not equal | |
2983 __ inccc(limit_reg, sizeof(jchar)); | |
2984 // annul LDUH if branch is not taken to prevent access past end of string | |
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2985 __ br(Assembler::notZero, true, Assembler::pt, Lchar_loop); |
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2986 __ delayed()->lduh(str1_reg, limit_reg, chr1_reg); // hoisted |
681 | 2987 |
2988 __ add(G0, 1, result_reg); //equal | |
2989 | |
2990 __ bind(Ldone); | |
2991 %} | |
2992 | |
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2993 enc_class enc_Array_Equals(o0RegP ary1, o1RegP ary2, g3RegP tmp1, notemp_iRegI result) %{ |
681 | 2994 Label Lvector, Ldone, Lloop; |
2995 MacroAssembler _masm(&cbuf); | |
2996 | |
2997 Register ary1_reg = reg_to_register_object($ary1$$reg); | |
2998 Register ary2_reg = reg_to_register_object($ary2$$reg); | |
2999 Register tmp1_reg = reg_to_register_object($tmp1$$reg); | |
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3000 Register tmp2_reg = O7; |
681 | 3001 Register result_reg = reg_to_register_object($result$$reg); |
3002 | |
3003 int length_offset = arrayOopDesc::length_offset_in_bytes(); | |
3004 int base_offset = arrayOopDesc::base_offset_in_bytes(T_CHAR); | |
3005 | |
3006 // return true if the same array | |
3007 __ cmp(ary1_reg, ary2_reg); | |
1016 | 3008 __ brx(Assembler::equal, true, Assembler::pn, Ldone); |
681 | 3009 __ delayed()->add(G0, 1, result_reg); // equal |
3010 | |
3011 __ br_null(ary1_reg, true, Assembler::pn, Ldone); | |
3012 __ delayed()->mov(G0, result_reg); // not equal | |
3013 | |
3014 __ br_null(ary2_reg, true, Assembler::pn, Ldone); | |
3015 __ delayed()->mov(G0, result_reg); // not equal | |
3016 | |
3017 //load the lengths of arrays | |
727 | 3018 __ ld(Address(ary1_reg, length_offset), tmp1_reg); |
3019 __ ld(Address(ary2_reg, length_offset), tmp2_reg); | |
681 | 3020 |
3021 // return false if the two arrays are not equal length | |
3022 __ cmp(tmp1_reg, tmp2_reg); | |
3023 __ br(Assembler::notEqual, true, Assembler::pn, Ldone); | |
3024 __ delayed()->mov(G0, result_reg); // not equal | |
3025 | |
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3026 __ br_on_reg_cond(Assembler::rc_z, true, Assembler::pn, tmp1_reg, Ldone); |
681 | 3027 __ delayed()->add(G0, 1, result_reg); // zero-length arrays are equal |
3028 | |
3029 // load array addresses | |
3030 __ add(ary1_reg, base_offset, ary1_reg); | |
3031 __ add(ary2_reg, base_offset, ary2_reg); | |
3032 | |
3033 // renaming registers | |
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3034 Register chr1_reg = result_reg; // for characters in ary1 |
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3035 Register chr2_reg = tmp2_reg; // for characters in ary2 |
681 | 3036 Register limit_reg = tmp1_reg; // length |
3037 | |
3038 // set byte count | |
3039 __ sll(limit_reg, exact_log2(sizeof(jchar)), limit_reg); | |
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3040 |
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3041 // Compare char[] arrays aligned to 4 bytes. |
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3042 __ char_arrays_equals(ary1_reg, ary2_reg, limit_reg, result_reg, |
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3043 chr1_reg, chr2_reg, Ldone); |
681 | 3044 __ add(G0, 1, result_reg); // equals |
3045 | |
3046 __ bind(Ldone); | |
3047 %} | |
3048 | |
0 | 3049 enc_class enc_rethrow() %{ |
1748 | 3050 cbuf.set_insts_mark(); |
0 | 3051 Register temp_reg = G3; |
727 | 3052 AddressLiteral rethrow_stub(OptoRuntime::rethrow_stub()); |
0 | 3053 assert(temp_reg != reg_to_register_object(R_I0_num), "temp must not break oop_reg"); |
3054 MacroAssembler _masm(&cbuf); | |
3055 #ifdef ASSERT | |
3056 __ save_frame(0); | |
727 | 3057 AddressLiteral last_rethrow_addrlit(&last_rethrow); |
3058 __ sethi(last_rethrow_addrlit, L1); | |
3059 Address addr(L1, last_rethrow_addrlit.low10()); | |
0 | 3060 __ get_pc(L2); |
3061 __ inc(L2, 3 * BytesPerInstWord); // skip this & 2 more insns to point at jump_to | |
727 | 3062 __ st_ptr(L2, addr); |
0 | 3063 __ restore(); |
3064 #endif | |
727 | 3065 __ JUMP(rethrow_stub, temp_reg, 0); // sethi;jmp |
0 | 3066 __ delayed()->nop(); |
3067 %} | |
3068 | |
3069 enc_class emit_mem_nop() %{ | |
3070 // Generates the instruction LDUXA [o6,g0],#0x82,g0 | |
1748 | 3071 cbuf.insts()->emit_int32((unsigned int) 0xc0839040); |
0 | 3072 %} |
3073 | |
3074 enc_class emit_fadd_nop() %{ | |
3075 // Generates the instruction FMOVS f31,f31 | |
1748 | 3076 cbuf.insts()->emit_int32((unsigned int) 0xbfa0003f); |
0 | 3077 %} |
3078 | |
3079 enc_class emit_br_nop() %{ | |
3080 // Generates the instruction BPN,PN . | |
1748 | 3081 cbuf.insts()->emit_int32((unsigned int) 0x00400000); |
0 | 3082 %} |
3083 | |
3084 enc_class enc_membar_acquire %{ | |
3085 MacroAssembler _masm(&cbuf); | |
3086 __ membar( Assembler::Membar_mask_bits(Assembler::LoadStore | Assembler::LoadLoad) ); | |
3087 %} | |
3088 | |
3089 enc_class enc_membar_release %{ | |
3090 MacroAssembler _masm(&cbuf); | |
3091 __ membar( Assembler::Membar_mask_bits(Assembler::LoadStore | Assembler::StoreStore) ); | |
3092 %} | |
3093 | |
3094 enc_class enc_membar_volatile %{ | |
3095 MacroAssembler _masm(&cbuf); | |
3096 __ membar( Assembler::Membar_mask_bits(Assembler::StoreLoad) ); | |
3097 %} | |
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3098 |
0 | 3099 enc_class enc_repl8b( iRegI src, iRegL dst ) %{ |
3100 MacroAssembler _masm(&cbuf); | |
3101 Register src_reg = reg_to_register_object($src$$reg); | |
3102 Register dst_reg = reg_to_register_object($dst$$reg); | |
3103 __ sllx(src_reg, 56, dst_reg); | |
3104 __ srlx(dst_reg, 8, O7); | |
3105 __ or3 (dst_reg, O7, dst_reg); | |
3106 __ srlx(dst_reg, 16, O7); | |
3107 __ or3 (dst_reg, O7, dst_reg); | |
3108 __ srlx(dst_reg, 32, O7); | |
3109 __ or3 (dst_reg, O7, dst_reg); | |
3110 %} | |
3111 | |
3112 enc_class enc_repl4b( iRegI src, iRegL dst ) %{ | |
3113 MacroAssembler _masm(&cbuf); | |
3114 Register src_reg = reg_to_register_object($src$$reg); | |
3115 Register dst_reg = reg_to_register_object($dst$$reg); | |
3116 __ sll(src_reg, 24, dst_reg); | |
3117 __ srl(dst_reg, 8, O7); | |
3118 __ or3(dst_reg, O7, dst_reg); | |
3119 __ srl(dst_reg, 16, O7); | |
3120 __ or3(dst_reg, O7, dst_reg); | |
3121 %} | |
3122 | |
3123 enc_class enc_repl4s( iRegI src, iRegL dst ) %{ | |
3124 MacroAssembler _masm(&cbuf); | |
3125 Register src_reg = reg_to_register_object($src$$reg); | |
3126 Register dst_reg = reg_to_register_object($dst$$reg); | |
3127 __ sllx(src_reg, 48, dst_reg); | |
3128 __ srlx(dst_reg, 16, O7); | |
3129 __ or3 (dst_reg, O7, dst_reg); | |
3130 __ srlx(dst_reg, 32, O7); | |
3131 __ or3 (dst_reg, O7, dst_reg); | |
3132 %} | |
3133 | |
3134 enc_class enc_repl2i( iRegI src, iRegL dst ) %{ | |
3135 MacroAssembler _masm(&cbuf); | |
3136 Register src_reg = reg_to_register_object($src$$reg); | |
3137 Register dst_reg = reg_to_register_object($dst$$reg); | |
3138 __ sllx(src_reg, 32, dst_reg); | |
3139 __ srlx(dst_reg, 32, O7); | |
3140 __ or3 (dst_reg, O7, dst_reg); | |
3141 %} | |
3142 | |
3143 %} | |
3144 | |
3145 //----------FRAME-------------------------------------------------------------- | |
3146 // Definition of frame structure and management information. | |
3147 // | |
3148 // S T A C K L A Y O U T Allocators stack-slot number | |
3149 // | (to get allocators register number | |
3150 // G Owned by | | v add VMRegImpl::stack0) | |
3151 // r CALLER | | | |
3152 // o | +--------+ pad to even-align allocators stack-slot | |
3153 // w V | pad0 | numbers; owned by CALLER | |
3154 // t -----------+--------+----> Matcher::_in_arg_limit, unaligned | |
3155 // h ^ | in | 5 | |
3156 // | | args | 4 Holes in incoming args owned by SELF | |
3157 // | | | | 3 | |
3158 // | | +--------+ | |
3159 // V | | old out| Empty on Intel, window on Sparc | |
3160 // | old |preserve| Must be even aligned. | |
3161 // | SP-+--------+----> Matcher::_old_SP, 8 (or 16 in LP64)-byte aligned | |
3162 // | | in | 3 area for Intel ret address | |
3163 // Owned by |preserve| Empty on Sparc. | |
3164 // SELF +--------+ | |
3165 // | | pad2 | 2 pad to align old SP | |
3166 // | +--------+ 1 | |
3167 // | | locks | 0 | |
3168 // | +--------+----> VMRegImpl::stack0, 8 (or 16 in LP64)-byte aligned | |
3169 // | | pad1 | 11 pad to align new SP | |
3170 // | +--------+ | |
3171 // | | | 10 | |
3172 // | | spills | 9 spills | |
3173 // V | | 8 (pad0 slot for callee) | |
3174 // -----------+--------+----> Matcher::_out_arg_limit, unaligned | |
3175 // ^ | out | 7 | |
3176 // | | args | 6 Holes in outgoing args owned by CALLEE | |
3177 // Owned by +--------+ | |
3178 // CALLEE | new out| 6 Empty on Intel, window on Sparc | |
3179 // | new |preserve| Must be even-aligned. | |
3180 // | SP-+--------+----> Matcher::_new_SP, even aligned | |
3181 // | | | | |
3182 // | |
3183 // Note 1: Only region 8-11 is determined by the allocator. Region 0-5 is | |
3184 // known from SELF's arguments and the Java calling convention. | |
3185 // Region 6-7 is determined per call site. | |
3186 // Note 2: If the calling convention leaves holes in the incoming argument | |
3187 // area, those holes are owned by SELF. Holes in the outgoing area | |
3188 // are owned by the CALLEE. Holes should not be nessecary in the | |
3189 // incoming area, as the Java calling convention is completely under | |
3190 // the control of the AD file. Doubles can be sorted and packed to | |
3191 // avoid holes. Holes in the outgoing arguments may be nessecary for | |
3192 // varargs C calling conventions. | |
3193 // Note 3: Region 0-3 is even aligned, with pad2 as needed. Region 3-5 is | |
3194 // even aligned with pad0 as needed. | |
3195 // Region 6 is even aligned. Region 6-7 is NOT even aligned; | |
3196 // region 6-11 is even aligned; it may be padded out more so that | |
3197 // the region from SP to FP meets the minimum stack alignment. | |
3198 | |
3199 frame %{ | |
3200 // What direction does stack grow in (assumed to be same for native & Java) | |
3201 stack_direction(TOWARDS_LOW); | |
3202 | |
3203 // These two registers define part of the calling convention | |
3204 // between compiled code and the interpreter. | |
3205 inline_cache_reg(R_G5); // Inline Cache Register or methodOop for I2C | |
3206 interpreter_method_oop_reg(R_G5); // Method Oop Register when calling interpreter | |
3207 | |
3208 // Optional: name the operand used by cisc-spilling to access [stack_pointer + offset] | |
3209 cisc_spilling_operand_name(indOffset); | |
3210 | |
3211 // Number of stack slots consumed by a Monitor enter | |
3212 #ifdef _LP64 | |
3213 sync_stack_slots(2); | |
3214 #else | |
3215 sync_stack_slots(1); | |
3216 #endif | |
3217 | |
3218 // Compiled code's Frame Pointer | |
3219 frame_pointer(R_SP); | |
3220 | |
3221 // Stack alignment requirement | |
3222 stack_alignment(StackAlignmentInBytes); | |
3223 // LP64: Alignment size in bytes (128-bit -> 16 bytes) | |
3224 // !LP64: Alignment size in bytes (64-bit -> 8 bytes) | |
3225 | |
3226 // Number of stack slots between incoming argument block and the start of | |
3227 // a new frame. The PROLOG must add this many slots to the stack. The | |
3228 // EPILOG must remove this many slots. | |
3229 in_preserve_stack_slots(0); | |
3230 | |
3231 // Number of outgoing stack slots killed above the out_preserve_stack_slots | |
3232 // for calls to C. Supports the var-args backing area for register parms. | |
3233 // ADLC doesn't support parsing expressions, so I folded the math by hand. | |
3234 #ifdef _LP64 | |
3235 // (callee_register_argument_save_area_words (6) + callee_aggregate_return_pointer_words (0)) * 2-stack-slots-per-word | |
3236 varargs_C_out_slots_killed(12); | |
3237 #else | |
3238 // (callee_register_argument_save_area_words (6) + callee_aggregate_return_pointer_words (1)) * 1-stack-slots-per-word | |
3239 varargs_C_out_slots_killed( 7); | |
3240 #endif | |
3241 | |
3242 // The after-PROLOG location of the return address. Location of | |
3243 // return address specifies a type (REG or STACK) and a number | |
3244 // representing the register number (i.e. - use a register name) or | |
3245 // stack slot. | |
3246 return_addr(REG R_I7); // Ret Addr is in register I7 | |
3247 | |
3248 // Body of function which returns an OptoRegs array locating | |
3249 // arguments either in registers or in stack slots for calling | |
3250 // java | |
3251 calling_convention %{ | |
3252 (void) SharedRuntime::java_calling_convention(sig_bt, regs, length, is_outgoing); | |
3253 | |
3254 %} | |
3255 | |
3256 // Body of function which returns an OptoRegs array locating | |
3257 // arguments either in registers or in stack slots for callin | |
3258 // C. | |
3259 c_calling_convention %{ | |
3260 // This is obviously always outgoing | |
3261 (void) SharedRuntime::c_calling_convention(sig_bt, regs, length); | |
3262 %} | |
3263 | |
3264 // Location of native (C/C++) and interpreter return values. This is specified to | |
3265 // be the same as Java. In the 32-bit VM, long values are actually returned from | |
3266 // native calls in O0:O1 and returned to the interpreter in I0:I1. The copying | |
3267 // to and from the register pairs is done by the appropriate call and epilog | |
3268 // opcodes. This simplifies the register allocator. | |
3269 c_return_value %{ | |
3270 assert( ideal_reg >= Op_RegI && ideal_reg <= Op_RegL, "only return normal values" ); | |
3271 #ifdef _LP64 | |
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3272 static int lo_out[Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, R_O0_num, R_O0_num, R_O0_num, R_F0_num, R_F0_num, R_O0_num }; |
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3273 static int hi_out[Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, R_O0H_num, OptoReg::Bad, R_F1_num, R_O0H_num}; |
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3274 static int lo_in [Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, R_I0_num, R_I0_num, R_I0_num, R_F0_num, R_F0_num, R_I0_num }; |
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3275 static int hi_in [Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, R_I0H_num, OptoReg::Bad, R_F1_num, R_I0H_num}; |
0 | 3276 #else // !_LP64 |
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3277 static int lo_out[Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, R_O0_num, R_O0_num, R_O0_num, R_F0_num, R_F0_num, R_G1_num }; |
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3278 static int hi_out[Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, R_F1_num, R_G1H_num }; |
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3279 static int lo_in [Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, R_I0_num, R_I0_num, R_I0_num, R_F0_num, R_F0_num, R_G1_num }; |
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3280 static int hi_in [Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, R_F1_num, R_G1H_num }; |
0 | 3281 #endif |
3282 return OptoRegPair( (is_outgoing?hi_out:hi_in)[ideal_reg], | |
3283 (is_outgoing?lo_out:lo_in)[ideal_reg] ); | |
3284 %} | |
3285 | |
3286 // Location of compiled Java return values. Same as C | |
3287 return_value %{ | |
3288 assert( ideal_reg >= Op_RegI && ideal_reg <= Op_RegL, "only return normal values" ); | |
3289 #ifdef _LP64 | |
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3290 static int lo_out[Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, R_O0_num, R_O0_num, R_O0_num, R_F0_num, R_F0_num, R_O0_num }; |
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3291 static int hi_out[Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, R_O0H_num, OptoReg::Bad, R_F1_num, R_O0H_num}; |
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3292 static int lo_in [Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, R_I0_num, R_I0_num, R_I0_num, R_F0_num, R_F0_num, R_I0_num }; |
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3293 static int hi_in [Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, R_I0H_num, OptoReg::Bad, R_F1_num, R_I0H_num}; |
0 | 3294 #else // !_LP64 |
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3295 static int lo_out[Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, R_O0_num, R_O0_num, R_O0_num, R_F0_num, R_F0_num, R_G1_num }; |
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3296 static int hi_out[Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, R_F1_num, R_G1H_num}; |
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3297 static int lo_in [Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, R_I0_num, R_I0_num, R_I0_num, R_F0_num, R_F0_num, R_G1_num }; |
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3298 static int hi_in [Op_RegL+1] = { OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, OptoReg::Bad, R_F1_num, R_G1H_num}; |
0 | 3299 #endif |
3300 return OptoRegPair( (is_outgoing?hi_out:hi_in)[ideal_reg], | |
3301 (is_outgoing?lo_out:lo_in)[ideal_reg] ); | |
3302 %} | |
3303 | |
3304 %} | |
3305 | |
3306 | |
3307 //----------ATTRIBUTES--------------------------------------------------------- | |
3308 //----------Operand Attributes------------------------------------------------- | |
3309 op_attrib op_cost(1); // Required cost attribute | |
3310 | |
3311 //----------Instruction Attributes--------------------------------------------- | |
3312 ins_attrib ins_cost(DEFAULT_COST); // Required cost attribute | |
3313 ins_attrib ins_size(32); // Required size attribute (in bits) | |
3314 ins_attrib ins_pc_relative(0); // Required PC Relative flag | |
3315 ins_attrib ins_short_branch(0); // Required flag: is this instruction a | |
3316 // non-matching short branch variant of some | |
3317 // long branch? | |
3318 | |
3319 //----------OPERANDS----------------------------------------------------------- | |
3320 // Operand definitions must precede instruction definitions for correct parsing | |
3321 // in the ADLC because operands constitute user defined types which are used in | |
3322 // instruction definitions. | |
3323 | |
3324 //----------Simple Operands---------------------------------------------------- | |
3325 // Immediate Operands | |
3326 // Integer Immediate: 32-bit | |
3327 operand immI() %{ | |
3328 match(ConI); | |
3329 | |
3330 op_cost(0); | |
3331 // formats are generated automatically for constants and base registers | |
3332 format %{ %} | |
3333 interface(CONST_INTER); | |
3334 %} | |
3335 | |
824 | 3336 // Integer Immediate: 8-bit |
3337 operand immI8() %{ | |
3338 predicate(Assembler::is_simm(n->get_int(), 8)); | |
3339 match(ConI); | |
3340 op_cost(0); | |
3341 format %{ %} | |
3342 interface(CONST_INTER); | |
3343 %} | |
3344 | |
0 | 3345 // Integer Immediate: 13-bit |
3346 operand immI13() %{ | |
3347 predicate(Assembler::is_simm13(n->get_int())); | |
3348 match(ConI); | |
3349 op_cost(0); | |
3350 | |
3351 format %{ %} | |
3352 interface(CONST_INTER); | |
3353 %} | |
3354 | |
785 | 3355 // Integer Immediate: 13-bit minus 7 |
3356 operand immI13m7() %{ | |
3357 predicate((-4096 < n->get_int()) && ((n->get_int() + 7) <= 4095)); | |
3358 match(ConI); | |
3359 op_cost(0); | |
3360 | |
3361 format %{ %} | |
3362 interface(CONST_INTER); | |
3363 %} | |
3364 | |
824 | 3365 // Integer Immediate: 16-bit |
3366 operand immI16() %{ | |
3367 predicate(Assembler::is_simm(n->get_int(), 16)); | |
3368 match(ConI); | |
3369 op_cost(0); | |
3370 format %{ %} | |
3371 interface(CONST_INTER); | |
3372 %} | |
3373 | |
0 | 3374 // Unsigned (positive) Integer Immediate: 13-bit |
3375 operand immU13() %{ | |
3376 predicate((0 <= n->get_int()) && Assembler::is_simm13(n->get_int())); | |
3377 match(ConI); | |
3378 op_cost(0); | |
3379 | |
3380 format %{ %} | |
3381 interface(CONST_INTER); | |
3382 %} | |
3383 | |
3384 // Integer Immediate: 6-bit | |
3385 operand immU6() %{ | |
3386 predicate(n->get_int() >= 0 && n->get_int() <= 63); | |
3387 match(ConI); | |
3388 op_cost(0); | |
3389 format %{ %} | |
3390 interface(CONST_INTER); | |
3391 %} | |
3392 | |
3393 // Integer Immediate: 11-bit | |
3394 operand immI11() %{ | |
3395 predicate(Assembler::is_simm(n->get_int(),11)); | |
3396 match(ConI); | |
3397 op_cost(0); | |
3398 format %{ %} | |
3399 interface(CONST_INTER); | |
3400 %} | |
3401 | |
3402 // Integer Immediate: 0-bit | |
3403 operand immI0() %{ | |
3404 predicate(n->get_int() == 0); | |
3405 match(ConI); | |
3406 op_cost(0); | |
3407 | |
3408 format %{ %} | |
3409 interface(CONST_INTER); | |
3410 %} | |
3411 | |
3412 // Integer Immediate: the value 10 | |
3413 operand immI10() %{ | |
3414 predicate(n->get_int() == 10); | |
3415 match(ConI); | |
3416 op_cost(0); | |
3417 | |
3418 format %{ %} | |
3419 interface(CONST_INTER); | |
3420 %} | |
3421 | |
3422 // Integer Immediate: the values 0-31 | |
3423 operand immU5() %{ | |
3424 predicate(n->get_int() >= 0 && n->get_int() <= 31); | |
3425 match(ConI); | |
3426 op_cost(0); | |
3427 | |
3428 format %{ %} | |
3429 interface(CONST_INTER); | |
3430 %} | |
3431 | |
3432 // Integer Immediate: the values 1-31 | |
3433 operand immI_1_31() %{ | |
3434 predicate(n->get_int() >= 1 && n->get_int() <= 31); | |
3435 match(ConI); | |
3436 op_cost(0); | |
3437 | |
3438 format %{ %} | |
3439 interface(CONST_INTER); | |
3440 %} | |
3441 | |
3442 // Integer Immediate: the values 32-63 | |
3443 operand immI_32_63() %{ | |
3444 predicate(n->get_int() >= 32 && n->get_int() <= 63); | |
3445 match(ConI); | |
3446 op_cost(0); | |
3447 | |
3448 format %{ %} | |
3449 interface(CONST_INTER); | |
3450 %} | |
3451 | |
785 | 3452 // Immediates for special shifts (sign extend) |
3453 | |
3454 // Integer Immediate: the value 16 | |
3455 operand immI_16() %{ | |
3456 predicate(n->get_int() == 16); | |
3457 match(ConI); | |
3458 op_cost(0); | |
3459 | |
3460 format %{ %} | |
3461 interface(CONST_INTER); | |
3462 %} | |
3463 | |
3464 // Integer Immediate: the value 24 | |
3465 operand immI_24() %{ | |
3466 predicate(n->get_int() == 24); | |
3467 match(ConI); | |
3468 op_cost(0); | |
3469 | |
3470 format %{ %} | |
3471 interface(CONST_INTER); | |
3472 %} | |
3473 | |
0 | 3474 // Integer Immediate: the value 255 |
3475 operand immI_255() %{ | |
3476 predicate( n->get_int() == 255 ); | |
3477 match(ConI); | |
3478 op_cost(0); | |
3479 | |
3480 format %{ %} | |
3481 interface(CONST_INTER); | |
3482 %} | |
3483 | |
785 | 3484 // Integer Immediate: the value 65535 |
3485 operand immI_65535() %{ | |
3486 predicate(n->get_int() == 65535); | |
3487 match(ConI); | |
3488 op_cost(0); | |
3489 | |
3490 format %{ %} | |
3491 interface(CONST_INTER); | |
3492 %} | |
3493 | |
0 | 3494 // Long Immediate: the value FF |
3495 operand immL_FF() %{ | |
3496 predicate( n->get_long() == 0xFFL ); | |
3497 match(ConL); | |
3498 op_cost(0); | |
3499 | |
3500 format %{ %} | |
3501 interface(CONST_INTER); | |
3502 %} | |
3503 | |
3504 // Long Immediate: the value FFFF | |
3505 operand immL_FFFF() %{ | |
3506 predicate( n->get_long() == 0xFFFFL ); | |
3507 match(ConL); | |
3508 op_cost(0); | |
3509 | |
3510 format %{ %} | |
3511 interface(CONST_INTER); | |
3512 %} | |
3513 | |
3514 // Pointer Immediate: 32 or 64-bit | |
3515 operand immP() %{ | |
3516 match(ConP); | |
3517 | |
3518 op_cost(5); | |
3519 // formats are generated automatically for constants and base registers | |
3520 format %{ %} | |
3521 interface(CONST_INTER); | |
3522 %} | |
3523 | |
3524 operand immP13() %{ | |
3525 predicate((-4096 < n->get_ptr()) && (n->get_ptr() <= 4095)); | |
3526 match(ConP); | |
3527 op_cost(0); | |
3528 | |
3529 format %{ %} | |
3530 interface(CONST_INTER); | |
3531 %} | |
3532 | |
3533 operand immP0() %{ | |
3534 predicate(n->get_ptr() == 0); | |
3535 match(ConP); | |
3536 op_cost(0); | |
3537 | |
3538 format %{ %} | |
3539 interface(CONST_INTER); | |
3540 %} | |
3541 | |
3542 operand immP_poll() %{ | |
3543 predicate(n->get_ptr() != 0 && n->get_ptr() == (intptr_t)os::get_polling_page()); | |
3544 match(ConP); | |
3545 | |
3546 // formats are generated automatically for constants and base registers | |
3547 format %{ %} | |
3548 interface(CONST_INTER); | |
3549 %} | |
3550 | |
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3551 // Pointer Immediate |
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3552 operand immN() |
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3553 %{ |
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3554 match(ConN); |
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3555 |
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3556 op_cost(10); |
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3557 format %{ %} |
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3558 interface(CONST_INTER); |
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3559 %} |
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3560 |
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3561 // NULL Pointer Immediate |
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3562 operand immN0() |
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3563 %{ |
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3564 predicate(n->get_narrowcon() == 0); |
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3565 match(ConN); |
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3566 |
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3567 op_cost(0); |
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3568 format %{ %} |
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3569 interface(CONST_INTER); |
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3570 %} |
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3571 |
0 | 3572 operand immL() %{ |
3573 match(ConL); | |
3574 op_cost(40); | |
3575 // formats are generated automatically for constants and base registers | |
3576 format %{ %} | |
3577 interface(CONST_INTER); | |
3578 %} | |
3579 | |
3580 operand immL0() %{ | |
3581 predicate(n->get_long() == 0L); | |
3582 match(ConL); | |
3583 op_cost(0); | |
3584 // formats are generated automatically for constants and base registers | |
3585 format %{ %} | |
3586 interface(CONST_INTER); | |
3587 %} | |
3588 | |
3589 // Long Immediate: 13-bit | |
3590 operand immL13() %{ | |
3591 predicate((-4096L < n->get_long()) && (n->get_long() <= 4095L)); | |
3592 match(ConL); | |
3593 op_cost(0); | |
3594 | |
3595 format %{ %} | |
3596 interface(CONST_INTER); | |
3597 %} | |
3598 | |
785 | 3599 // Long Immediate: 13-bit minus 7 |
3600 operand immL13m7() %{ | |
3601 predicate((-4096L < n->get_long()) && ((n->get_long() + 7L) <= 4095L)); | |
3602 match(ConL); | |
3603 op_cost(0); | |
3604 | |
3605 format %{ %} | |
3606 interface(CONST_INTER); | |
3607 %} | |
3608 | |
0 | 3609 // Long Immediate: low 32-bit mask |
3610 operand immL_32bits() %{ | |
3611 predicate(n->get_long() == 0xFFFFFFFFL); | |
3612 match(ConL); | |
3613 op_cost(0); | |
3614 | |
3615 format %{ %} | |
3616 interface(CONST_INTER); | |
3617 %} | |
3618 | |
3619 // Double Immediate | |
3620 operand immD() %{ | |
3621 match(ConD); | |
3622 | |
3623 op_cost(40); | |
3624 format %{ %} | |
3625 interface(CONST_INTER); | |
3626 %} | |
3627 | |
3628 operand immD0() %{ | |
3629 #ifdef _LP64 | |
3630 // on 64-bit architectures this comparision is faster | |
3631 predicate(jlong_cast(n->getd()) == 0); | |
3632 #else | |
3633 predicate((n->getd() == 0) && (fpclass(n->getd()) == FP_PZERO)); | |
3634 #endif | |
3635 match(ConD); | |
3636 | |
3637 op_cost(0); | |
3638 format %{ %} | |
3639 interface(CONST_INTER); | |
3640 %} | |
3641 | |
3642 // Float Immediate | |
3643 operand immF() %{ | |
3644 match(ConF); | |
3645 | |
3646 op_cost(20); | |
3647 format %{ %} | |
3648 interface(CONST_INTER); | |
3649 %} | |
3650 | |
3651 // Float Immediate: 0 | |
3652 operand immF0() %{ | |
3653 predicate((n->getf() == 0) && (fpclass(n->getf()) == FP_PZERO)); | |
3654 match(ConF); | |
3655 | |
3656 op_cost(0); | |
3657 format %{ %} | |
3658 interface(CONST_INTER); | |
3659 %} | |
3660 | |
3661 // Integer Register Operands | |
3662 // Integer Register | |
3663 operand iRegI() %{ | |
3664 constraint(ALLOC_IN_RC(int_reg)); | |
3665 match(RegI); | |
3666 | |
3667 match(notemp_iRegI); | |
3668 match(g1RegI); | |
3669 match(o0RegI); | |
3670 match(iRegIsafe); | |
3671 | |
3672 format %{ %} | |
3673 interface(REG_INTER); | |
3674 %} | |
3675 | |
3676 operand notemp_iRegI() %{ | |
3677 constraint(ALLOC_IN_RC(notemp_int_reg)); | |
3678 match(RegI); | |
3679 | |
3680 match(o0RegI); | |
3681 | |
3682 format %{ %} | |
3683 interface(REG_INTER); | |
3684 %} | |
3685 | |
3686 operand o0RegI() %{ | |
3687 constraint(ALLOC_IN_RC(o0_regI)); | |
3688 match(iRegI); | |
3689 | |
3690 format %{ %} | |
3691 interface(REG_INTER); | |
3692 %} | |
3693 | |
3694 // Pointer Register | |
3695 operand iRegP() %{ | |
3696 constraint(ALLOC_IN_RC(ptr_reg)); | |
3697 match(RegP); | |
3698 | |
3699 match(lock_ptr_RegP); | |
3700 match(g1RegP); | |
3701 match(g2RegP); | |
3702 match(g3RegP); | |
3703 match(g4RegP); | |
3704 match(i0RegP); | |
3705 match(o0RegP); | |
3706 match(o1RegP); | |
3707 match(l7RegP); | |
3708 | |
3709 format %{ %} | |
3710 interface(REG_INTER); | |
3711 %} | |
3712 | |
3713 operand sp_ptr_RegP() %{ | |
3714 constraint(ALLOC_IN_RC(sp_ptr_reg)); | |
3715 match(RegP); | |
3716 match(iRegP); | |
3717 | |
3718 format %{ %} | |
3719 interface(REG_INTER); | |
3720 %} | |
3721 | |
3722 operand lock_ptr_RegP() %{ | |
3723 constraint(ALLOC_IN_RC(lock_ptr_reg)); | |
3724 match(RegP); | |
3725 match(i0RegP); | |
3726 match(o0RegP); | |
3727 match(o1RegP); | |
3728 match(l7RegP); | |
3729 | |
3730 format %{ %} | |
3731 interface(REG_INTER); | |
3732 %} | |
3733 | |
3734 operand g1RegP() %{ | |
3735 constraint(ALLOC_IN_RC(g1_regP)); | |
3736 match(iRegP); | |
3737 | |
3738 format %{ %} | |
3739 interface(REG_INTER); | |
3740 %} | |
3741 | |
3742 operand g2RegP() %{ | |
3743 constraint(ALLOC_IN_RC(g2_regP)); | |
3744 match(iRegP); | |
3745 | |
3746 format %{ %} | |
3747 interface(REG_INTER); | |
3748 %} | |
3749 | |
3750 operand g3RegP() %{ | |
3751 constraint(ALLOC_IN_RC(g3_regP)); | |
3752 match(iRegP); | |
3753 | |
3754 format %{ %} | |
3755 interface(REG_INTER); | |
3756 %} | |
3757 | |
3758 operand g1RegI() %{ | |
3759 constraint(ALLOC_IN_RC(g1_regI)); | |
3760 match(iRegI); | |
3761 | |
3762 format %{ %} | |
3763 interface(REG_INTER); | |
3764 %} | |
3765 | |
3766 operand g3RegI() %{ | |
3767 constraint(ALLOC_IN_RC(g3_regI)); | |
3768 match(iRegI); | |
3769 | |
3770 format %{ %} | |
3771 interface(REG_INTER); | |
3772 %} | |
3773 | |
3774 operand g4RegI() %{ | |
3775 constraint(ALLOC_IN_RC(g4_regI)); | |
3776 match(iRegI); | |
3777 | |
3778 format %{ %} | |
3779 interface(REG_INTER); | |
3780 %} | |
3781 | |
3782 operand g4RegP() %{ | |
3783 constraint(ALLOC_IN_RC(g4_regP)); | |
3784 match(iRegP); | |
3785 | |
3786 format %{ %} | |
3787 interface(REG_INTER); | |
3788 %} | |
3789 | |
3790 operand i0RegP() %{ | |
3791 constraint(ALLOC_IN_RC(i0_regP)); | |
3792 match(iRegP); | |
3793 | |
3794 format %{ %} | |
3795 interface(REG_INTER); | |
3796 %} | |
3797 | |
3798 operand o0RegP() %{ | |
3799 constraint(ALLOC_IN_RC(o0_regP)); | |
3800 match(iRegP); | |
3801 | |
3802 format %{ %} | |
3803 interface(REG_INTER); | |
3804 %} | |
3805 | |
3806 operand o1RegP() %{ | |
3807 constraint(ALLOC_IN_RC(o1_regP)); | |
3808 match(iRegP); | |
3809 | |
3810 format %{ %} | |
3811 interface(REG_INTER); | |
3812 %} | |
3813 | |
3814 operand o2RegP() %{ | |
3815 constraint(ALLOC_IN_RC(o2_regP)); | |
3816 match(iRegP); | |
3817 | |
3818 format %{ %} | |
3819 interface(REG_INTER); | |
3820 %} | |
3821 | |
3822 operand o7RegP() %{ | |
3823 constraint(ALLOC_IN_RC(o7_regP)); | |
3824 match(iRegP); | |
3825 | |
3826 format %{ %} | |
3827 interface(REG_INTER); | |
3828 %} | |
3829 | |
3830 operand l7RegP() %{ | |
3831 constraint(ALLOC_IN_RC(l7_regP)); | |
3832 match(iRegP); | |
3833 | |
3834 format %{ %} | |
3835 interface(REG_INTER); | |
3836 %} | |
3837 | |
3838 operand o7RegI() %{ | |
3839 constraint(ALLOC_IN_RC(o7_regI)); | |
3840 match(iRegI); | |
3841 | |
3842 format %{ %} | |
3843 interface(REG_INTER); | |
3844 %} | |
3845 | |
113
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3846 operand iRegN() %{ |
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3847 constraint(ALLOC_IN_RC(int_reg)); |
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3848 match(RegN); |
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3849 |
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3850 format %{ %} |
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3851 interface(REG_INTER); |
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3852 %} |
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3853 |
0 | 3854 // Long Register |
3855 operand iRegL() %{ | |
3856 constraint(ALLOC_IN_RC(long_reg)); | |
3857 match(RegL); | |
3858 | |
3859 format %{ %} | |
3860 interface(REG_INTER); | |
3861 %} | |
3862 | |
3863 operand o2RegL() %{ | |
3864 constraint(ALLOC_IN_RC(o2_regL)); | |
3865 match(iRegL); | |
3866 | |
3867 format %{ %} | |
3868 interface(REG_INTER); | |
3869 %} | |
3870 | |
3871 operand o7RegL() %{ | |
3872 constraint(ALLOC_IN_RC(o7_regL)); | |
3873 match(iRegL); | |
3874 | |
3875 format %{ %} | |
3876 interface(REG_INTER); | |
3877 %} | |
3878 | |
3879 operand g1RegL() %{ | |
3880 constraint(ALLOC_IN_RC(g1_regL)); | |
3881 match(iRegL); | |
3882 | |
3883 format %{ %} | |
3884 interface(REG_INTER); | |
3885 %} | |
3886 | |
420
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3887 operand g3RegL() %{ |
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3888 constraint(ALLOC_IN_RC(g3_regL)); |
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3889 match(iRegL); |
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3890 |
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3891 format %{ %} |
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3892 interface(REG_INTER); |
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3893 %} |
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3894 |
0 | 3895 // Int Register safe |
3896 // This is 64bit safe | |
3897 operand iRegIsafe() %{ | |
3898 constraint(ALLOC_IN_RC(long_reg)); | |
3899 | |
3900 match(iRegI); | |
3901 | |
3902 format %{ %} | |
3903 interface(REG_INTER); | |
3904 %} | |
3905 | |
3906 // Condition Code Flag Register | |
3907 operand flagsReg() %{ | |
3908 constraint(ALLOC_IN_RC(int_flags)); | |
3909 match(RegFlags); | |
3910 | |
3911 format %{ "ccr" %} // both ICC and XCC | |
3912 interface(REG_INTER); | |
3913 %} | |
3914 | |
3915 // Condition Code Register, unsigned comparisons. | |
3916 operand flagsRegU() %{ | |
3917 constraint(ALLOC_IN_RC(int_flags)); | |
3918 match(RegFlags); | |
3919 | |
3920 format %{ "icc_U" %} | |
3921 interface(REG_INTER); | |
3922 %} | |
3923 | |
3924 // Condition Code Register, pointer comparisons. | |
3925 operand flagsRegP() %{ | |
3926 constraint(ALLOC_IN_RC(int_flags)); | |
3927 match(RegFlags); | |
3928 | |
3929 #ifdef _LP64 | |
3930 format %{ "xcc_P" %} | |
3931 #else | |
3932 format %{ "icc_P" %} | |
3933 #endif | |
3934 interface(REG_INTER); | |
3935 %} | |
3936 | |
3937 // Condition Code Register, long comparisons. | |
3938 operand flagsRegL() %{ | |
3939 constraint(ALLOC_IN_RC(int_flags)); | |
3940 match(RegFlags); | |
3941 | |
3942 format %{ "xcc_L" %} | |
3943 interface(REG_INTER); | |
3944 %} | |
3945 | |
3946 // Condition Code Register, floating comparisons, unordered same as "less". | |
3947 operand flagsRegF() %{ | |
3948 constraint(ALLOC_IN_RC(float_flags)); | |
3949 match(RegFlags); | |
3950 match(flagsRegF0); | |
3951 | |
3952 format %{ %} | |
3953 interface(REG_INTER); | |
3954 %} | |
3955 | |
3956 operand flagsRegF0() %{ | |
3957 constraint(ALLOC_IN_RC(float_flag0)); | |
3958 match(RegFlags); | |
3959 | |
3960 format %{ %} | |
3961 interface(REG_INTER); | |
3962 %} | |
3963 | |
3964 | |
3965 // Condition Code Flag Register used by long compare | |
3966 operand flagsReg_long_LTGE() %{ | |
3967 constraint(ALLOC_IN_RC(int_flags)); | |
3968 match(RegFlags); | |
3969 format %{ "icc_LTGE" %} | |
3970 interface(REG_INTER); | |
3971 %} | |
3972 operand flagsReg_long_EQNE() %{ | |
3973 constraint(ALLOC_IN_RC(int_flags)); | |
3974 match(RegFlags); | |
3975 format %{ "icc_EQNE" %} | |
3976 interface(REG_INTER); | |
3977 %} | |
3978 operand flagsReg_long_LEGT() %{ | |
3979 constraint(ALLOC_IN_RC(int_flags)); | |
3980 match(RegFlags); | |
3981 format %{ "icc_LEGT" %} | |
3982 interface(REG_INTER); | |
3983 %} | |
3984 | |
3985 | |
3986 operand regD() %{ | |
3987 constraint(ALLOC_IN_RC(dflt_reg)); | |
3988 match(RegD); | |
3989 | |
551 | 3990 match(regD_low); |
3991 | |
0 | 3992 format %{ %} |
3993 interface(REG_INTER); | |
3994 %} | |
3995 | |
3996 operand regF() %{ | |
3997 constraint(ALLOC_IN_RC(sflt_reg)); | |
3998 match(RegF); | |
3999 | |
4000 format %{ %} | |
4001 interface(REG_INTER); | |
4002 %} | |
4003 | |
4004 operand regD_low() %{ | |
4005 constraint(ALLOC_IN_RC(dflt_low_reg)); | |
551 | 4006 match(regD); |
0 | 4007 |
4008 format %{ %} | |
4009 interface(REG_INTER); | |
4010 %} | |
4011 | |
4012 // Special Registers | |
4013 | |
4014 // Method Register | |
4015 operand inline_cache_regP(iRegP reg) %{ | |
4016 constraint(ALLOC_IN_RC(g5_regP)); // G5=inline_cache_reg but uses 2 bits instead of 1 | |
4017 match(reg); | |
4018 format %{ %} | |
4019 interface(REG_INTER); | |
4020 %} | |
4021 | |
4022 operand interpreter_method_oop_regP(iRegP reg) %{ | |
4023 constraint(ALLOC_IN_RC(g5_regP)); // G5=interpreter_method_oop_reg but uses 2 bits instead of 1 | |
4024 match(reg); | |
4025 format %{ %} | |
4026 interface(REG_INTER); | |
4027 %} | |
4028 | |
4029 | |
4030 //----------Complex Operands--------------------------------------------------- | |
4031 // Indirect Memory Reference | |
4032 operand indirect(sp_ptr_RegP reg) %{ | |
4033 constraint(ALLOC_IN_RC(sp_ptr_reg)); | |
4034 match(reg); | |
4035 | |
4036 op_cost(100); | |
4037 format %{ "[$reg]" %} | |
4038 interface(MEMORY_INTER) %{ | |
4039 base($reg); | |
4040 index(0x0); | |
4041 scale(0x0); | |
4042 disp(0x0); | |
4043 %} | |
4044 %} | |
4045 | |
785 | 4046 // Indirect with simm13 Offset |
0 | 4047 operand indOffset13(sp_ptr_RegP reg, immX13 offset) %{ |
4048 constraint(ALLOC_IN_RC(sp_ptr_reg)); | |
4049 match(AddP reg offset); | |
4050 | |
4051 op_cost(100); | |
4052 format %{ "[$reg + $offset]" %} | |
4053 interface(MEMORY_INTER) %{ | |
4054 base($reg); | |
4055 index(0x0); | |
4056 scale(0x0); | |
4057 disp($offset); | |
4058 %} | |
4059 %} | |
4060 | |
785 | 4061 // Indirect with simm13 Offset minus 7 |
4062 operand indOffset13m7(sp_ptr_RegP reg, immX13m7 offset) %{ | |
4063 constraint(ALLOC_IN_RC(sp_ptr_reg)); | |
4064 match(AddP reg offset); | |
4065 | |
4066 op_cost(100); | |
4067 format %{ "[$reg + $offset]" %} | |
4068 interface(MEMORY_INTER) %{ | |
4069 base($reg); | |
4070 index(0x0); | |
4071 scale(0x0); | |
4072 disp($offset); | |
4073 %} | |
4074 %} | |
4075 | |
0 | 4076 // Note: Intel has a swapped version also, like this: |
4077 //operand indOffsetX(iRegI reg, immP offset) %{ | |
4078 // constraint(ALLOC_IN_RC(int_reg)); | |
4079 // match(AddP offset reg); | |
4080 // | |
4081 // op_cost(100); | |
4082 // format %{ "[$reg + $offset]" %} | |
4083 // interface(MEMORY_INTER) %{ | |
4084 // base($reg); | |
4085 // index(0x0); | |
4086 // scale(0x0); | |
4087 // disp($offset); | |
4088 // %} | |
4089 //%} | |
4090 //// However, it doesn't make sense for SPARC, since | |
4091 // we have no particularly good way to embed oops in | |
4092 // single instructions. | |
4093 | |
4094 // Indirect with Register Index | |
4095 operand indIndex(iRegP addr, iRegX index) %{ | |
4096 constraint(ALLOC_IN_RC(ptr_reg)); | |
4097 match(AddP addr index); | |
4098 | |
4099 op_cost(100); | |
4100 format %{ "[$addr + $index]" %} | |
4101 interface(MEMORY_INTER) %{ | |
4102 base($addr); | |
4103 index($index); | |
4104 scale(0x0); | |
4105 disp(0x0); | |
4106 %} | |
4107 %} | |
4108 | |
4109 //----------Special Memory Operands-------------------------------------------- | |
4110 // Stack Slot Operand - This operand is used for loading and storing temporary | |
4111 // values on the stack where a match requires a value to | |
4112 // flow through memory. | |
4113 operand stackSlotI(sRegI reg) %{ | |
4114 constraint(ALLOC_IN_RC(stack_slots)); | |
4115 op_cost(100); | |
4116 //match(RegI); | |
4117 format %{ "[$reg]" %} | |
4118 interface(MEMORY_INTER) %{ | |
4119 base(0xE); // R_SP | |
4120 index(0x0); | |
4121 scale(0x0); | |
4122 disp($reg); // Stack Offset | |
4123 %} | |
4124 %} | |
4125 | |
4126 operand stackSlotP(sRegP reg) %{ | |
4127 constraint(ALLOC_IN_RC(stack_slots)); | |
4128 op_cost(100); | |
4129 //match(RegP); | |
4130 format %{ "[$reg]" %} | |
4131 interface(MEMORY_INTER) %{ | |
4132 base(0xE); // R_SP | |
4133 index(0x0); | |
4134 scale(0x0); | |
4135 disp($reg); // Stack Offset | |
4136 %} | |
4137 %} | |
4138 | |
4139 operand stackSlotF(sRegF reg) %{ | |
4140 constraint(ALLOC_IN_RC(stack_slots)); | |
4141 op_cost(100); | |
4142 //match(RegF); | |
4143 format %{ "[$reg]" %} | |
4144 interface(MEMORY_INTER) %{ | |
4145 base(0xE); // R_SP | |
4146 index(0x0); | |
4147 scale(0x0); | |
4148 disp($reg); // Stack Offset | |
4149 %} | |
4150 %} | |
4151 operand stackSlotD(sRegD reg) %{ | |
4152 constraint(ALLOC_IN_RC(stack_slots)); | |
4153 op_cost(100); | |
4154 //match(RegD); | |
4155 format %{ "[$reg]" %} | |
4156 interface(MEMORY_INTER) %{ | |
4157 base(0xE); // R_SP | |
4158 index(0x0); | |
4159 scale(0x0); | |
4160 disp($reg); // Stack Offset | |
4161 %} | |
4162 %} | |
4163 operand stackSlotL(sRegL reg) %{ | |
4164 constraint(ALLOC_IN_RC(stack_slots)); | |
4165 op_cost(100); | |
4166 //match(RegL); | |
4167 format %{ "[$reg]" %} | |
4168 interface(MEMORY_INTER) %{ | |
4169 base(0xE); // R_SP | |
4170 index(0x0); | |
4171 scale(0x0); | |
4172 disp($reg); // Stack Offset | |
4173 %} | |
4174 %} | |
4175 | |
4176 // Operands for expressing Control Flow | |
4177 // NOTE: Label is a predefined operand which should not be redefined in | |
4178 // the AD file. It is generically handled within the ADLC. | |
4179 | |
4180 //----------Conditional Branch Operands---------------------------------------- | |
4181 // Comparison Op - This is the operation of the comparison, and is limited to | |
4182 // the following set of codes: | |
4183 // L (<), LE (<=), G (>), GE (>=), E (==), NE (!=) | |
4184 // | |
4185 // Other attributes of the comparison, such as unsignedness, are specified | |
4186 // by the comparison instruction that sets a condition code flags register. | |
4187 // That result is represented by a flags operand whose subtype is appropriate | |
4188 // to the unsignedness (etc.) of the comparison. | |
4189 // | |
4190 // Later, the instruction which matches both the Comparison Op (a Bool) and | |
4191 // the flags (produced by the Cmp) specifies the coding of the comparison op | |
4192 // by matching a specific subtype of Bool operand below, such as cmpOpU. | |
4193 | |
4194 operand cmpOp() %{ | |
4195 match(Bool); | |
4196 | |
4197 format %{ "" %} | |
4198 interface(COND_INTER) %{ | |
4199 equal(0x1); | |
4200 not_equal(0x9); | |
4201 less(0x3); | |
4202 greater_equal(0xB); | |
4203 less_equal(0x2); | |
4204 greater(0xA); | |
4205 %} | |
4206 %} | |
4207 | |
4208 // Comparison Op, unsigned | |
4209 operand cmpOpU() %{ | |
4210 match(Bool); | |
4211 | |
4212 format %{ "u" %} | |
4213 interface(COND_INTER) %{ | |
4214 equal(0x1); | |
4215 not_equal(0x9); | |
4216 less(0x5); | |
4217 greater_equal(0xD); | |
4218 less_equal(0x4); | |
4219 greater(0xC); | |
4220 %} | |
4221 %} | |
4222 | |
4223 // Comparison Op, pointer (same as unsigned) | |
4224 operand cmpOpP() %{ | |
4225 match(Bool); | |
4226 | |
4227 format %{ "p" %} | |
4228 interface(COND_INTER) %{ | |
4229 equal(0x1); | |
4230 not_equal(0x9); | |
4231 less(0x5); | |
4232 greater_equal(0xD); | |
4233 less_equal(0x4); | |
4234 greater(0xC); | |
4235 %} | |
4236 %} | |
4237 | |
4238 // Comparison Op, branch-register encoding | |
4239 operand cmpOp_reg() %{ | |
4240 match(Bool); | |
4241 | |
4242 format %{ "" %} | |
4243 interface(COND_INTER) %{ | |
4244 equal (0x1); | |
4245 not_equal (0x5); | |
4246 less (0x3); | |
4247 greater_equal(0x7); | |
4248 less_equal (0x2); | |
4249 greater (0x6); | |
4250 %} | |
4251 %} | |
4252 | |
4253 // Comparison Code, floating, unordered same as less | |
4254 operand cmpOpF() %{ | |
4255 match(Bool); | |
4256 | |
4257 format %{ "fl" %} | |
4258 interface(COND_INTER) %{ | |
4259 equal(0x9); | |
4260 not_equal(0x1); | |
4261 less(0x3); | |
4262 greater_equal(0xB); | |
4263 less_equal(0xE); | |
4264 greater(0x6); | |
4265 %} | |
4266 %} | |
4267 | |
4268 // Used by long compare | |
4269 operand cmpOp_commute() %{ | |
4270 match(Bool); | |
4271 | |
4272 format %{ "" %} | |
4273 interface(COND_INTER) %{ | |
4274 equal(0x1); | |
4275 not_equal(0x9); | |
4276 less(0xA); | |
4277 greater_equal(0x2); | |
4278 less_equal(0xB); | |
4279 greater(0x3); | |
4280 %} | |
4281 %} | |
4282 | |
4283 //----------OPERAND CLASSES---------------------------------------------------- | |
4284 // Operand Classes are groups of operands that are used to simplify | |
605 | 4285 // instruction definitions by not requiring the AD writer to specify separate |
0 | 4286 // instructions for every form of operand when the instruction accepts |
4287 // multiple operand types with the same basic encoding and format. The classic | |
4288 // case of this is memory operands. | |
4289 opclass memory( indirect, indOffset13, indIndex ); | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
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parents:
1367
diff
changeset
|
4290 opclass indIndexMemory( indIndex ); |
0 | 4291 |
4292 //----------PIPELINE----------------------------------------------------------- | |
4293 pipeline %{ | |
4294 | |
4295 //----------ATTRIBUTES--------------------------------------------------------- | |
4296 attributes %{ | |
4297 fixed_size_instructions; // Fixed size instructions | |
4298 branch_has_delay_slot; // Branch has delay slot following | |
4299 max_instructions_per_bundle = 4; // Up to 4 instructions per bundle | |
4300 instruction_unit_size = 4; // An instruction is 4 bytes long | |
4301 instruction_fetch_unit_size = 16; // The processor fetches one line | |
4302 instruction_fetch_units = 1; // of 16 bytes | |
4303 | |
4304 // List of nop instructions | |
4305 nops( Nop_A0, Nop_A1, Nop_MS, Nop_FA, Nop_BR ); | |
4306 %} | |
4307 | |
4308 //----------RESOURCES---------------------------------------------------------- | |
4309 // Resources are the functional units available to the machine | |
4310 resources(A0, A1, MS, BR, FA, FM, IDIV, FDIV, IALU = A0 | A1); | |
4311 | |
4312 //----------PIPELINE DESCRIPTION----------------------------------------------- | |
4313 // Pipeline Description specifies the stages in the machine's pipeline | |
4314 | |
4315 pipe_desc(A, P, F, B, I, J, S, R, E, C, M, W, X, T, D); | |
4316 | |
4317 //----------PIPELINE CLASSES--------------------------------------------------- | |
4318 // Pipeline Classes describe the stages in which input and output are | |
4319 // referenced by the hardware pipeline. | |
4320 | |
4321 // Integer ALU reg-reg operation | |
4322 pipe_class ialu_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
4323 single_instruction; | |
4324 dst : E(write); | |
4325 src1 : R(read); | |
4326 src2 : R(read); | |
4327 IALU : R; | |
4328 %} | |
4329 | |
4330 // Integer ALU reg-reg long operation | |
4331 pipe_class ialu_reg_reg_2(iRegL dst, iRegL src1, iRegL src2) %{ | |
4332 instruction_count(2); | |
4333 dst : E(write); | |
4334 src1 : R(read); | |
4335 src2 : R(read); | |
4336 IALU : R; | |
4337 IALU : R; | |
4338 %} | |
4339 | |
4340 // Integer ALU reg-reg long dependent operation | |
4341 pipe_class ialu_reg_reg_2_dep(iRegL dst, iRegL src1, iRegL src2, flagsReg cr) %{ | |
4342 instruction_count(1); multiple_bundles; | |
4343 dst : E(write); | |
4344 src1 : R(read); | |
4345 src2 : R(read); | |
4346 cr : E(write); | |
4347 IALU : R(2); | |
4348 %} | |
4349 | |
4350 // Integer ALU reg-imm operaion | |
4351 pipe_class ialu_reg_imm(iRegI dst, iRegI src1, immI13 src2) %{ | |
4352 single_instruction; | |
4353 dst : E(write); | |
4354 src1 : R(read); | |
4355 IALU : R; | |
4356 %} | |
4357 | |
4358 // Integer ALU reg-reg operation with condition code | |
4359 pipe_class ialu_cc_reg_reg(iRegI dst, iRegI src1, iRegI src2, flagsReg cr) %{ | |
4360 single_instruction; | |
4361 dst : E(write); | |
4362 cr : E(write); | |
4363 src1 : R(read); | |
4364 src2 : R(read); | |
4365 IALU : R; | |
4366 %} | |
4367 | |
4368 // Integer ALU reg-imm operation with condition code | |
4369 pipe_class ialu_cc_reg_imm(iRegI dst, iRegI src1, immI13 src2, flagsReg cr) %{ | |
4370 single_instruction; | |
4371 dst : E(write); | |
4372 cr : E(write); | |
4373 src1 : R(read); | |
4374 IALU : R; | |
4375 %} | |
4376 | |
4377 // Integer ALU zero-reg operation | |
4378 pipe_class ialu_zero_reg(iRegI dst, immI0 zero, iRegI src2) %{ | |
4379 single_instruction; | |
4380 dst : E(write); | |
4381 src2 : R(read); | |
4382 IALU : R; | |
4383 %} | |
4384 | |
4385 // Integer ALU zero-reg operation with condition code only | |
4386 pipe_class ialu_cconly_zero_reg(flagsReg cr, iRegI src) %{ | |
4387 single_instruction; | |
4388 cr : E(write); | |
4389 src : R(read); | |
4390 IALU : R; | |
4391 %} | |
4392 | |
4393 // Integer ALU reg-reg operation with condition code only | |
4394 pipe_class ialu_cconly_reg_reg(flagsReg cr, iRegI src1, iRegI src2) %{ | |
4395 single_instruction; | |
4396 cr : E(write); | |
4397 src1 : R(read); | |
4398 src2 : R(read); | |
4399 IALU : R; | |
4400 %} | |
4401 | |
4402 // Integer ALU reg-imm operation with condition code only | |
4403 pipe_class ialu_cconly_reg_imm(flagsReg cr, iRegI src1, immI13 src2) %{ | |
4404 single_instruction; | |
4405 cr : E(write); | |
4406 src1 : R(read); | |
4407 IALU : R; | |
4408 %} | |
4409 | |
4410 // Integer ALU reg-reg-zero operation with condition code only | |
4411 pipe_class ialu_cconly_reg_reg_zero(flagsReg cr, iRegI src1, iRegI src2, immI0 zero) %{ | |
4412 single_instruction; | |
4413 cr : E(write); | |
4414 src1 : R(read); | |
4415 src2 : R(read); | |
4416 IALU : R; | |
4417 %} | |
4418 | |
4419 // Integer ALU reg-imm-zero operation with condition code only | |
4420 pipe_class ialu_cconly_reg_imm_zero(flagsReg cr, iRegI src1, immI13 src2, immI0 zero) %{ | |
4421 single_instruction; | |
4422 cr : E(write); | |
4423 src1 : R(read); | |
4424 IALU : R; | |
4425 %} | |
4426 | |
4427 // Integer ALU reg-reg operation with condition code, src1 modified | |
4428 pipe_class ialu_cc_rwreg_reg(flagsReg cr, iRegI src1, iRegI src2) %{ | |
4429 single_instruction; | |
4430 cr : E(write); | |
4431 src1 : E(write); | |
4432 src1 : R(read); | |
4433 src2 : R(read); | |
4434 IALU : R; | |
4435 %} | |
4436 | |
4437 // Integer ALU reg-imm operation with condition code, src1 modified | |
4438 pipe_class ialu_cc_rwreg_imm(flagsReg cr, iRegI src1, immI13 src2) %{ | |
4439 single_instruction; | |
4440 cr : E(write); | |
4441 src1 : E(write); | |
4442 src1 : R(read); | |
4443 IALU : R; | |
4444 %} | |
4445 | |
4446 pipe_class cmpL_reg(iRegI dst, iRegL src1, iRegL src2, flagsReg cr ) %{ | |
4447 multiple_bundles; | |
4448 dst : E(write)+4; | |
4449 cr : E(write); | |
4450 src1 : R(read); | |
4451 src2 : R(read); | |
4452 IALU : R(3); | |
4453 BR : R(2); | |
4454 %} | |
4455 | |
4456 // Integer ALU operation | |
4457 pipe_class ialu_none(iRegI dst) %{ | |
4458 single_instruction; | |
4459 dst : E(write); | |
4460 IALU : R; | |
4461 %} | |
4462 | |
4463 // Integer ALU reg operation | |
4464 pipe_class ialu_reg(iRegI dst, iRegI src) %{ | |
4465 single_instruction; may_have_no_code; | |
4466 dst : E(write); | |
4467 src : R(read); | |
4468 IALU : R; | |
4469 %} | |
4470 | |
4471 // Integer ALU reg conditional operation | |
4472 // This instruction has a 1 cycle stall, and cannot execute | |
4473 // in the same cycle as the instruction setting the condition | |
4474 // code. We kludge this by pretending to read the condition code | |
4475 // 1 cycle earlier, and by marking the functional units as busy | |
4476 // for 2 cycles with the result available 1 cycle later than | |
4477 // is really the case. | |
4478 pipe_class ialu_reg_flags( iRegI op2_out, iRegI op2_in, iRegI op1, flagsReg cr ) %{ | |
4479 single_instruction; | |
4480 op2_out : C(write); | |
4481 op1 : R(read); | |
4482 cr : R(read); // This is really E, with a 1 cycle stall | |
4483 BR : R(2); | |
4484 MS : R(2); | |
4485 %} | |
4486 | |
4487 #ifdef _LP64 | |
4488 pipe_class ialu_clr_and_mover( iRegI dst, iRegP src ) %{ | |
4489 instruction_count(1); multiple_bundles; | |
4490 dst : C(write)+1; | |
4491 src : R(read)+1; | |
4492 IALU : R(1); | |
4493 BR : E(2); | |
4494 MS : E(2); | |
4495 %} | |
4496 #endif | |
4497 | |
4498 // Integer ALU reg operation | |
4499 pipe_class ialu_move_reg_L_to_I(iRegI dst, iRegL src) %{ | |
4500 single_instruction; may_have_no_code; | |
4501 dst : E(write); | |
4502 src : R(read); | |
4503 IALU : R; | |
4504 %} | |
4505 pipe_class ialu_move_reg_I_to_L(iRegL dst, iRegI src) %{ | |
4506 single_instruction; may_have_no_code; | |
4507 dst : E(write); | |
4508 src : R(read); | |
4509 IALU : R; | |
4510 %} | |
4511 | |
4512 // Two integer ALU reg operations | |
4513 pipe_class ialu_reg_2(iRegL dst, iRegL src) %{ | |
4514 instruction_count(2); | |
4515 dst : E(write); | |
4516 src : R(read); | |
4517 A0 : R; | |
4518 A1 : R; | |
4519 %} | |
4520 | |
4521 // Two integer ALU reg operations | |
4522 pipe_class ialu_move_reg_L_to_L(iRegL dst, iRegL src) %{ | |
4523 instruction_count(2); may_have_no_code; | |
4524 dst : E(write); | |
4525 src : R(read); | |
4526 A0 : R; | |
4527 A1 : R; | |
4528 %} | |
4529 | |
4530 // Integer ALU imm operation | |
4531 pipe_class ialu_imm(iRegI dst, immI13 src) %{ | |
4532 single_instruction; | |
4533 dst : E(write); | |
4534 IALU : R; | |
4535 %} | |
4536 | |
4537 // Integer ALU reg-reg with carry operation | |
4538 pipe_class ialu_reg_reg_cy(iRegI dst, iRegI src1, iRegI src2, iRegI cy) %{ | |
4539 single_instruction; | |
4540 dst : E(write); | |
4541 src1 : R(read); | |
4542 src2 : R(read); | |
4543 IALU : R; | |
4544 %} | |
4545 | |
4546 // Integer ALU cc operation | |
4547 pipe_class ialu_cc(iRegI dst, flagsReg cc) %{ | |
4548 single_instruction; | |
4549 dst : E(write); | |
4550 cc : R(read); | |
4551 IALU : R; | |
4552 %} | |
4553 | |
4554 // Integer ALU cc / second IALU operation | |
4555 pipe_class ialu_reg_ialu( iRegI dst, iRegI src ) %{ | |
4556 instruction_count(1); multiple_bundles; | |
4557 dst : E(write)+1; | |
4558 src : R(read); | |
4559 IALU : R; | |
4560 %} | |
4561 | |
4562 // Integer ALU cc / second IALU operation | |
4563 pipe_class ialu_reg_reg_ialu( iRegI dst, iRegI p, iRegI q ) %{ | |
4564 instruction_count(1); multiple_bundles; | |
4565 dst : E(write)+1; | |
4566 p : R(read); | |
4567 q : R(read); | |
4568 IALU : R; | |
4569 %} | |
4570 | |
4571 // Integer ALU hi-lo-reg operation | |
4572 pipe_class ialu_hi_lo_reg(iRegI dst, immI src) %{ | |
4573 instruction_count(1); multiple_bundles; | |
4574 dst : E(write)+1; | |
4575 IALU : R(2); | |
4576 %} | |
4577 | |
4578 // Float ALU hi-lo-reg operation (with temp) | |
4579 pipe_class ialu_hi_lo_reg_temp(regF dst, immF src, g3RegP tmp) %{ | |
4580 instruction_count(1); multiple_bundles; | |
4581 dst : E(write)+1; | |
4582 IALU : R(2); | |
4583 %} | |
4584 | |
4585 // Long Constant | |
4586 pipe_class loadConL( iRegL dst, immL src ) %{ | |
4587 instruction_count(2); multiple_bundles; | |
4588 dst : E(write)+1; | |
4589 IALU : R(2); | |
4590 IALU : R(2); | |
4591 %} | |
4592 | |
4593 // Pointer Constant | |
4594 pipe_class loadConP( iRegP dst, immP src ) %{ | |
4595 instruction_count(0); multiple_bundles; | |
4596 fixed_latency(6); | |
4597 %} | |
4598 | |
4599 // Polling Address | |
4600 pipe_class loadConP_poll( iRegP dst, immP_poll src ) %{ | |
4601 #ifdef _LP64 | |
4602 instruction_count(0); multiple_bundles; | |
4603 fixed_latency(6); | |
4604 #else | |
4605 dst : E(write); | |
4606 IALU : R; | |
4607 #endif | |
4608 %} | |
4609 | |
4610 // Long Constant small | |
4611 pipe_class loadConLlo( iRegL dst, immL src ) %{ | |
4612 instruction_count(2); | |
4613 dst : E(write); | |
4614 IALU : R; | |
4615 IALU : R; | |
4616 %} | |
4617 | |
4618 // [PHH] This is wrong for 64-bit. See LdImmF/D. | |
4619 pipe_class loadConFD(regF dst, immF src, g3RegP tmp) %{ | |
4620 instruction_count(1); multiple_bundles; | |
4621 src : R(read); | |
4622 dst : M(write)+1; | |
4623 IALU : R; | |
4624 MS : E; | |
4625 %} | |
4626 | |
4627 // Integer ALU nop operation | |
4628 pipe_class ialu_nop() %{ | |
4629 single_instruction; | |
4630 IALU : R; | |
4631 %} | |
4632 | |
4633 // Integer ALU nop operation | |
4634 pipe_class ialu_nop_A0() %{ | |
4635 single_instruction; | |
4636 A0 : R; | |
4637 %} | |
4638 | |
4639 // Integer ALU nop operation | |
4640 pipe_class ialu_nop_A1() %{ | |
4641 single_instruction; | |
4642 A1 : R; | |
4643 %} | |
4644 | |
4645 // Integer Multiply reg-reg operation | |
4646 pipe_class imul_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
4647 single_instruction; | |
4648 dst : E(write); | |
4649 src1 : R(read); | |
4650 src2 : R(read); | |
4651 MS : R(5); | |
4652 %} | |
4653 | |
4654 // Integer Multiply reg-imm operation | |
4655 pipe_class imul_reg_imm(iRegI dst, iRegI src1, immI13 src2) %{ | |
4656 single_instruction; | |
4657 dst : E(write); | |
4658 src1 : R(read); | |
4659 MS : R(5); | |
4660 %} | |
4661 | |
4662 pipe_class mulL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
4663 single_instruction; | |
4664 dst : E(write)+4; | |
4665 src1 : R(read); | |
4666 src2 : R(read); | |
4667 MS : R(6); | |
4668 %} | |
4669 | |
4670 pipe_class mulL_reg_imm(iRegL dst, iRegL src1, immL13 src2) %{ | |
4671 single_instruction; | |
4672 dst : E(write)+4; | |
4673 src1 : R(read); | |
4674 MS : R(6); | |
4675 %} | |
4676 | |
4677 // Integer Divide reg-reg | |
4678 pipe_class sdiv_reg_reg(iRegI dst, iRegI src1, iRegI src2, iRegI temp, flagsReg cr) %{ | |
4679 instruction_count(1); multiple_bundles; | |
4680 dst : E(write); | |
4681 temp : E(write); | |
4682 src1 : R(read); | |
4683 src2 : R(read); | |
4684 temp : R(read); | |
4685 MS : R(38); | |
4686 %} | |
4687 | |
4688 // Integer Divide reg-imm | |
4689 pipe_class sdiv_reg_imm(iRegI dst, iRegI src1, immI13 src2, iRegI temp, flagsReg cr) %{ | |
4690 instruction_count(1); multiple_bundles; | |
4691 dst : E(write); | |
4692 temp : E(write); | |
4693 src1 : R(read); | |
4694 temp : R(read); | |
4695 MS : R(38); | |
4696 %} | |
4697 | |
4698 // Long Divide | |
4699 pipe_class divL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
4700 dst : E(write)+71; | |
4701 src1 : R(read); | |
4702 src2 : R(read)+1; | |
4703 MS : R(70); | |
4704 %} | |
4705 | |
4706 pipe_class divL_reg_imm(iRegL dst, iRegL src1, immL13 src2) %{ | |
4707 dst : E(write)+71; | |
4708 src1 : R(read); | |
4709 MS : R(70); | |
4710 %} | |
4711 | |
4712 // Floating Point Add Float | |
4713 pipe_class faddF_reg_reg(regF dst, regF src1, regF src2) %{ | |
4714 single_instruction; | |
4715 dst : X(write); | |
4716 src1 : E(read); | |
4717 src2 : E(read); | |
4718 FA : R; | |
4719 %} | |
4720 | |
4721 // Floating Point Add Double | |
4722 pipe_class faddD_reg_reg(regD dst, regD src1, regD src2) %{ | |
4723 single_instruction; | |
4724 dst : X(write); | |
4725 src1 : E(read); | |
4726 src2 : E(read); | |
4727 FA : R; | |
4728 %} | |
4729 | |
4730 // Floating Point Conditional Move based on integer flags | |
4731 pipe_class int_conditional_float_move (cmpOp cmp, flagsReg cr, regF dst, regF src) %{ | |
4732 single_instruction; | |
4733 dst : X(write); | |
4734 src : E(read); | |
4735 cr : R(read); | |
4736 FA : R(2); | |
4737 BR : R(2); | |
4738 %} | |
4739 | |
4740 // Floating Point Conditional Move based on integer flags | |
4741 pipe_class int_conditional_double_move (cmpOp cmp, flagsReg cr, regD dst, regD src) %{ | |
4742 single_instruction; | |
4743 dst : X(write); | |
4744 src : E(read); | |
4745 cr : R(read); | |
4746 FA : R(2); | |
4747 BR : R(2); | |
4748 %} | |
4749 | |
4750 // Floating Point Multiply Float | |
4751 pipe_class fmulF_reg_reg(regF dst, regF src1, regF src2) %{ | |
4752 single_instruction; | |
4753 dst : X(write); | |
4754 src1 : E(read); | |
4755 src2 : E(read); | |
4756 FM : R; | |
4757 %} | |
4758 | |
4759 // Floating Point Multiply Double | |
4760 pipe_class fmulD_reg_reg(regD dst, regD src1, regD src2) %{ | |
4761 single_instruction; | |
4762 dst : X(write); | |
4763 src1 : E(read); | |
4764 src2 : E(read); | |
4765 FM : R; | |
4766 %} | |
4767 | |
4768 // Floating Point Divide Float | |
4769 pipe_class fdivF_reg_reg(regF dst, regF src1, regF src2) %{ | |
4770 single_instruction; | |
4771 dst : X(write); | |
4772 src1 : E(read); | |
4773 src2 : E(read); | |
4774 FM : R; | |
4775 FDIV : C(14); | |
4776 %} | |
4777 | |
4778 // Floating Point Divide Double | |
4779 pipe_class fdivD_reg_reg(regD dst, regD src1, regD src2) %{ | |
4780 single_instruction; | |
4781 dst : X(write); | |
4782 src1 : E(read); | |
4783 src2 : E(read); | |
4784 FM : R; | |
4785 FDIV : C(17); | |
4786 %} | |
4787 | |
4788 // Floating Point Move/Negate/Abs Float | |
4789 pipe_class faddF_reg(regF dst, regF src) %{ | |
4790 single_instruction; | |
4791 dst : W(write); | |
4792 src : E(read); | |
4793 FA : R(1); | |
4794 %} | |
4795 | |
4796 // Floating Point Move/Negate/Abs Double | |
4797 pipe_class faddD_reg(regD dst, regD src) %{ | |
4798 single_instruction; | |
4799 dst : W(write); | |
4800 src : E(read); | |
4801 FA : R; | |
4802 %} | |
4803 | |
4804 // Floating Point Convert F->D | |
4805 pipe_class fcvtF2D(regD dst, regF src) %{ | |
4806 single_instruction; | |
4807 dst : X(write); | |
4808 src : E(read); | |
4809 FA : R; | |
4810 %} | |
4811 | |
4812 // Floating Point Convert I->D | |
4813 pipe_class fcvtI2D(regD dst, regF src) %{ | |
4814 single_instruction; | |
4815 dst : X(write); | |
4816 src : E(read); | |
4817 FA : R; | |
4818 %} | |
4819 | |
4820 // Floating Point Convert LHi->D | |
4821 pipe_class fcvtLHi2D(regD dst, regD src) %{ | |
4822 single_instruction; | |
4823 dst : X(write); | |
4824 src : E(read); | |
4825 FA : R; | |
4826 %} | |
4827 | |
4828 // Floating Point Convert L->D | |
4829 pipe_class fcvtL2D(regD dst, regF src) %{ | |
4830 single_instruction; | |
4831 dst : X(write); | |
4832 src : E(read); | |
4833 FA : R; | |
4834 %} | |
4835 | |
4836 // Floating Point Convert L->F | |
4837 pipe_class fcvtL2F(regD dst, regF src) %{ | |
4838 single_instruction; | |
4839 dst : X(write); | |
4840 src : E(read); | |
4841 FA : R; | |
4842 %} | |
4843 | |
4844 // Floating Point Convert D->F | |
4845 pipe_class fcvtD2F(regD dst, regF src) %{ | |
4846 single_instruction; | |
4847 dst : X(write); | |
4848 src : E(read); | |
4849 FA : R; | |
4850 %} | |
4851 | |
4852 // Floating Point Convert I->L | |
4853 pipe_class fcvtI2L(regD dst, regF src) %{ | |
4854 single_instruction; | |
4855 dst : X(write); | |
4856 src : E(read); | |
4857 FA : R; | |
4858 %} | |
4859 | |
4860 // Floating Point Convert D->F | |
4861 pipe_class fcvtD2I(regF dst, regD src, flagsReg cr) %{ | |
4862 instruction_count(1); multiple_bundles; | |
4863 dst : X(write)+6; | |
4864 src : E(read); | |
4865 FA : R; | |
4866 %} | |
4867 | |
4868 // Floating Point Convert D->L | |
4869 pipe_class fcvtD2L(regD dst, regD src, flagsReg cr) %{ | |
4870 instruction_count(1); multiple_bundles; | |
4871 dst : X(write)+6; | |
4872 src : E(read); | |
4873 FA : R; | |
4874 %} | |
4875 | |
4876 // Floating Point Convert F->I | |
4877 pipe_class fcvtF2I(regF dst, regF src, flagsReg cr) %{ | |
4878 instruction_count(1); multiple_bundles; | |
4879 dst : X(write)+6; | |
4880 src : E(read); | |
4881 FA : R; | |
4882 %} | |
4883 | |
4884 // Floating Point Convert F->L | |
4885 pipe_class fcvtF2L(regD dst, regF src, flagsReg cr) %{ | |
4886 instruction_count(1); multiple_bundles; | |
4887 dst : X(write)+6; | |
4888 src : E(read); | |
4889 FA : R; | |
4890 %} | |
4891 | |
4892 // Floating Point Convert I->F | |
4893 pipe_class fcvtI2F(regF dst, regF src) %{ | |
4894 single_instruction; | |
4895 dst : X(write); | |
4896 src : E(read); | |
4897 FA : R; | |
4898 %} | |
4899 | |
4900 // Floating Point Compare | |
4901 pipe_class faddF_fcc_reg_reg_zero(flagsRegF cr, regF src1, regF src2, immI0 zero) %{ | |
4902 single_instruction; | |
4903 cr : X(write); | |
4904 src1 : E(read); | |
4905 src2 : E(read); | |
4906 FA : R; | |
4907 %} | |
4908 | |
4909 // Floating Point Compare | |
4910 pipe_class faddD_fcc_reg_reg_zero(flagsRegF cr, regD src1, regD src2, immI0 zero) %{ | |
4911 single_instruction; | |
4912 cr : X(write); | |
4913 src1 : E(read); | |
4914 src2 : E(read); | |
4915 FA : R; | |
4916 %} | |
4917 | |
4918 // Floating Add Nop | |
4919 pipe_class fadd_nop() %{ | |
4920 single_instruction; | |
4921 FA : R; | |
4922 %} | |
4923 | |
4924 // Integer Store to Memory | |
4925 pipe_class istore_mem_reg(memory mem, iRegI src) %{ | |
4926 single_instruction; | |
4927 mem : R(read); | |
4928 src : C(read); | |
4929 MS : R; | |
4930 %} | |
4931 | |
4932 // Integer Store to Memory | |
4933 pipe_class istore_mem_spORreg(memory mem, sp_ptr_RegP src) %{ | |
4934 single_instruction; | |
4935 mem : R(read); | |
4936 src : C(read); | |
4937 MS : R; | |
4938 %} | |
4939 | |
4940 // Integer Store Zero to Memory | |
4941 pipe_class istore_mem_zero(memory mem, immI0 src) %{ | |
4942 single_instruction; | |
4943 mem : R(read); | |
4944 MS : R; | |
4945 %} | |
4946 | |
4947 // Special Stack Slot Store | |
4948 pipe_class istore_stk_reg(stackSlotI stkSlot, iRegI src) %{ | |
4949 single_instruction; | |
4950 stkSlot : R(read); | |
4951 src : C(read); | |
4952 MS : R; | |
4953 %} | |
4954 | |
4955 // Special Stack Slot Store | |
4956 pipe_class lstoreI_stk_reg(stackSlotL stkSlot, iRegI src) %{ | |
4957 instruction_count(2); multiple_bundles; | |
4958 stkSlot : R(read); | |
4959 src : C(read); | |
4960 MS : R(2); | |
4961 %} | |
4962 | |
4963 // Float Store | |
4964 pipe_class fstoreF_mem_reg(memory mem, RegF src) %{ | |
4965 single_instruction; | |
4966 mem : R(read); | |
4967 src : C(read); | |
4968 MS : R; | |
4969 %} | |
4970 | |
4971 // Float Store | |
4972 pipe_class fstoreF_mem_zero(memory mem, immF0 src) %{ | |
4973 single_instruction; | |
4974 mem : R(read); | |
4975 MS : R; | |
4976 %} | |
4977 | |
4978 // Double Store | |
4979 pipe_class fstoreD_mem_reg(memory mem, RegD src) %{ | |
4980 instruction_count(1); | |
4981 mem : R(read); | |
4982 src : C(read); | |
4983 MS : R; | |
4984 %} | |
4985 | |
4986 // Double Store | |
4987 pipe_class fstoreD_mem_zero(memory mem, immD0 src) %{ | |
4988 single_instruction; | |
4989 mem : R(read); | |
4990 MS : R; | |
4991 %} | |
4992 | |
4993 // Special Stack Slot Float Store | |
4994 pipe_class fstoreF_stk_reg(stackSlotI stkSlot, RegF src) %{ | |
4995 single_instruction; | |
4996 stkSlot : R(read); | |
4997 src : C(read); | |
4998 MS : R; | |
4999 %} | |
5000 | |
5001 // Special Stack Slot Double Store | |
5002 pipe_class fstoreD_stk_reg(stackSlotI stkSlot, RegD src) %{ | |
5003 single_instruction; | |
5004 stkSlot : R(read); | |
5005 src : C(read); | |
5006 MS : R; | |
5007 %} | |
5008 | |
5009 // Integer Load (when sign bit propagation not needed) | |
5010 pipe_class iload_mem(iRegI dst, memory mem) %{ | |
5011 single_instruction; | |
5012 mem : R(read); | |
5013 dst : C(write); | |
5014 MS : R; | |
5015 %} | |
5016 | |
5017 // Integer Load from stack operand | |
5018 pipe_class iload_stkD(iRegI dst, stackSlotD mem ) %{ | |
5019 single_instruction; | |
5020 mem : R(read); | |
5021 dst : C(write); | |
5022 MS : R; | |
5023 %} | |
5024 | |
5025 // Integer Load (when sign bit propagation or masking is needed) | |
5026 pipe_class iload_mask_mem(iRegI dst, memory mem) %{ | |
5027 single_instruction; | |
5028 mem : R(read); | |
5029 dst : M(write); | |
5030 MS : R; | |
5031 %} | |
5032 | |
5033 // Float Load | |
5034 pipe_class floadF_mem(regF dst, memory mem) %{ | |
5035 single_instruction; | |
5036 mem : R(read); | |
5037 dst : M(write); | |
5038 MS : R; | |
5039 %} | |
5040 | |
5041 // Float Load | |
5042 pipe_class floadD_mem(regD dst, memory mem) %{ | |
5043 instruction_count(1); multiple_bundles; // Again, unaligned argument is only multiple case | |
5044 mem : R(read); | |
5045 dst : M(write); | |
5046 MS : R; | |
5047 %} | |
5048 | |
5049 // Float Load | |
5050 pipe_class floadF_stk(regF dst, stackSlotI stkSlot) %{ | |
5051 single_instruction; | |
5052 stkSlot : R(read); | |
5053 dst : M(write); | |
5054 MS : R; | |
5055 %} | |
5056 | |
5057 // Float Load | |
5058 pipe_class floadD_stk(regD dst, stackSlotI stkSlot) %{ | |
5059 single_instruction; | |
5060 stkSlot : R(read); | |
5061 dst : M(write); | |
5062 MS : R; | |
5063 %} | |
5064 | |
5065 // Memory Nop | |
5066 pipe_class mem_nop() %{ | |
5067 single_instruction; | |
5068 MS : R; | |
5069 %} | |
5070 | |
5071 pipe_class sethi(iRegP dst, immI src) %{ | |
5072 single_instruction; | |
5073 dst : E(write); | |
5074 IALU : R; | |
5075 %} | |
5076 | |
5077 pipe_class loadPollP(iRegP poll) %{ | |
5078 single_instruction; | |
5079 poll : R(read); | |
5080 MS : R; | |
5081 %} | |
5082 | |
5083 pipe_class br(Universe br, label labl) %{ | |
5084 single_instruction_with_delay_slot; | |
5085 BR : R; | |
5086 %} | |
5087 | |
5088 pipe_class br_cc(Universe br, cmpOp cmp, flagsReg cr, label labl) %{ | |
5089 single_instruction_with_delay_slot; | |
5090 cr : E(read); | |
5091 BR : R; | |
5092 %} | |
5093 | |
5094 pipe_class br_reg(Universe br, cmpOp cmp, iRegI op1, label labl) %{ | |
5095 single_instruction_with_delay_slot; | |
5096 op1 : E(read); | |
5097 BR : R; | |
5098 MS : R; | |
5099 %} | |
5100 | |
5101 pipe_class br_fcc(Universe br, cmpOpF cc, flagsReg cr, label labl) %{ | |
5102 single_instruction_with_delay_slot; | |
5103 cr : E(read); | |
5104 BR : R; | |
5105 %} | |
5106 | |
5107 pipe_class br_nop() %{ | |
5108 single_instruction; | |
5109 BR : R; | |
5110 %} | |
5111 | |
5112 pipe_class simple_call(method meth) %{ | |
5113 instruction_count(2); multiple_bundles; force_serialization; | |
5114 fixed_latency(100); | |
5115 BR : R(1); | |
5116 MS : R(1); | |
5117 A0 : R(1); | |
5118 %} | |
5119 | |
5120 pipe_class compiled_call(method meth) %{ | |
5121 instruction_count(1); multiple_bundles; force_serialization; | |
5122 fixed_latency(100); | |
5123 MS : R(1); | |
5124 %} | |
5125 | |
5126 pipe_class call(method meth) %{ | |
5127 instruction_count(0); multiple_bundles; force_serialization; | |
5128 fixed_latency(100); | |
5129 %} | |
5130 | |
5131 pipe_class tail_call(Universe ignore, label labl) %{ | |
5132 single_instruction; has_delay_slot; | |
5133 fixed_latency(100); | |
5134 BR : R(1); | |
5135 MS : R(1); | |
5136 %} | |
5137 | |
5138 pipe_class ret(Universe ignore) %{ | |
5139 single_instruction; has_delay_slot; | |
5140 BR : R(1); | |
5141 MS : R(1); | |
5142 %} | |
5143 | |
5144 pipe_class ret_poll(g3RegP poll) %{ | |
5145 instruction_count(3); has_delay_slot; | |
5146 poll : E(read); | |
5147 MS : R; | |
5148 %} | |
5149 | |
5150 // The real do-nothing guy | |
5151 pipe_class empty( ) %{ | |
5152 instruction_count(0); | |
5153 %} | |
5154 | |
5155 pipe_class long_memory_op() %{ | |
5156 instruction_count(0); multiple_bundles; force_serialization; | |
5157 fixed_latency(25); | |
5158 MS : R(1); | |
5159 %} | |
5160 | |
5161 // Check-cast | |
5162 pipe_class partial_subtype_check_pipe(Universe ignore, iRegP array, iRegP match ) %{ | |
5163 array : R(read); | |
5164 match : R(read); | |
5165 IALU : R(2); | |
5166 BR : R(2); | |
5167 MS : R; | |
5168 %} | |
5169 | |
5170 // Convert FPU flags into +1,0,-1 | |
5171 pipe_class floating_cmp( iRegI dst, regF src1, regF src2 ) %{ | |
5172 src1 : E(read); | |
5173 src2 : E(read); | |
5174 dst : E(write); | |
5175 FA : R; | |
5176 MS : R(2); | |
5177 BR : R(2); | |
5178 %} | |
5179 | |
5180 // Compare for p < q, and conditionally add y | |
5181 pipe_class cadd_cmpltmask( iRegI p, iRegI q, iRegI y ) %{ | |
5182 p : E(read); | |
5183 q : E(read); | |
5184 y : E(read); | |
5185 IALU : R(3) | |
5186 %} | |
5187 | |
5188 // Perform a compare, then move conditionally in a branch delay slot. | |
5189 pipe_class min_max( iRegI src2, iRegI srcdst ) %{ | |
5190 src2 : E(read); | |
5191 srcdst : E(read); | |
5192 IALU : R; | |
5193 BR : R; | |
5194 %} | |
5195 | |
5196 // Define the class for the Nop node | |
5197 define %{ | |
5198 MachNop = ialu_nop; | |
5199 %} | |
5200 | |
5201 %} | |
5202 | |
5203 //----------INSTRUCTIONS------------------------------------------------------- | |
5204 | |
5205 //------------Special Stack Slot instructions - no match rules----------------- | |
5206 instruct stkI_to_regF(regF dst, stackSlotI src) %{ | |
5207 // No match rule to avoid chain rule match. | |
5208 effect(DEF dst, USE src); | |
5209 ins_cost(MEMORY_REF_COST); | |
5210 size(4); | |
5211 format %{ "LDF $src,$dst\t! stkI to regF" %} | |
5212 opcode(Assembler::ldf_op3); | |
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5213 ins_encode(simple_form3_mem_reg(src, dst)); |
0 | 5214 ins_pipe(floadF_stk); |
5215 %} | |
5216 | |
5217 instruct stkL_to_regD(regD dst, stackSlotL src) %{ | |
5218 // No match rule to avoid chain rule match. | |
5219 effect(DEF dst, USE src); | |
5220 ins_cost(MEMORY_REF_COST); | |
5221 size(4); | |
5222 format %{ "LDDF $src,$dst\t! stkL to regD" %} | |
5223 opcode(Assembler::lddf_op3); | |
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5224 ins_encode(simple_form3_mem_reg(src, dst)); |
0 | 5225 ins_pipe(floadD_stk); |
5226 %} | |
5227 | |
5228 instruct regF_to_stkI(stackSlotI dst, regF src) %{ | |
5229 // No match rule to avoid chain rule match. | |
5230 effect(DEF dst, USE src); | |
5231 ins_cost(MEMORY_REF_COST); | |
5232 size(4); | |
5233 format %{ "STF $src,$dst\t! regF to stkI" %} | |
5234 opcode(Assembler::stf_op3); | |
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5235 ins_encode(simple_form3_mem_reg(dst, src)); |
0 | 5236 ins_pipe(fstoreF_stk_reg); |
5237 %} | |
5238 | |
5239 instruct regD_to_stkL(stackSlotL dst, regD src) %{ | |
5240 // No match rule to avoid chain rule match. | |
5241 effect(DEF dst, USE src); | |
5242 ins_cost(MEMORY_REF_COST); | |
5243 size(4); | |
5244 format %{ "STDF $src,$dst\t! regD to stkL" %} | |
5245 opcode(Assembler::stdf_op3); | |
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5246 ins_encode(simple_form3_mem_reg(dst, src)); |
0 | 5247 ins_pipe(fstoreD_stk_reg); |
5248 %} | |
5249 | |
5250 instruct regI_to_stkLHi(stackSlotL dst, iRegI src) %{ | |
5251 effect(DEF dst, USE src); | |
5252 ins_cost(MEMORY_REF_COST*2); | |
5253 size(8); | |
5254 format %{ "STW $src,$dst.hi\t! long\n\t" | |
5255 "STW R_G0,$dst.lo" %} | |
5256 opcode(Assembler::stw_op3); | |
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5257 ins_encode(simple_form3_mem_reg(dst, src), form3_mem_plus_4_reg(dst, R_G0)); |
0 | 5258 ins_pipe(lstoreI_stk_reg); |
5259 %} | |
5260 | |
5261 instruct regL_to_stkD(stackSlotD dst, iRegL src) %{ | |
5262 // No match rule to avoid chain rule match. | |
5263 effect(DEF dst, USE src); | |
5264 ins_cost(MEMORY_REF_COST); | |
5265 size(4); | |
5266 format %{ "STX $src,$dst\t! regL to stkD" %} | |
5267 opcode(Assembler::stx_op3); | |
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5268 ins_encode(simple_form3_mem_reg( dst, src ) ); |
0 | 5269 ins_pipe(istore_stk_reg); |
5270 %} | |
5271 | |
5272 //---------- Chain stack slots between similar types -------- | |
5273 | |
5274 // Load integer from stack slot | |
5275 instruct stkI_to_regI( iRegI dst, stackSlotI src ) %{ | |
5276 match(Set dst src); | |
5277 ins_cost(MEMORY_REF_COST); | |
5278 | |
5279 size(4); | |
5280 format %{ "LDUW $src,$dst\t!stk" %} | |
5281 opcode(Assembler::lduw_op3); | |
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5282 ins_encode(simple_form3_mem_reg( src, dst ) ); |
0 | 5283 ins_pipe(iload_mem); |
5284 %} | |
5285 | |
5286 // Store integer to stack slot | |
5287 instruct regI_to_stkI( stackSlotI dst, iRegI src ) %{ | |
5288 match(Set dst src); | |
5289 ins_cost(MEMORY_REF_COST); | |
5290 | |
5291 size(4); | |
5292 format %{ "STW $src,$dst\t!stk" %} | |
5293 opcode(Assembler::stw_op3); | |
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5294 ins_encode(simple_form3_mem_reg( dst, src ) ); |
0 | 5295 ins_pipe(istore_mem_reg); |
5296 %} | |
5297 | |
5298 // Load long from stack slot | |
5299 instruct stkL_to_regL( iRegL dst, stackSlotL src ) %{ | |
5300 match(Set dst src); | |
5301 | |
5302 ins_cost(MEMORY_REF_COST); | |
5303 size(4); | |
5304 format %{ "LDX $src,$dst\t! long" %} | |
5305 opcode(Assembler::ldx_op3); | |
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5306 ins_encode(simple_form3_mem_reg( src, dst ) ); |
0 | 5307 ins_pipe(iload_mem); |
5308 %} | |
5309 | |
5310 // Store long to stack slot | |
5311 instruct regL_to_stkL(stackSlotL dst, iRegL src) %{ | |
5312 match(Set dst src); | |
5313 | |
5314 ins_cost(MEMORY_REF_COST); | |
5315 size(4); | |
5316 format %{ "STX $src,$dst\t! long" %} | |
5317 opcode(Assembler::stx_op3); | |
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5318 ins_encode(simple_form3_mem_reg( dst, src ) ); |
0 | 5319 ins_pipe(istore_mem_reg); |
5320 %} | |
5321 | |
5322 #ifdef _LP64 | |
5323 // Load pointer from stack slot, 64-bit encoding | |
5324 instruct stkP_to_regP( iRegP dst, stackSlotP src ) %{ | |
5325 match(Set dst src); | |
5326 ins_cost(MEMORY_REF_COST); | |
5327 size(4); | |
5328 format %{ "LDX $src,$dst\t!ptr" %} | |
5329 opcode(Assembler::ldx_op3); | |
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5330 ins_encode(simple_form3_mem_reg( src, dst ) ); |
0 | 5331 ins_pipe(iload_mem); |
5332 %} | |
5333 | |
5334 // Store pointer to stack slot | |
5335 instruct regP_to_stkP(stackSlotP dst, iRegP src) %{ | |
5336 match(Set dst src); | |
5337 ins_cost(MEMORY_REF_COST); | |
5338 size(4); | |
5339 format %{ "STX $src,$dst\t!ptr" %} | |
5340 opcode(Assembler::stx_op3); | |
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5341 ins_encode(simple_form3_mem_reg( dst, src ) ); |
0 | 5342 ins_pipe(istore_mem_reg); |
5343 %} | |
5344 #else // _LP64 | |
5345 // Load pointer from stack slot, 32-bit encoding | |
5346 instruct stkP_to_regP( iRegP dst, stackSlotP src ) %{ | |
5347 match(Set dst src); | |
5348 ins_cost(MEMORY_REF_COST); | |
5349 format %{ "LDUW $src,$dst\t!ptr" %} | |
5350 opcode(Assembler::lduw_op3, Assembler::ldst_op); | |
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5351 ins_encode(simple_form3_mem_reg( src, dst ) ); |
0 | 5352 ins_pipe(iload_mem); |
5353 %} | |
5354 | |
5355 // Store pointer to stack slot | |
5356 instruct regP_to_stkP(stackSlotP dst, iRegP src) %{ | |
5357 match(Set dst src); | |
5358 ins_cost(MEMORY_REF_COST); | |
5359 format %{ "STW $src,$dst\t!ptr" %} | |
5360 opcode(Assembler::stw_op3, Assembler::ldst_op); | |
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5361 ins_encode(simple_form3_mem_reg( dst, src ) ); |
0 | 5362 ins_pipe(istore_mem_reg); |
5363 %} | |
5364 #endif // _LP64 | |
5365 | |
5366 //------------Special Nop instructions for bundling - no match rules----------- | |
5367 // Nop using the A0 functional unit | |
5368 instruct Nop_A0() %{ | |
5369 ins_cost(0); | |
5370 | |
5371 format %{ "NOP ! Alu Pipeline" %} | |
5372 opcode(Assembler::or_op3, Assembler::arith_op); | |
5373 ins_encode( form2_nop() ); | |
5374 ins_pipe(ialu_nop_A0); | |
5375 %} | |
5376 | |
5377 // Nop using the A1 functional unit | |
5378 instruct Nop_A1( ) %{ | |
5379 ins_cost(0); | |
5380 | |
5381 format %{ "NOP ! Alu Pipeline" %} | |
5382 opcode(Assembler::or_op3, Assembler::arith_op); | |
5383 ins_encode( form2_nop() ); | |
5384 ins_pipe(ialu_nop_A1); | |
5385 %} | |
5386 | |
5387 // Nop using the memory functional unit | |
5388 instruct Nop_MS( ) %{ | |
5389 ins_cost(0); | |
5390 | |
5391 format %{ "NOP ! Memory Pipeline" %} | |
5392 ins_encode( emit_mem_nop ); | |
5393 ins_pipe(mem_nop); | |
5394 %} | |
5395 | |
5396 // Nop using the floating add functional unit | |
5397 instruct Nop_FA( ) %{ | |
5398 ins_cost(0); | |
5399 | |
5400 format %{ "NOP ! Floating Add Pipeline" %} | |
5401 ins_encode( emit_fadd_nop ); | |
5402 ins_pipe(fadd_nop); | |
5403 %} | |
5404 | |
5405 // Nop using the branch functional unit | |
5406 instruct Nop_BR( ) %{ | |
5407 ins_cost(0); | |
5408 | |
5409 format %{ "NOP ! Branch Pipeline" %} | |
5410 ins_encode( emit_br_nop ); | |
5411 ins_pipe(br_nop); | |
5412 %} | |
5413 | |
5414 //----------Load/Store/Move Instructions--------------------------------------- | |
5415 //----------Load Instructions-------------------------------------------------- | |
5416 // Load Byte (8bit signed) | |
5417 instruct loadB(iRegI dst, memory mem) %{ | |
5418 match(Set dst (LoadB mem)); | |
5419 ins_cost(MEMORY_REF_COST); | |
5420 | |
5421 size(4); | |
624 | 5422 format %{ "LDSB $mem,$dst\t! byte" %} |
727 | 5423 ins_encode %{ |
5424 __ ldsb($mem$$Address, $dst$$Register); | |
5425 %} | |
624 | 5426 ins_pipe(iload_mask_mem); |
5427 %} | |
5428 | |
5429 // Load Byte (8bit signed) into a Long Register | |
5430 instruct loadB2L(iRegL dst, memory mem) %{ | |
5431 match(Set dst (ConvI2L (LoadB mem))); | |
5432 ins_cost(MEMORY_REF_COST); | |
5433 | |
5434 size(4); | |
5435 format %{ "LDSB $mem,$dst\t! byte -> long" %} | |
727 | 5436 ins_encode %{ |
5437 __ ldsb($mem$$Address, $dst$$Register); | |
5438 %} | |
0 | 5439 ins_pipe(iload_mask_mem); |
5440 %} | |
5441 | |
624 | 5442 // Load Unsigned Byte (8bit UNsigned) into an int reg |
5443 instruct loadUB(iRegI dst, memory mem) %{ | |
5444 match(Set dst (LoadUB mem)); | |
0 | 5445 ins_cost(MEMORY_REF_COST); |
5446 | |
5447 size(4); | |
624 | 5448 format %{ "LDUB $mem,$dst\t! ubyte" %} |
727 | 5449 ins_encode %{ |
5450 __ ldub($mem$$Address, $dst$$Register); | |
5451 %} | |
824 | 5452 ins_pipe(iload_mem); |
624 | 5453 %} |
5454 | |
5455 // Load Unsigned Byte (8bit UNsigned) into a Long Register | |
5456 instruct loadUB2L(iRegL dst, memory mem) %{ | |
5457 match(Set dst (ConvI2L (LoadUB mem))); | |
5458 ins_cost(MEMORY_REF_COST); | |
5459 | |
5460 size(4); | |
5461 format %{ "LDUB $mem,$dst\t! ubyte -> long" %} | |
727 | 5462 ins_encode %{ |
5463 __ ldub($mem$$Address, $dst$$Register); | |
5464 %} | |
824 | 5465 ins_pipe(iload_mem); |
5466 %} | |
5467 | |
5468 // Load Unsigned Byte (8 bit UNsigned) with 8-bit mask into Long Register | |
5469 instruct loadUB2L_immI8(iRegL dst, memory mem, immI8 mask) %{ | |
5470 match(Set dst (ConvI2L (AndI (LoadUB mem) mask))); | |
5471 ins_cost(MEMORY_REF_COST + DEFAULT_COST); | |
5472 | |
5473 size(2*4); | |
5474 format %{ "LDUB $mem,$dst\t# ubyte & 8-bit mask -> long\n\t" | |
5475 "AND $dst,$mask,$dst" %} | |
5476 ins_encode %{ | |
5477 __ ldub($mem$$Address, $dst$$Register); | |
5478 __ and3($dst$$Register, $mask$$constant, $dst$$Register); | |
5479 %} | |
5480 ins_pipe(iload_mem); | |
0 | 5481 %} |
5482 | |
624 | 5483 // Load Short (16bit signed) |
5484 instruct loadS(iRegI dst, memory mem) %{ | |
5485 match(Set dst (LoadS mem)); | |
5486 ins_cost(MEMORY_REF_COST); | |
5487 | |
5488 size(4); | |
5489 format %{ "LDSH $mem,$dst\t! short" %} | |
727 | 5490 ins_encode %{ |
5491 __ ldsh($mem$$Address, $dst$$Register); | |
5492 %} | |
624 | 5493 ins_pipe(iload_mask_mem); |
5494 %} | |
5495 | |
785 | 5496 // Load Short (16 bit signed) to Byte (8 bit signed) |
5497 instruct loadS2B(iRegI dst, indOffset13m7 mem, immI_24 twentyfour) %{ | |
5498 match(Set dst (RShiftI (LShiftI (LoadS mem) twentyfour) twentyfour)); | |
5499 ins_cost(MEMORY_REF_COST); | |
5500 | |
5501 size(4); | |
5502 | |
5503 format %{ "LDSB $mem+1,$dst\t! short -> byte" %} | |
5504 ins_encode %{ | |
5505 __ ldsb($mem$$Address, $dst$$Register, 1); | |
5506 %} | |
5507 ins_pipe(iload_mask_mem); | |
5508 %} | |
5509 | |
624 | 5510 // Load Short (16bit signed) into a Long Register |
5511 instruct loadS2L(iRegL dst, memory mem) %{ | |
5512 match(Set dst (ConvI2L (LoadS mem))); | |
0 | 5513 ins_cost(MEMORY_REF_COST); |
5514 | |
5515 size(4); | |
624 | 5516 format %{ "LDSH $mem,$dst\t! short -> long" %} |
727 | 5517 ins_encode %{ |
5518 __ ldsh($mem$$Address, $dst$$Register); | |
5519 %} | |
624 | 5520 ins_pipe(iload_mask_mem); |
5521 %} | |
5522 | |
5523 // Load Unsigned Short/Char (16bit UNsigned) | |
5524 instruct loadUS(iRegI dst, memory mem) %{ | |
5525 match(Set dst (LoadUS mem)); | |
5526 ins_cost(MEMORY_REF_COST); | |
5527 | |
5528 size(4); | |
5529 format %{ "LDUH $mem,$dst\t! ushort/char" %} | |
727 | 5530 ins_encode %{ |
5531 __ lduh($mem$$Address, $dst$$Register); | |
5532 %} | |
824 | 5533 ins_pipe(iload_mem); |
0 | 5534 %} |
5535 | |
785 | 5536 // Load Unsigned Short/Char (16 bit UNsigned) to Byte (8 bit signed) |
5537 instruct loadUS2B(iRegI dst, indOffset13m7 mem, immI_24 twentyfour) %{ | |
5538 match(Set dst (RShiftI (LShiftI (LoadUS mem) twentyfour) twentyfour)); | |
5539 ins_cost(MEMORY_REF_COST); | |
5540 | |
5541 size(4); | |
5542 format %{ "LDSB $mem+1,$dst\t! ushort -> byte" %} | |
5543 ins_encode %{ | |
5544 __ ldsb($mem$$Address, $dst$$Register, 1); | |
5545 %} | |
5546 ins_pipe(iload_mask_mem); | |
5547 %} | |
5548 | |
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diff
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|
5549 // Load Unsigned Short/Char (16bit UNsigned) into a Long Register |
624 | 5550 instruct loadUS2L(iRegL dst, memory mem) %{ |
5551 match(Set dst (ConvI2L (LoadUS mem))); | |
0 | 5552 ins_cost(MEMORY_REF_COST); |
5553 | |
5554 size(4); | |
624 | 5555 format %{ "LDUH $mem,$dst\t! ushort/char -> long" %} |
727 | 5556 ins_encode %{ |
5557 __ lduh($mem$$Address, $dst$$Register); | |
5558 %} | |
824 | 5559 ins_pipe(iload_mem); |
5560 %} | |
5561 | |
5562 // Load Unsigned Short/Char (16bit UNsigned) with mask 0xFF into a Long Register | |
5563 instruct loadUS2L_immI_255(iRegL dst, indOffset13m7 mem, immI_255 mask) %{ | |
5564 match(Set dst (ConvI2L (AndI (LoadUS mem) mask))); | |
5565 ins_cost(MEMORY_REF_COST); | |
5566 | |
5567 size(4); | |
5568 format %{ "LDUB $mem+1,$dst\t! ushort/char & 0xFF -> long" %} | |
5569 ins_encode %{ | |
5570 __ ldub($mem$$Address, $dst$$Register, 1); // LSB is index+1 on BE | |
5571 %} | |
5572 ins_pipe(iload_mem); | |
5573 %} | |
5574 | |
5575 // Load Unsigned Short/Char (16bit UNsigned) with a 13-bit mask into a Long Register | |
5576 instruct loadUS2L_immI13(iRegL dst, memory mem, immI13 mask) %{ | |
5577 match(Set dst (ConvI2L (AndI (LoadUS mem) mask))); | |
5578 ins_cost(MEMORY_REF_COST + DEFAULT_COST); | |
5579 | |
5580 size(2*4); | |
5581 format %{ "LDUH $mem,$dst\t! ushort/char & 13-bit mask -> long\n\t" | |
5582 "AND $dst,$mask,$dst" %} | |
5583 ins_encode %{ | |
5584 Register Rdst = $dst$$Register; | |
5585 __ lduh($mem$$Address, Rdst); | |
5586 __ and3(Rdst, $mask$$constant, Rdst); | |
5587 %} | |
5588 ins_pipe(iload_mem); | |
5589 %} | |
5590 | |
5591 // Load Unsigned Short/Char (16bit UNsigned) with a 16-bit mask into a Long Register | |
5592 instruct loadUS2L_immI16(iRegL dst, memory mem, immI16 mask, iRegL tmp) %{ | |
5593 match(Set dst (ConvI2L (AndI (LoadUS mem) mask))); | |
5594 effect(TEMP dst, TEMP tmp); | |
5595 ins_cost(MEMORY_REF_COST + 2*DEFAULT_COST); | |
5596 | |
951
1fbd5d696bf4
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824
diff
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|
5597 size((3+1)*4); // set may use two instructions. |
824 | 5598 format %{ "LDUH $mem,$dst\t! ushort/char & 16-bit mask -> long\n\t" |
5599 "SET $mask,$tmp\n\t" | |
5600 "AND $dst,$tmp,$dst" %} | |
5601 ins_encode %{ | |
5602 Register Rdst = $dst$$Register; | |
5603 Register Rtmp = $tmp$$Register; | |
5604 __ lduh($mem$$Address, Rdst); | |
5605 __ set($mask$$constant, Rtmp); | |
5606 __ and3(Rdst, Rtmp, Rdst); | |
5607 %} | |
5608 ins_pipe(iload_mem); | |
0 | 5609 %} |
5610 | |
5611 // Load Integer | |
5612 instruct loadI(iRegI dst, memory mem) %{ | |
5613 match(Set dst (LoadI mem)); | |
5614 ins_cost(MEMORY_REF_COST); | |
624 | 5615 |
5616 size(4); | |
5617 format %{ "LDUW $mem,$dst\t! int" %} | |
727 | 5618 ins_encode %{ |
5619 __ lduw($mem$$Address, $dst$$Register); | |
5620 %} | |
624 | 5621 ins_pipe(iload_mem); |
5622 %} | |
5623 | |
785 | 5624 // Load Integer to Byte (8 bit signed) |
5625 instruct loadI2B(iRegI dst, indOffset13m7 mem, immI_24 twentyfour) %{ | |
5626 match(Set dst (RShiftI (LShiftI (LoadI mem) twentyfour) twentyfour)); | |
5627 ins_cost(MEMORY_REF_COST); | |
5628 | |
5629 size(4); | |
5630 | |
5631 format %{ "LDSB $mem+3,$dst\t! int -> byte" %} | |
5632 ins_encode %{ | |
5633 __ ldsb($mem$$Address, $dst$$Register, 3); | |
5634 %} | |
5635 ins_pipe(iload_mask_mem); | |
5636 %} | |
5637 | |
5638 // Load Integer to Unsigned Byte (8 bit UNsigned) | |
5639 instruct loadI2UB(iRegI dst, indOffset13m7 mem, immI_255 mask) %{ | |
5640 match(Set dst (AndI (LoadI mem) mask)); | |
5641 ins_cost(MEMORY_REF_COST); | |
5642 | |
5643 size(4); | |
5644 | |
5645 format %{ "LDUB $mem+3,$dst\t! int -> ubyte" %} | |
5646 ins_encode %{ | |
5647 __ ldub($mem$$Address, $dst$$Register, 3); | |
5648 %} | |
5649 ins_pipe(iload_mask_mem); | |
5650 %} | |
5651 | |
5652 // Load Integer to Short (16 bit signed) | |
5653 instruct loadI2S(iRegI dst, indOffset13m7 mem, immI_16 sixteen) %{ | |
5654 match(Set dst (RShiftI (LShiftI (LoadI mem) sixteen) sixteen)); | |
5655 ins_cost(MEMORY_REF_COST); | |
5656 | |
5657 size(4); | |
5658 | |
5659 format %{ "LDSH $mem+2,$dst\t! int -> short" %} | |
5660 ins_encode %{ | |
5661 __ ldsh($mem$$Address, $dst$$Register, 2); | |
5662 %} | |
5663 ins_pipe(iload_mask_mem); | |
5664 %} | |
5665 | |
5666 // Load Integer to Unsigned Short (16 bit UNsigned) | |
5667 instruct loadI2US(iRegI dst, indOffset13m7 mem, immI_65535 mask) %{ | |
5668 match(Set dst (AndI (LoadI mem) mask)); | |
5669 ins_cost(MEMORY_REF_COST); | |
5670 | |
5671 size(4); | |
5672 | |
5673 format %{ "LDUH $mem+2,$dst\t! int -> ushort/char" %} | |
5674 ins_encode %{ | |
5675 __ lduh($mem$$Address, $dst$$Register, 2); | |
5676 %} | |
5677 ins_pipe(iload_mask_mem); | |
5678 %} | |
5679 | |
624 | 5680 // Load Integer into a Long Register |
5681 instruct loadI2L(iRegL dst, memory mem) %{ | |
5682 match(Set dst (ConvI2L (LoadI mem))); | |
5683 ins_cost(MEMORY_REF_COST); | |
5684 | |
5685 size(4); | |
5686 format %{ "LDSW $mem,$dst\t! int -> long" %} | |
727 | 5687 ins_encode %{ |
5688 __ ldsw($mem$$Address, $dst$$Register); | |
5689 %} | |
824 | 5690 ins_pipe(iload_mask_mem); |
5691 %} | |
5692 | |
5693 // Load Integer with mask 0xFF into a Long Register | |
5694 instruct loadI2L_immI_255(iRegL dst, indOffset13m7 mem, immI_255 mask) %{ | |
5695 match(Set dst (ConvI2L (AndI (LoadI mem) mask))); | |
5696 ins_cost(MEMORY_REF_COST); | |
5697 | |
5698 size(4); | |
5699 format %{ "LDUB $mem+3,$dst\t! int & 0xFF -> long" %} | |
5700 ins_encode %{ | |
5701 __ ldub($mem$$Address, $dst$$Register, 3); // LSB is index+3 on BE | |
5702 %} | |
5703 ins_pipe(iload_mem); | |
5704 %} | |
5705 | |
5706 // Load Integer with mask 0xFFFF into a Long Register | |
5707 instruct loadI2L_immI_65535(iRegL dst, indOffset13m7 mem, immI_65535 mask) %{ | |
5708 match(Set dst (ConvI2L (AndI (LoadI mem) mask))); | |
5709 ins_cost(MEMORY_REF_COST); | |
5710 | |
5711 size(4); | |
5712 format %{ "LDUH $mem+2,$dst\t! int & 0xFFFF -> long" %} | |
5713 ins_encode %{ | |
5714 __ lduh($mem$$Address, $dst$$Register, 2); // LSW is index+2 on BE | |
5715 %} | |
5716 ins_pipe(iload_mem); | |
5717 %} | |
5718 | |
5719 // Load Integer with a 13-bit mask into a Long Register | |
5720 instruct loadI2L_immI13(iRegL dst, memory mem, immI13 mask) %{ | |
5721 match(Set dst (ConvI2L (AndI (LoadI mem) mask))); | |
5722 ins_cost(MEMORY_REF_COST + DEFAULT_COST); | |
5723 | |
5724 size(2*4); | |
5725 format %{ "LDUW $mem,$dst\t! int & 13-bit mask -> long\n\t" | |
5726 "AND $dst,$mask,$dst" %} | |
5727 ins_encode %{ | |
5728 Register Rdst = $dst$$Register; | |
5729 __ lduw($mem$$Address, Rdst); | |
5730 __ and3(Rdst, $mask$$constant, Rdst); | |
5731 %} | |
5732 ins_pipe(iload_mem); | |
5733 %} | |
5734 | |
5735 // Load Integer with a 32-bit mask into a Long Register | |
5736 instruct loadI2L_immI(iRegL dst, memory mem, immI mask, iRegL tmp) %{ | |
5737 match(Set dst (ConvI2L (AndI (LoadI mem) mask))); | |
5738 effect(TEMP dst, TEMP tmp); | |
5739 ins_cost(MEMORY_REF_COST + 2*DEFAULT_COST); | |
5740 | |
951
1fbd5d696bf4
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twisti
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824
diff
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|
5741 size((3+1)*4); // set may use two instructions. |
824 | 5742 format %{ "LDUW $mem,$dst\t! int & 32-bit mask -> long\n\t" |
5743 "SET $mask,$tmp\n\t" | |
5744 "AND $dst,$tmp,$dst" %} | |
5745 ins_encode %{ | |
5746 Register Rdst = $dst$$Register; | |
5747 Register Rtmp = $tmp$$Register; | |
5748 __ lduw($mem$$Address, Rdst); | |
5749 __ set($mask$$constant, Rtmp); | |
5750 __ and3(Rdst, Rtmp, Rdst); | |
5751 %} | |
624 | 5752 ins_pipe(iload_mem); |
5753 %} | |
5754 | |
5755 // Load Unsigned Integer into a Long Register | |
5756 instruct loadUI2L(iRegL dst, memory mem) %{ | |
5757 match(Set dst (LoadUI2L mem)); | |
5758 ins_cost(MEMORY_REF_COST); | |
5759 | |
5760 size(4); | |
5761 format %{ "LDUW $mem,$dst\t! uint -> long" %} | |
727 | 5762 ins_encode %{ |
5763 __ lduw($mem$$Address, $dst$$Register); | |
5764 %} | |
0 | 5765 ins_pipe(iload_mem); |
5766 %} | |
5767 | |
5768 // Load Long - aligned | |
5769 instruct loadL(iRegL dst, memory mem ) %{ | |
5770 match(Set dst (LoadL mem)); | |
5771 ins_cost(MEMORY_REF_COST); | |
624 | 5772 |
0 | 5773 size(4); |
5774 format %{ "LDX $mem,$dst\t! long" %} | |
727 | 5775 ins_encode %{ |
5776 __ ldx($mem$$Address, $dst$$Register); | |
5777 %} | |
0 | 5778 ins_pipe(iload_mem); |
5779 %} | |
5780 | |
5781 // Load Long - UNaligned | |
5782 instruct loadL_unaligned(iRegL dst, memory mem, o7RegI tmp) %{ | |
5783 match(Set dst (LoadL_unaligned mem)); | |
5784 effect(KILL tmp); | |
5785 ins_cost(MEMORY_REF_COST*2+DEFAULT_COST); | |
5786 size(16); | |
5787 format %{ "LDUW $mem+4,R_O7\t! misaligned long\n" | |
5788 "\tLDUW $mem ,$dst\n" | |
5789 "\tSLLX #32, $dst, $dst\n" | |
5790 "\tOR $dst, R_O7, $dst" %} | |
5791 opcode(Assembler::lduw_op3); | |
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235
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|
5792 ins_encode(form3_mem_reg_long_unaligned_marshal( mem, dst )); |
0 | 5793 ins_pipe(iload_mem); |
5794 %} | |
5795 | |
5796 // Load Aligned Packed Byte into a Double Register | |
5797 instruct loadA8B(regD dst, memory mem) %{ | |
5798 match(Set dst (Load8B mem)); | |
5799 ins_cost(MEMORY_REF_COST); | |
5800 size(4); | |
5801 format %{ "LDDF $mem,$dst\t! packed8B" %} | |
5802 opcode(Assembler::lddf_op3); | |
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235
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|
5803 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 5804 ins_pipe(floadD_mem); |
5805 %} | |
5806 | |
5807 // Load Aligned Packed Char into a Double Register | |
5808 instruct loadA4C(regD dst, memory mem) %{ | |
5809 match(Set dst (Load4C mem)); | |
5810 ins_cost(MEMORY_REF_COST); | |
5811 size(4); | |
5812 format %{ "LDDF $mem,$dst\t! packed4C" %} | |
5813 opcode(Assembler::lddf_op3); | |
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235
diff
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|
5814 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 5815 ins_pipe(floadD_mem); |
5816 %} | |
5817 | |
5818 // Load Aligned Packed Short into a Double Register | |
5819 instruct loadA4S(regD dst, memory mem) %{ | |
5820 match(Set dst (Load4S mem)); | |
5821 ins_cost(MEMORY_REF_COST); | |
5822 size(4); | |
5823 format %{ "LDDF $mem,$dst\t! packed4S" %} | |
5824 opcode(Assembler::lddf_op3); | |
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235
diff
changeset
|
5825 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 5826 ins_pipe(floadD_mem); |
5827 %} | |
5828 | |
5829 // Load Aligned Packed Int into a Double Register | |
5830 instruct loadA2I(regD dst, memory mem) %{ | |
5831 match(Set dst (Load2I mem)); | |
5832 ins_cost(MEMORY_REF_COST); | |
5833 size(4); | |
5834 format %{ "LDDF $mem,$dst\t! packed2I" %} | |
5835 opcode(Assembler::lddf_op3); | |
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235
diff
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|
5836 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 5837 ins_pipe(floadD_mem); |
5838 %} | |
5839 | |
5840 // Load Range | |
5841 instruct loadRange(iRegI dst, memory mem) %{ | |
5842 match(Set dst (LoadRange mem)); | |
5843 ins_cost(MEMORY_REF_COST); | |
5844 | |
5845 size(4); | |
5846 format %{ "LDUW $mem,$dst\t! range" %} | |
5847 opcode(Assembler::lduw_op3); | |
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235
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|
5848 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 5849 ins_pipe(iload_mem); |
5850 %} | |
5851 | |
5852 // Load Integer into %f register (for fitos/fitod) | |
5853 instruct loadI_freg(regF dst, memory mem) %{ | |
5854 match(Set dst (LoadI mem)); | |
5855 ins_cost(MEMORY_REF_COST); | |
5856 size(4); | |
5857 | |
5858 format %{ "LDF $mem,$dst\t! for fitos/fitod" %} | |
5859 opcode(Assembler::ldf_op3); | |
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|
5860 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 5861 ins_pipe(floadF_mem); |
5862 %} | |
5863 | |
5864 // Load Pointer | |
5865 instruct loadP(iRegP dst, memory mem) %{ | |
5866 match(Set dst (LoadP mem)); | |
5867 ins_cost(MEMORY_REF_COST); | |
5868 size(4); | |
5869 | |
5870 #ifndef _LP64 | |
5871 format %{ "LDUW $mem,$dst\t! ptr" %} | |
727 | 5872 ins_encode %{ |
5873 __ lduw($mem$$Address, $dst$$Register); | |
5874 %} | |
0 | 5875 #else |
5876 format %{ "LDX $mem,$dst\t! ptr" %} | |
727 | 5877 ins_encode %{ |
5878 __ ldx($mem$$Address, $dst$$Register); | |
5879 %} | |
0 | 5880 #endif |
5881 ins_pipe(iload_mem); | |
5882 %} | |
5883 | |
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81
diff
changeset
|
5884 // Load Compressed Pointer |
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diff
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|
5885 instruct loadN(iRegN dst, memory mem) %{ |
727 | 5886 match(Set dst (LoadN mem)); |
5887 ins_cost(MEMORY_REF_COST); | |
5888 size(4); | |
5889 | |
5890 format %{ "LDUW $mem,$dst\t! compressed ptr" %} | |
5891 ins_encode %{ | |
5892 __ lduw($mem$$Address, $dst$$Register); | |
5893 %} | |
5894 ins_pipe(iload_mem); | |
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|
5895 %} |
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5896 |
0 | 5897 // Load Klass Pointer |
5898 instruct loadKlass(iRegP dst, memory mem) %{ | |
5899 match(Set dst (LoadKlass mem)); | |
5900 ins_cost(MEMORY_REF_COST); | |
5901 size(4); | |
5902 | |
5903 #ifndef _LP64 | |
5904 format %{ "LDUW $mem,$dst\t! klass ptr" %} | |
727 | 5905 ins_encode %{ |
5906 __ lduw($mem$$Address, $dst$$Register); | |
5907 %} | |
0 | 5908 #else |
5909 format %{ "LDX $mem,$dst\t! klass ptr" %} | |
727 | 5910 ins_encode %{ |
5911 __ ldx($mem$$Address, $dst$$Register); | |
5912 %} | |
0 | 5913 #endif |
5914 ins_pipe(iload_mem); | |
5915 %} | |
5916 | |
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5917 // Load narrow Klass Pointer |
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5918 instruct loadNKlass(iRegN dst, memory mem) %{ |
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5919 match(Set dst (LoadNKlass mem)); |
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5920 ins_cost(MEMORY_REF_COST); |
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5921 size(4); |
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5922 |
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5923 format %{ "LDUW $mem,$dst\t! compressed klass ptr" %} |
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5924 ins_encode %{ |
727 | 5925 __ lduw($mem$$Address, $dst$$Register); |
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5926 %} |
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5927 ins_pipe(iload_mem); |
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5928 %} |
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5929 |
0 | 5930 // Load Double |
5931 instruct loadD(regD dst, memory mem) %{ | |
5932 match(Set dst (LoadD mem)); | |
5933 ins_cost(MEMORY_REF_COST); | |
5934 | |
5935 size(4); | |
5936 format %{ "LDDF $mem,$dst" %} | |
5937 opcode(Assembler::lddf_op3); | |
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5938 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 5939 ins_pipe(floadD_mem); |
5940 %} | |
5941 | |
5942 // Load Double - UNaligned | |
5943 instruct loadD_unaligned(regD_low dst, memory mem ) %{ | |
5944 match(Set dst (LoadD_unaligned mem)); | |
5945 ins_cost(MEMORY_REF_COST*2+DEFAULT_COST); | |
5946 size(8); | |
5947 format %{ "LDF $mem ,$dst.hi\t! misaligned double\n" | |
5948 "\tLDF $mem+4,$dst.lo\t!" %} | |
5949 opcode(Assembler::ldf_op3); | |
5950 ins_encode( form3_mem_reg_double_unaligned( mem, dst )); | |
5951 ins_pipe(iload_mem); | |
5952 %} | |
5953 | |
5954 // Load Float | |
5955 instruct loadF(regF dst, memory mem) %{ | |
5956 match(Set dst (LoadF mem)); | |
5957 ins_cost(MEMORY_REF_COST); | |
5958 | |
5959 size(4); | |
5960 format %{ "LDF $mem,$dst" %} | |
5961 opcode(Assembler::ldf_op3); | |
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5962 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 5963 ins_pipe(floadF_mem); |
5964 %} | |
5965 | |
5966 // Load Constant | |
5967 instruct loadConI( iRegI dst, immI src ) %{ | |
5968 match(Set dst src); | |
5969 ins_cost(DEFAULT_COST * 3/2); | |
5970 format %{ "SET $src,$dst" %} | |
5971 ins_encode( Set32(src, dst) ); | |
5972 ins_pipe(ialu_hi_lo_reg); | |
5973 %} | |
5974 | |
5975 instruct loadConI13( iRegI dst, immI13 src ) %{ | |
5976 match(Set dst src); | |
5977 | |
5978 size(4); | |
5979 format %{ "MOV $src,$dst" %} | |
5980 ins_encode( Set13( src, dst ) ); | |
5981 ins_pipe(ialu_imm); | |
5982 %} | |
5983 | |
5984 instruct loadConP(iRegP dst, immP src) %{ | |
5985 match(Set dst src); | |
5986 ins_cost(DEFAULT_COST * 3/2); | |
5987 format %{ "SET $src,$dst\t!ptr" %} | |
5988 // This rule does not use "expand" unlike loadConI because then | |
5989 // the result type is not known to be an Oop. An ADLC | |
5990 // enhancement will be needed to make that work - not worth it! | |
5991 | |
5992 ins_encode( SetPtr( src, dst ) ); | |
5993 ins_pipe(loadConP); | |
5994 | |
5995 %} | |
5996 | |
5997 instruct loadConP0(iRegP dst, immP0 src) %{ | |
5998 match(Set dst src); | |
5999 | |
6000 size(4); | |
6001 format %{ "CLR $dst\t!ptr" %} | |
6002 ins_encode( SetNull( dst ) ); | |
6003 ins_pipe(ialu_imm); | |
6004 %} | |
6005 | |
6006 instruct loadConP_poll(iRegP dst, immP_poll src) %{ | |
6007 match(Set dst src); | |
6008 ins_cost(DEFAULT_COST); | |
6009 format %{ "SET $src,$dst\t!ptr" %} | |
6010 ins_encode %{ | |
727 | 6011 AddressLiteral polling_page(os::get_polling_page()); |
6012 __ sethi(polling_page, reg_to_register_object($dst$$reg)); | |
0 | 6013 %} |
6014 ins_pipe(loadConP_poll); | |
6015 %} | |
6016 | |
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6017 instruct loadConN0(iRegN dst, immN0 src) %{ |
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6018 match(Set dst src); |
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6019 |
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6020 size(4); |
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6021 format %{ "CLR $dst\t! compressed NULL ptr" %} |
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6022 ins_encode( SetNull( dst ) ); |
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6023 ins_pipe(ialu_imm); |
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6024 %} |
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6025 |
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6026 instruct loadConN(iRegN dst, immN src) %{ |
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6027 match(Set dst src); |
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6028 ins_cost(DEFAULT_COST * 3/2); |
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6029 format %{ "SET $src,$dst\t! compressed ptr" %} |
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6030 ins_encode %{ |
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6031 Register dst = $dst$$Register; |
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6032 __ set_narrow_oop((jobject)$src$$constant, dst); |
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6033 %} |
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6034 ins_pipe(ialu_hi_lo_reg); |
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6035 %} |
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6036 |
0 | 6037 instruct loadConL(iRegL dst, immL src, o7RegL tmp) %{ |
6038 // %%% maybe this should work like loadConD | |
6039 match(Set dst src); | |
6040 effect(KILL tmp); | |
6041 ins_cost(DEFAULT_COST * 4); | |
6042 format %{ "SET64 $src,$dst KILL $tmp\t! long" %} | |
6043 ins_encode( LdImmL(src, dst, tmp) ); | |
6044 ins_pipe(loadConL); | |
6045 %} | |
6046 | |
6047 instruct loadConL0( iRegL dst, immL0 src ) %{ | |
6048 match(Set dst src); | |
6049 ins_cost(DEFAULT_COST); | |
6050 size(4); | |
6051 format %{ "CLR $dst\t! long" %} | |
6052 ins_encode( Set13( src, dst ) ); | |
6053 ins_pipe(ialu_imm); | |
6054 %} | |
6055 | |
6056 instruct loadConL13( iRegL dst, immL13 src ) %{ | |
6057 match(Set dst src); | |
6058 ins_cost(DEFAULT_COST * 2); | |
6059 | |
6060 size(4); | |
6061 format %{ "MOV $src,$dst\t! long" %} | |
6062 ins_encode( Set13( src, dst ) ); | |
6063 ins_pipe(ialu_imm); | |
6064 %} | |
6065 | |
6066 instruct loadConF(regF dst, immF src, o7RegP tmp) %{ | |
6067 match(Set dst src); | |
6068 effect(KILL tmp); | |
6069 | |
6070 #ifdef _LP64 | |
727 | 6071 size(8*4); |
0 | 6072 #else |
727 | 6073 size(2*4); |
0 | 6074 #endif |
6075 | |
6076 format %{ "SETHI hi(&$src),$tmp\t!get float $src from table\n\t" | |
6077 "LDF [$tmp+lo(&$src)],$dst" %} | |
727 | 6078 ins_encode %{ |
6079 address float_address = __ float_constant($src$$constant); | |
6080 RelocationHolder rspec = internal_word_Relocation::spec(float_address); | |
6081 AddressLiteral addrlit(float_address, rspec); | |
6082 | |
6083 __ sethi(addrlit, $tmp$$Register); | |
6084 __ ldf(FloatRegisterImpl::S, $tmp$$Register, addrlit.low10(), $dst$$FloatRegister, rspec); | |
6085 %} | |
0 | 6086 ins_pipe(loadConFD); |
6087 %} | |
6088 | |
6089 instruct loadConD(regD dst, immD src, o7RegP tmp) %{ | |
6090 match(Set dst src); | |
6091 effect(KILL tmp); | |
6092 | |
6093 #ifdef _LP64 | |
727 | 6094 size(8*4); |
0 | 6095 #else |
727 | 6096 size(2*4); |
0 | 6097 #endif |
6098 | |
6099 format %{ "SETHI hi(&$src),$tmp\t!get double $src from table\n\t" | |
6100 "LDDF [$tmp+lo(&$src)],$dst" %} | |
727 | 6101 ins_encode %{ |
6102 address double_address = __ double_constant($src$$constant); | |
6103 RelocationHolder rspec = internal_word_Relocation::spec(double_address); | |
6104 AddressLiteral addrlit(double_address, rspec); | |
6105 | |
6106 __ sethi(addrlit, $tmp$$Register); | |
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6107 // XXX This is a quick fix for 6833573. |
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6108 //__ ldf(FloatRegisterImpl::D, $tmp$$Register, addrlit.low10(), $dst$$FloatRegister, rspec); |
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6109 __ ldf(FloatRegisterImpl::D, $tmp$$Register, addrlit.low10(), as_DoubleFloatRegister($dst$$reg), rspec); |
727 | 6110 %} |
0 | 6111 ins_pipe(loadConFD); |
6112 %} | |
6113 | |
6114 // Prefetch instructions. | |
6115 // Must be safe to execute with invalid address (cannot fault). | |
6116 | |
6117 instruct prefetchr( memory mem ) %{ | |
6118 match( PrefetchRead mem ); | |
6119 ins_cost(MEMORY_REF_COST); | |
6120 | |
6121 format %{ "PREFETCH $mem,0\t! Prefetch read-many" %} | |
6122 opcode(Assembler::prefetch_op3); | |
6123 ins_encode( form3_mem_prefetch_read( mem ) ); | |
6124 ins_pipe(iload_mem); | |
6125 %} | |
6126 | |
6127 instruct prefetchw( memory mem ) %{ | |
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6128 predicate(AllocatePrefetchStyle != 3 ); |
0 | 6129 match( PrefetchWrite mem ); |
6130 ins_cost(MEMORY_REF_COST); | |
6131 | |
6132 format %{ "PREFETCH $mem,2\t! Prefetch write-many (and read)" %} | |
6133 opcode(Assembler::prefetch_op3); | |
6134 ins_encode( form3_mem_prefetch_write( mem ) ); | |
6135 ins_pipe(iload_mem); | |
6136 %} | |
6137 | |
1367
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6138 // Use BIS instruction to prefetch. |
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6139 instruct prefetchw_bis( memory mem ) %{ |
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6140 predicate(AllocatePrefetchStyle == 3); |
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6141 match( PrefetchWrite mem ); |
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6142 ins_cost(MEMORY_REF_COST); |
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6143 |
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6144 format %{ "STXA G0,$mem\t! // Block initializing store" %} |
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6145 ins_encode %{ |
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6146 Register base = as_Register($mem$$base); |
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6147 int disp = $mem$$disp; |
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6148 if (disp != 0) { |
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6149 __ add(base, AllocatePrefetchStepSize, base); |
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6150 } |
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6151 __ stxa(G0, base, G0, ASI_BLK_INIT_QUAD_LDD_P); |
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6152 %} |
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6153 ins_pipe(istore_mem_reg); |
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6154 %} |
0 | 6155 |
6156 //----------Store Instructions------------------------------------------------- | |
6157 // Store Byte | |
6158 instruct storeB(memory mem, iRegI src) %{ | |
6159 match(Set mem (StoreB mem src)); | |
6160 ins_cost(MEMORY_REF_COST); | |
6161 | |
6162 size(4); | |
6163 format %{ "STB $src,$mem\t! byte" %} | |
6164 opcode(Assembler::stb_op3); | |
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6165 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6166 ins_pipe(istore_mem_reg); |
6167 %} | |
6168 | |
6169 instruct storeB0(memory mem, immI0 src) %{ | |
6170 match(Set mem (StoreB mem src)); | |
6171 ins_cost(MEMORY_REF_COST); | |
6172 | |
6173 size(4); | |
6174 format %{ "STB $src,$mem\t! byte" %} | |
6175 opcode(Assembler::stb_op3); | |
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6176 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6177 ins_pipe(istore_mem_zero); |
6178 %} | |
6179 | |
6180 instruct storeCM0(memory mem, immI0 src) %{ | |
6181 match(Set mem (StoreCM mem src)); | |
6182 ins_cost(MEMORY_REF_COST); | |
6183 | |
6184 size(4); | |
6185 format %{ "STB $src,$mem\t! CMS card-mark byte 0" %} | |
6186 opcode(Assembler::stb_op3); | |
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6187 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6188 ins_pipe(istore_mem_zero); |
6189 %} | |
6190 | |
6191 // Store Char/Short | |
6192 instruct storeC(memory mem, iRegI src) %{ | |
6193 match(Set mem (StoreC mem src)); | |
6194 ins_cost(MEMORY_REF_COST); | |
6195 | |
6196 size(4); | |
6197 format %{ "STH $src,$mem\t! short" %} | |
6198 opcode(Assembler::sth_op3); | |
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6199 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6200 ins_pipe(istore_mem_reg); |
6201 %} | |
6202 | |
6203 instruct storeC0(memory mem, immI0 src) %{ | |
6204 match(Set mem (StoreC mem src)); | |
6205 ins_cost(MEMORY_REF_COST); | |
6206 | |
6207 size(4); | |
6208 format %{ "STH $src,$mem\t! short" %} | |
6209 opcode(Assembler::sth_op3); | |
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6210 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6211 ins_pipe(istore_mem_zero); |
6212 %} | |
6213 | |
6214 // Store Integer | |
6215 instruct storeI(memory mem, iRegI src) %{ | |
6216 match(Set mem (StoreI mem src)); | |
6217 ins_cost(MEMORY_REF_COST); | |
6218 | |
6219 size(4); | |
6220 format %{ "STW $src,$mem" %} | |
6221 opcode(Assembler::stw_op3); | |
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6222 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6223 ins_pipe(istore_mem_reg); |
6224 %} | |
6225 | |
6226 // Store Long | |
6227 instruct storeL(memory mem, iRegL src) %{ | |
6228 match(Set mem (StoreL mem src)); | |
6229 ins_cost(MEMORY_REF_COST); | |
6230 size(4); | |
6231 format %{ "STX $src,$mem\t! long" %} | |
6232 opcode(Assembler::stx_op3); | |
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6233 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6234 ins_pipe(istore_mem_reg); |
6235 %} | |
6236 | |
6237 instruct storeI0(memory mem, immI0 src) %{ | |
6238 match(Set mem (StoreI mem src)); | |
6239 ins_cost(MEMORY_REF_COST); | |
6240 | |
6241 size(4); | |
6242 format %{ "STW $src,$mem" %} | |
6243 opcode(Assembler::stw_op3); | |
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6244 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6245 ins_pipe(istore_mem_zero); |
6246 %} | |
6247 | |
6248 instruct storeL0(memory mem, immL0 src) %{ | |
6249 match(Set mem (StoreL mem src)); | |
6250 ins_cost(MEMORY_REF_COST); | |
6251 | |
6252 size(4); | |
6253 format %{ "STX $src,$mem" %} | |
6254 opcode(Assembler::stx_op3); | |
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6255 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6256 ins_pipe(istore_mem_zero); |
6257 %} | |
6258 | |
6259 // Store Integer from float register (used after fstoi) | |
6260 instruct storeI_Freg(memory mem, regF src) %{ | |
6261 match(Set mem (StoreI mem src)); | |
6262 ins_cost(MEMORY_REF_COST); | |
6263 | |
6264 size(4); | |
6265 format %{ "STF $src,$mem\t! after fstoi/fdtoi" %} | |
6266 opcode(Assembler::stf_op3); | |
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6267 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6268 ins_pipe(fstoreF_mem_reg); |
6269 %} | |
6270 | |
6271 // Store Pointer | |
6272 instruct storeP(memory dst, sp_ptr_RegP src) %{ | |
6273 match(Set dst (StoreP dst src)); | |
6274 ins_cost(MEMORY_REF_COST); | |
6275 size(4); | |
6276 | |
6277 #ifndef _LP64 | |
6278 format %{ "STW $src,$dst\t! ptr" %} | |
6279 opcode(Assembler::stw_op3, 0, REGP_OP); | |
6280 #else | |
6281 format %{ "STX $src,$dst\t! ptr" %} | |
6282 opcode(Assembler::stx_op3, 0, REGP_OP); | |
6283 #endif | |
6284 ins_encode( form3_mem_reg( dst, src ) ); | |
6285 ins_pipe(istore_mem_spORreg); | |
6286 %} | |
6287 | |
6288 instruct storeP0(memory dst, immP0 src) %{ | |
6289 match(Set dst (StoreP dst src)); | |
6290 ins_cost(MEMORY_REF_COST); | |
6291 size(4); | |
6292 | |
6293 #ifndef _LP64 | |
6294 format %{ "STW $src,$dst\t! ptr" %} | |
6295 opcode(Assembler::stw_op3, 0, REGP_OP); | |
6296 #else | |
6297 format %{ "STX $src,$dst\t! ptr" %} | |
6298 opcode(Assembler::stx_op3, 0, REGP_OP); | |
6299 #endif | |
6300 ins_encode( form3_mem_reg( dst, R_G0 ) ); | |
6301 ins_pipe(istore_mem_zero); | |
6302 %} | |
6303 | |
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6304 // Store Compressed Pointer |
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6305 instruct storeN(memory dst, iRegN src) %{ |
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6306 match(Set dst (StoreN dst src)); |
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6307 ins_cost(MEMORY_REF_COST); |
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6308 size(4); |
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6309 |
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6310 format %{ "STW $src,$dst\t! compressed ptr" %} |
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6311 ins_encode %{ |
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6312 Register base = as_Register($dst$$base); |
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6313 Register index = as_Register($dst$$index); |
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6314 Register src = $src$$Register; |
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6315 if (index != G0) { |
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6316 __ stw(src, base, index); |
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6317 } else { |
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6318 __ stw(src, base, $dst$$disp); |
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6319 } |
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6320 %} |
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6321 ins_pipe(istore_mem_spORreg); |
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6322 %} |
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6323 |
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6324 instruct storeN0(memory dst, immN0 src) %{ |
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6325 match(Set dst (StoreN dst src)); |
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6326 ins_cost(MEMORY_REF_COST); |
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6327 size(4); |
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6328 |
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6329 format %{ "STW $src,$dst\t! compressed ptr" %} |
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6330 ins_encode %{ |
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6331 Register base = as_Register($dst$$base); |
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6332 Register index = as_Register($dst$$index); |
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6333 if (index != G0) { |
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6334 __ stw(0, base, index); |
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6335 } else { |
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6336 __ stw(0, base, $dst$$disp); |
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6337 } |
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6338 %} |
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6339 ins_pipe(istore_mem_zero); |
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6340 %} |
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6341 |
0 | 6342 // Store Double |
6343 instruct storeD( memory mem, regD src) %{ | |
6344 match(Set mem (StoreD mem src)); | |
6345 ins_cost(MEMORY_REF_COST); | |
6346 | |
6347 size(4); | |
6348 format %{ "STDF $src,$mem" %} | |
6349 opcode(Assembler::stdf_op3); | |
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6350 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6351 ins_pipe(fstoreD_mem_reg); |
6352 %} | |
6353 | |
6354 instruct storeD0( memory mem, immD0 src) %{ | |
6355 match(Set mem (StoreD mem src)); | |
6356 ins_cost(MEMORY_REF_COST); | |
6357 | |
6358 size(4); | |
6359 format %{ "STX $src,$mem" %} | |
6360 opcode(Assembler::stx_op3); | |
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6361 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6362 ins_pipe(fstoreD_mem_zero); |
6363 %} | |
6364 | |
6365 // Store Float | |
6366 instruct storeF( memory mem, regF src) %{ | |
6367 match(Set mem (StoreF mem src)); | |
6368 ins_cost(MEMORY_REF_COST); | |
6369 | |
6370 size(4); | |
6371 format %{ "STF $src,$mem" %} | |
6372 opcode(Assembler::stf_op3); | |
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6373 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6374 ins_pipe(fstoreF_mem_reg); |
6375 %} | |
6376 | |
6377 instruct storeF0( memory mem, immF0 src) %{ | |
6378 match(Set mem (StoreF mem src)); | |
6379 ins_cost(MEMORY_REF_COST); | |
6380 | |
6381 size(4); | |
6382 format %{ "STW $src,$mem\t! storeF0" %} | |
6383 opcode(Assembler::stw_op3); | |
415
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6384 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6385 ins_pipe(fstoreF_mem_zero); |
6386 %} | |
6387 | |
6388 // Store Aligned Packed Bytes in Double register to memory | |
6389 instruct storeA8B(memory mem, regD src) %{ | |
6390 match(Set mem (Store8B mem src)); | |
6391 ins_cost(MEMORY_REF_COST); | |
6392 size(4); | |
6393 format %{ "STDF $src,$mem\t! packed8B" %} | |
6394 opcode(Assembler::stdf_op3); | |
415
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6395 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6396 ins_pipe(fstoreD_mem_reg); |
6397 %} | |
6398 | |
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6399 // Convert oop pointer into compressed form |
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6400 instruct encodeHeapOop(iRegN dst, iRegP src) %{ |
221
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6401 predicate(n->bottom_type()->make_ptr()->ptr() != TypePtr::NotNull); |
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6402 match(Set dst (EncodeP src)); |
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6403 format %{ "encode_heap_oop $src, $dst" %} |
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6404 ins_encode %{ |
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6405 __ encode_heap_oop($src$$Register, $dst$$Register); |
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6406 %} |
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6407 ins_pipe(ialu_reg); |
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6408 %} |
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6409 |
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6410 instruct encodeHeapOop_not_null(iRegN dst, iRegP src) %{ |
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6411 predicate(n->bottom_type()->make_ptr()->ptr() == TypePtr::NotNull); |
124
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6412 match(Set dst (EncodeP src)); |
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6413 format %{ "encode_heap_oop_not_null $src, $dst" %} |
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6414 ins_encode %{ |
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6415 __ encode_heap_oop_not_null($src$$Register, $dst$$Register); |
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6416 %} |
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6417 ins_pipe(ialu_reg); |
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6418 %} |
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|
6419 |
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6420 instruct decodeHeapOop(iRegP dst, iRegN src) %{ |
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6421 predicate(n->bottom_type()->is_oopptr()->ptr() != TypePtr::NotNull && |
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6422 n->bottom_type()->is_oopptr()->ptr() != TypePtr::Constant); |
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6423 match(Set dst (DecodeN src)); |
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6424 format %{ "decode_heap_oop $src, $dst" %} |
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6425 ins_encode %{ |
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6426 __ decode_heap_oop($src$$Register, $dst$$Register); |
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6427 %} |
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6428 ins_pipe(ialu_reg); |
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6429 %} |
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|
6430 |
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6431 instruct decodeHeapOop_not_null(iRegP dst, iRegN src) %{ |
182
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6432 predicate(n->bottom_type()->is_oopptr()->ptr() == TypePtr::NotNull || |
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|
6433 n->bottom_type()->is_oopptr()->ptr() == TypePtr::Constant); |
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6434 match(Set dst (DecodeN src)); |
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|
6435 format %{ "decode_heap_oop_not_null $src, $dst" %} |
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|
6436 ins_encode %{ |
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6437 __ decode_heap_oop_not_null($src$$Register, $dst$$Register); |
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6438 %} |
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|
6439 ins_pipe(ialu_reg); |
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|
6440 %} |
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|
6441 |
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6442 |
0 | 6443 // Store Zero into Aligned Packed Bytes |
6444 instruct storeA8B0(memory mem, immI0 zero) %{ | |
6445 match(Set mem (Store8B mem zero)); | |
6446 ins_cost(MEMORY_REF_COST); | |
6447 size(4); | |
6448 format %{ "STX $zero,$mem\t! packed8B" %} | |
6449 opcode(Assembler::stx_op3); | |
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6450 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6451 ins_pipe(fstoreD_mem_zero); |
6452 %} | |
6453 | |
6454 // Store Aligned Packed Chars/Shorts in Double register to memory | |
6455 instruct storeA4C(memory mem, regD src) %{ | |
6456 match(Set mem (Store4C mem src)); | |
6457 ins_cost(MEMORY_REF_COST); | |
6458 size(4); | |
6459 format %{ "STDF $src,$mem\t! packed4C" %} | |
6460 opcode(Assembler::stdf_op3); | |
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6461 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6462 ins_pipe(fstoreD_mem_reg); |
6463 %} | |
6464 | |
6465 // Store Zero into Aligned Packed Chars/Shorts | |
6466 instruct storeA4C0(memory mem, immI0 zero) %{ | |
6467 match(Set mem (Store4C mem (Replicate4C zero))); | |
6468 ins_cost(MEMORY_REF_COST); | |
6469 size(4); | |
6470 format %{ "STX $zero,$mem\t! packed4C" %} | |
6471 opcode(Assembler::stx_op3); | |
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6472 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6473 ins_pipe(fstoreD_mem_zero); |
6474 %} | |
6475 | |
6476 // Store Aligned Packed Ints in Double register to memory | |
6477 instruct storeA2I(memory mem, regD src) %{ | |
6478 match(Set mem (Store2I mem src)); | |
6479 ins_cost(MEMORY_REF_COST); | |
6480 size(4); | |
6481 format %{ "STDF $src,$mem\t! packed2I" %} | |
6482 opcode(Assembler::stdf_op3); | |
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6483 ins_encode(simple_form3_mem_reg( mem, src ) ); |
0 | 6484 ins_pipe(fstoreD_mem_reg); |
6485 %} | |
6486 | |
6487 // Store Zero into Aligned Packed Ints | |
6488 instruct storeA2I0(memory mem, immI0 zero) %{ | |
6489 match(Set mem (Store2I mem zero)); | |
6490 ins_cost(MEMORY_REF_COST); | |
6491 size(4); | |
6492 format %{ "STX $zero,$mem\t! packed2I" %} | |
6493 opcode(Assembler::stx_op3); | |
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6494 ins_encode(simple_form3_mem_reg( mem, R_G0 ) ); |
0 | 6495 ins_pipe(fstoreD_mem_zero); |
6496 %} | |
6497 | |
6498 | |
6499 //----------MemBar Instructions----------------------------------------------- | |
6500 // Memory barrier flavors | |
6501 | |
6502 instruct membar_acquire() %{ | |
6503 match(MemBarAcquire); | |
6504 ins_cost(4*MEMORY_REF_COST); | |
6505 | |
6506 size(0); | |
6507 format %{ "MEMBAR-acquire" %} | |
6508 ins_encode( enc_membar_acquire ); | |
6509 ins_pipe(long_memory_op); | |
6510 %} | |
6511 | |
6512 instruct membar_acquire_lock() %{ | |
6513 match(MemBarAcquire); | |
6514 predicate(Matcher::prior_fast_lock(n)); | |
6515 ins_cost(0); | |
6516 | |
6517 size(0); | |
6518 format %{ "!MEMBAR-acquire (CAS in prior FastLock so empty encoding)" %} | |
6519 ins_encode( ); | |
6520 ins_pipe(empty); | |
6521 %} | |
6522 | |
6523 instruct membar_release() %{ | |
6524 match(MemBarRelease); | |
6525 ins_cost(4*MEMORY_REF_COST); | |
6526 | |
6527 size(0); | |
6528 format %{ "MEMBAR-release" %} | |
6529 ins_encode( enc_membar_release ); | |
6530 ins_pipe(long_memory_op); | |
6531 %} | |
6532 | |
6533 instruct membar_release_lock() %{ | |
6534 match(MemBarRelease); | |
6535 predicate(Matcher::post_fast_unlock(n)); | |
6536 ins_cost(0); | |
6537 | |
6538 size(0); | |
6539 format %{ "!MEMBAR-release (CAS in succeeding FastUnlock so empty encoding)" %} | |
6540 ins_encode( ); | |
6541 ins_pipe(empty); | |
6542 %} | |
6543 | |
6544 instruct membar_volatile() %{ | |
6545 match(MemBarVolatile); | |
6546 ins_cost(4*MEMORY_REF_COST); | |
6547 | |
6548 size(4); | |
6549 format %{ "MEMBAR-volatile" %} | |
6550 ins_encode( enc_membar_volatile ); | |
6551 ins_pipe(long_memory_op); | |
6552 %} | |
6553 | |
6554 instruct unnecessary_membar_volatile() %{ | |
6555 match(MemBarVolatile); | |
6556 predicate(Matcher::post_store_load_barrier(n)); | |
6557 ins_cost(0); | |
6558 | |
6559 size(0); | |
6560 format %{ "!MEMBAR-volatile (unnecessary so empty encoding)" %} | |
6561 ins_encode( ); | |
6562 ins_pipe(empty); | |
6563 %} | |
6564 | |
6565 //----------Register Move Instructions----------------------------------------- | |
6566 instruct roundDouble_nop(regD dst) %{ | |
6567 match(Set dst (RoundDouble dst)); | |
6568 ins_cost(0); | |
6569 // SPARC results are already "rounded" (i.e., normal-format IEEE) | |
6570 ins_encode( ); | |
6571 ins_pipe(empty); | |
6572 %} | |
6573 | |
6574 | |
6575 instruct roundFloat_nop(regF dst) %{ | |
6576 match(Set dst (RoundFloat dst)); | |
6577 ins_cost(0); | |
6578 // SPARC results are already "rounded" (i.e., normal-format IEEE) | |
6579 ins_encode( ); | |
6580 ins_pipe(empty); | |
6581 %} | |
6582 | |
6583 | |
6584 // Cast Index to Pointer for unsafe natives | |
6585 instruct castX2P(iRegX src, iRegP dst) %{ | |
6586 match(Set dst (CastX2P src)); | |
6587 | |
6588 format %{ "MOV $src,$dst\t! IntX->Ptr" %} | |
6589 ins_encode( form3_g0_rs2_rd_move( src, dst ) ); | |
6590 ins_pipe(ialu_reg); | |
6591 %} | |
6592 | |
6593 // Cast Pointer to Index for unsafe natives | |
6594 instruct castP2X(iRegP src, iRegX dst) %{ | |
6595 match(Set dst (CastP2X src)); | |
6596 | |
6597 format %{ "MOV $src,$dst\t! Ptr->IntX" %} | |
6598 ins_encode( form3_g0_rs2_rd_move( src, dst ) ); | |
6599 ins_pipe(ialu_reg); | |
6600 %} | |
6601 | |
6602 instruct stfSSD(stackSlotD stkSlot, regD src) %{ | |
6603 // %%%% TO DO: Tell the coalescer that this kind of node is a copy! | |
6604 match(Set stkSlot src); // chain rule | |
6605 ins_cost(MEMORY_REF_COST); | |
6606 format %{ "STDF $src,$stkSlot\t!stk" %} | |
6607 opcode(Assembler::stdf_op3); | |
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6608 ins_encode(simple_form3_mem_reg(stkSlot, src)); |
0 | 6609 ins_pipe(fstoreD_stk_reg); |
6610 %} | |
6611 | |
6612 instruct ldfSSD(regD dst, stackSlotD stkSlot) %{ | |
6613 // %%%% TO DO: Tell the coalescer that this kind of node is a copy! | |
6614 match(Set dst stkSlot); // chain rule | |
6615 ins_cost(MEMORY_REF_COST); | |
6616 format %{ "LDDF $stkSlot,$dst\t!stk" %} | |
6617 opcode(Assembler::lddf_op3); | |
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6618 ins_encode(simple_form3_mem_reg(stkSlot, dst)); |
0 | 6619 ins_pipe(floadD_stk); |
6620 %} | |
6621 | |
6622 instruct stfSSF(stackSlotF stkSlot, regF src) %{ | |
6623 // %%%% TO DO: Tell the coalescer that this kind of node is a copy! | |
6624 match(Set stkSlot src); // chain rule | |
6625 ins_cost(MEMORY_REF_COST); | |
6626 format %{ "STF $src,$stkSlot\t!stk" %} | |
6627 opcode(Assembler::stf_op3); | |
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6628 ins_encode(simple_form3_mem_reg(stkSlot, src)); |
0 | 6629 ins_pipe(fstoreF_stk_reg); |
6630 %} | |
6631 | |
6632 //----------Conditional Move--------------------------------------------------- | |
6633 // Conditional move | |
6634 instruct cmovIP_reg(cmpOpP cmp, flagsRegP pcc, iRegI dst, iRegI src) %{ | |
6635 match(Set dst (CMoveI (Binary cmp pcc) (Binary dst src))); | |
6636 ins_cost(150); | |
6637 format %{ "MOV$cmp $pcc,$src,$dst" %} | |
6638 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::ptr_cc)) ); | |
6639 ins_pipe(ialu_reg); | |
6640 %} | |
6641 | |
6642 instruct cmovIP_imm(cmpOpP cmp, flagsRegP pcc, iRegI dst, immI11 src) %{ | |
6643 match(Set dst (CMoveI (Binary cmp pcc) (Binary dst src))); | |
6644 ins_cost(140); | |
6645 format %{ "MOV$cmp $pcc,$src,$dst" %} | |
6646 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::ptr_cc)) ); | |
6647 ins_pipe(ialu_imm); | |
6648 %} | |
6649 | |
6650 instruct cmovII_reg(cmpOp cmp, flagsReg icc, iRegI dst, iRegI src) %{ | |
6651 match(Set dst (CMoveI (Binary cmp icc) (Binary dst src))); | |
6652 ins_cost(150); | |
6653 size(4); | |
6654 format %{ "MOV$cmp $icc,$src,$dst" %} | |
6655 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::icc)) ); | |
6656 ins_pipe(ialu_reg); | |
6657 %} | |
6658 | |
6659 instruct cmovII_imm(cmpOp cmp, flagsReg icc, iRegI dst, immI11 src) %{ | |
6660 match(Set dst (CMoveI (Binary cmp icc) (Binary dst src))); | |
6661 ins_cost(140); | |
6662 size(4); | |
6663 format %{ "MOV$cmp $icc,$src,$dst" %} | |
6664 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::icc)) ); | |
6665 ins_pipe(ialu_imm); | |
6666 %} | |
6667 | |
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6668 instruct cmovIIu_reg(cmpOpU cmp, flagsRegU icc, iRegI dst, iRegI src) %{ |
0 | 6669 match(Set dst (CMoveI (Binary cmp icc) (Binary dst src))); |
6670 ins_cost(150); | |
6671 size(4); | |
6672 format %{ "MOV$cmp $icc,$src,$dst" %} | |
6673 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::icc)) ); | |
6674 ins_pipe(ialu_reg); | |
6675 %} | |
6676 | |
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6677 instruct cmovIIu_imm(cmpOpU cmp, flagsRegU icc, iRegI dst, immI11 src) %{ |
0 | 6678 match(Set dst (CMoveI (Binary cmp icc) (Binary dst src))); |
6679 ins_cost(140); | |
6680 size(4); | |
6681 format %{ "MOV$cmp $icc,$src,$dst" %} | |
6682 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::icc)) ); | |
6683 ins_pipe(ialu_imm); | |
6684 %} | |
6685 | |
6686 instruct cmovIF_reg(cmpOpF cmp, flagsRegF fcc, iRegI dst, iRegI src) %{ | |
6687 match(Set dst (CMoveI (Binary cmp fcc) (Binary dst src))); | |
6688 ins_cost(150); | |
6689 size(4); | |
6690 format %{ "MOV$cmp $fcc,$src,$dst" %} | |
6691 ins_encode( enc_cmov_reg_f(cmp,dst,src, fcc) ); | |
6692 ins_pipe(ialu_reg); | |
6693 %} | |
6694 | |
6695 instruct cmovIF_imm(cmpOpF cmp, flagsRegF fcc, iRegI dst, immI11 src) %{ | |
6696 match(Set dst (CMoveI (Binary cmp fcc) (Binary dst src))); | |
6697 ins_cost(140); | |
6698 size(4); | |
6699 format %{ "MOV$cmp $fcc,$src,$dst" %} | |
6700 ins_encode( enc_cmov_imm_f(cmp,dst,src, fcc) ); | |
6701 ins_pipe(ialu_imm); | |
6702 %} | |
6703 | |
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6704 // Conditional move for RegN. Only cmov(reg,reg). |
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6705 instruct cmovNP_reg(cmpOpP cmp, flagsRegP pcc, iRegN dst, iRegN src) %{ |
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6706 match(Set dst (CMoveN (Binary cmp pcc) (Binary dst src))); |
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6707 ins_cost(150); |
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6708 format %{ "MOV$cmp $pcc,$src,$dst" %} |
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6709 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::ptr_cc)) ); |
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6710 ins_pipe(ialu_reg); |
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6711 %} |
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6712 |
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6713 // This instruction also works with CmpN so we don't need cmovNN_reg. |
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6714 instruct cmovNI_reg(cmpOp cmp, flagsReg icc, iRegN dst, iRegN src) %{ |
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6715 match(Set dst (CMoveN (Binary cmp icc) (Binary dst src))); |
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6716 ins_cost(150); |
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6717 size(4); |
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6718 format %{ "MOV$cmp $icc,$src,$dst" %} |
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6719 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::icc)) ); |
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6720 ins_pipe(ialu_reg); |
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6721 %} |
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6722 |
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6723 // This instruction also works with CmpN so we don't need cmovNN_reg. |
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6724 instruct cmovNIu_reg(cmpOpU cmp, flagsRegU icc, iRegN dst, iRegN src) %{ |
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6725 match(Set dst (CMoveN (Binary cmp icc) (Binary dst src))); |
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|
6726 ins_cost(150); |
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|
6727 size(4); |
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|
6728 format %{ "MOV$cmp $icc,$src,$dst" %} |
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6729 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::icc)) ); |
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|
6730 ins_pipe(ialu_reg); |
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|
6731 %} |
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|
6732 |
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6733 instruct cmovNF_reg(cmpOpF cmp, flagsRegF fcc, iRegN dst, iRegN src) %{ |
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6734 match(Set dst (CMoveN (Binary cmp fcc) (Binary dst src))); |
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6735 ins_cost(150); |
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6736 size(4); |
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6737 format %{ "MOV$cmp $fcc,$src,$dst" %} |
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6738 ins_encode( enc_cmov_reg_f(cmp,dst,src, fcc) ); |
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6739 ins_pipe(ialu_reg); |
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6740 %} |
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6741 |
0 | 6742 // Conditional move |
6743 instruct cmovPP_reg(cmpOpP cmp, flagsRegP pcc, iRegP dst, iRegP src) %{ | |
6744 match(Set dst (CMoveP (Binary cmp pcc) (Binary dst src))); | |
6745 ins_cost(150); | |
6746 format %{ "MOV$cmp $pcc,$src,$dst\t! ptr" %} | |
6747 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::ptr_cc)) ); | |
6748 ins_pipe(ialu_reg); | |
6749 %} | |
6750 | |
6751 instruct cmovPP_imm(cmpOpP cmp, flagsRegP pcc, iRegP dst, immP0 src) %{ | |
6752 match(Set dst (CMoveP (Binary cmp pcc) (Binary dst src))); | |
6753 ins_cost(140); | |
6754 format %{ "MOV$cmp $pcc,$src,$dst\t! ptr" %} | |
6755 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::ptr_cc)) ); | |
6756 ins_pipe(ialu_imm); | |
6757 %} | |
6758 | |
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6759 // This instruction also works with CmpN so we don't need cmovPN_reg. |
0 | 6760 instruct cmovPI_reg(cmpOp cmp, flagsReg icc, iRegP dst, iRegP src) %{ |
6761 match(Set dst (CMoveP (Binary cmp icc) (Binary dst src))); | |
6762 ins_cost(150); | |
6763 | |
6764 size(4); | |
6765 format %{ "MOV$cmp $icc,$src,$dst\t! ptr" %} | |
6766 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::icc)) ); | |
6767 ins_pipe(ialu_reg); | |
6768 %} | |
6769 | |
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6770 instruct cmovPIu_reg(cmpOpU cmp, flagsRegU icc, iRegP dst, iRegP src) %{ |
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|
6771 match(Set dst (CMoveP (Binary cmp icc) (Binary dst src))); |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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1137
diff
changeset
|
6772 ins_cost(150); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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1137
diff
changeset
|
6773 |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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1137
diff
changeset
|
6774 size(4); |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
1137
diff
changeset
|
6775 format %{ "MOV$cmp $icc,$src,$dst\t! ptr" %} |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6776 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::icc)) ); |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6777 ins_pipe(ialu_reg); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6778 %} |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
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diff
changeset
|
6779 |
0 | 6780 instruct cmovPI_imm(cmpOp cmp, flagsReg icc, iRegP dst, immP0 src) %{ |
6781 match(Set dst (CMoveP (Binary cmp icc) (Binary dst src))); | |
6782 ins_cost(140); | |
6783 | |
6784 size(4); | |
6785 format %{ "MOV$cmp $icc,$src,$dst\t! ptr" %} | |
6786 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::icc)) ); | |
6787 ins_pipe(ialu_imm); | |
6788 %} | |
6789 | |
1160
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6790 instruct cmovPIu_imm(cmpOpU cmp, flagsRegU icc, iRegP dst, immP0 src) %{ |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6791 match(Set dst (CMoveP (Binary cmp icc) (Binary dst src))); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6792 ins_cost(140); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6793 |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
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diff
changeset
|
6794 size(4); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6795 format %{ "MOV$cmp $icc,$src,$dst\t! ptr" %} |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6796 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::icc)) ); |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6797 ins_pipe(ialu_imm); |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6798 %} |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6799 |
0 | 6800 instruct cmovPF_reg(cmpOpF cmp, flagsRegF fcc, iRegP dst, iRegP src) %{ |
6801 match(Set dst (CMoveP (Binary cmp fcc) (Binary dst src))); | |
6802 ins_cost(150); | |
6803 size(4); | |
6804 format %{ "MOV$cmp $fcc,$src,$dst" %} | |
6805 ins_encode( enc_cmov_reg_f(cmp,dst,src, fcc) ); | |
6806 ins_pipe(ialu_imm); | |
6807 %} | |
6808 | |
6809 instruct cmovPF_imm(cmpOpF cmp, flagsRegF fcc, iRegP dst, immP0 src) %{ | |
6810 match(Set dst (CMoveP (Binary cmp fcc) (Binary dst src))); | |
6811 ins_cost(140); | |
6812 size(4); | |
6813 format %{ "MOV$cmp $fcc,$src,$dst" %} | |
6814 ins_encode( enc_cmov_imm_f(cmp,dst,src, fcc) ); | |
6815 ins_pipe(ialu_imm); | |
6816 %} | |
6817 | |
6818 // Conditional move | |
6819 instruct cmovFP_reg(cmpOpP cmp, flagsRegP pcc, regF dst, regF src) %{ | |
6820 match(Set dst (CMoveF (Binary cmp pcc) (Binary dst src))); | |
6821 ins_cost(150); | |
6822 opcode(0x101); | |
6823 format %{ "FMOVD$cmp $pcc,$src,$dst" %} | |
6824 ins_encode( enc_cmovf_reg(cmp,dst,src, (Assembler::ptr_cc)) ); | |
6825 ins_pipe(int_conditional_float_move); | |
6826 %} | |
6827 | |
6828 instruct cmovFI_reg(cmpOp cmp, flagsReg icc, regF dst, regF src) %{ | |
6829 match(Set dst (CMoveF (Binary cmp icc) (Binary dst src))); | |
6830 ins_cost(150); | |
6831 | |
6832 size(4); | |
6833 format %{ "FMOVS$cmp $icc,$src,$dst" %} | |
6834 opcode(0x101); | |
6835 ins_encode( enc_cmovf_reg(cmp,dst,src, (Assembler::icc)) ); | |
6836 ins_pipe(int_conditional_float_move); | |
6837 %} | |
6838 | |
1160
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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changeset
|
6839 instruct cmovFIu_reg(cmpOpU cmp, flagsRegU icc, regF dst, regF src) %{ |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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changeset
|
6840 match(Set dst (CMoveF (Binary cmp icc) (Binary dst src))); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6841 ins_cost(150); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6842 |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
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diff
changeset
|
6843 size(4); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6844 format %{ "FMOVS$cmp $icc,$src,$dst" %} |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6845 opcode(0x101); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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changeset
|
6846 ins_encode( enc_cmovf_reg(cmp,dst,src, (Assembler::icc)) ); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6847 ins_pipe(int_conditional_float_move); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6848 %} |
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6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6849 |
0 | 6850 // Conditional move, |
6851 instruct cmovFF_reg(cmpOpF cmp, flagsRegF fcc, regF dst, regF src) %{ | |
6852 match(Set dst (CMoveF (Binary cmp fcc) (Binary dst src))); | |
6853 ins_cost(150); | |
6854 size(4); | |
6855 format %{ "FMOVF$cmp $fcc,$src,$dst" %} | |
6856 opcode(0x1); | |
6857 ins_encode( enc_cmovff_reg(cmp,fcc,dst,src) ); | |
6858 ins_pipe(int_conditional_double_move); | |
6859 %} | |
6860 | |
6861 // Conditional move | |
6862 instruct cmovDP_reg(cmpOpP cmp, flagsRegP pcc, regD dst, regD src) %{ | |
6863 match(Set dst (CMoveD (Binary cmp pcc) (Binary dst src))); | |
6864 ins_cost(150); | |
6865 size(4); | |
6866 opcode(0x102); | |
6867 format %{ "FMOVD$cmp $pcc,$src,$dst" %} | |
6868 ins_encode( enc_cmovf_reg(cmp,dst,src, (Assembler::ptr_cc)) ); | |
6869 ins_pipe(int_conditional_double_move); | |
6870 %} | |
6871 | |
6872 instruct cmovDI_reg(cmpOp cmp, flagsReg icc, regD dst, regD src) %{ | |
6873 match(Set dst (CMoveD (Binary cmp icc) (Binary dst src))); | |
6874 ins_cost(150); | |
6875 | |
6876 size(4); | |
6877 format %{ "FMOVD$cmp $icc,$src,$dst" %} | |
6878 opcode(0x102); | |
6879 ins_encode( enc_cmovf_reg(cmp,dst,src, (Assembler::icc)) ); | |
6880 ins_pipe(int_conditional_double_move); | |
6881 %} | |
6882 | |
1160
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6883 instruct cmovDIu_reg(cmpOpU cmp, flagsRegU icc, regD dst, regD src) %{ |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
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diff
changeset
|
6884 match(Set dst (CMoveD (Binary cmp icc) (Binary dst src))); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6885 ins_cost(150); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6886 |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6887 size(4); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6888 format %{ "FMOVD$cmp $icc,$src,$dst" %} |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6889 opcode(0x102); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
1137
diff
changeset
|
6890 ins_encode( enc_cmovf_reg(cmp,dst,src, (Assembler::icc)) ); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
1137
diff
changeset
|
6891 ins_pipe(int_conditional_double_move); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
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diff
changeset
|
6892 %} |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
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1137
diff
changeset
|
6893 |
0 | 6894 // Conditional move, |
6895 instruct cmovDF_reg(cmpOpF cmp, flagsRegF fcc, regD dst, regD src) %{ | |
6896 match(Set dst (CMoveD (Binary cmp fcc) (Binary dst src))); | |
6897 ins_cost(150); | |
6898 size(4); | |
6899 format %{ "FMOVD$cmp $fcc,$src,$dst" %} | |
6900 opcode(0x2); | |
6901 ins_encode( enc_cmovff_reg(cmp,fcc,dst,src) ); | |
6902 ins_pipe(int_conditional_double_move); | |
6903 %} | |
6904 | |
6905 // Conditional move | |
6906 instruct cmovLP_reg(cmpOpP cmp, flagsRegP pcc, iRegL dst, iRegL src) %{ | |
6907 match(Set dst (CMoveL (Binary cmp pcc) (Binary dst src))); | |
6908 ins_cost(150); | |
6909 format %{ "MOV$cmp $pcc,$src,$dst\t! long" %} | |
6910 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::ptr_cc)) ); | |
6911 ins_pipe(ialu_reg); | |
6912 %} | |
6913 | |
6914 instruct cmovLP_imm(cmpOpP cmp, flagsRegP pcc, iRegL dst, immI11 src) %{ | |
6915 match(Set dst (CMoveL (Binary cmp pcc) (Binary dst src))); | |
6916 ins_cost(140); | |
6917 format %{ "MOV$cmp $pcc,$src,$dst\t! long" %} | |
6918 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::ptr_cc)) ); | |
6919 ins_pipe(ialu_imm); | |
6920 %} | |
6921 | |
6922 instruct cmovLI_reg(cmpOp cmp, flagsReg icc, iRegL dst, iRegL src) %{ | |
6923 match(Set dst (CMoveL (Binary cmp icc) (Binary dst src))); | |
6924 ins_cost(150); | |
6925 | |
6926 size(4); | |
6927 format %{ "MOV$cmp $icc,$src,$dst\t! long" %} | |
6928 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::icc)) ); | |
6929 ins_pipe(ialu_reg); | |
6930 %} | |
6931 | |
6932 | |
1160
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
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1137
diff
changeset
|
6933 instruct cmovLIu_reg(cmpOpU cmp, flagsRegU icc, iRegL dst, iRegL src) %{ |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
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diff
changeset
|
6934 match(Set dst (CMoveL (Binary cmp icc) (Binary dst src))); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6935 ins_cost(150); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6936 |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6937 size(4); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6938 format %{ "MOV$cmp $icc,$src,$dst\t! long" %} |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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parents:
1137
diff
changeset
|
6939 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::icc)) ); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6940 ins_pipe(ialu_reg); |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6941 %} |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
never
parents:
1137
diff
changeset
|
6942 |
f24201449cac
6909839: missing unsigned compare cases for some cmoves in sparc.ad
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diff
changeset
|
6943 |
0 | 6944 instruct cmovLF_reg(cmpOpF cmp, flagsRegF fcc, iRegL dst, iRegL src) %{ |
6945 match(Set dst (CMoveL (Binary cmp fcc) (Binary dst src))); | |
6946 ins_cost(150); | |
6947 | |
6948 size(4); | |
6949 format %{ "MOV$cmp $fcc,$src,$dst\t! long" %} | |
6950 ins_encode( enc_cmov_reg_f(cmp,dst,src, fcc) ); | |
6951 ins_pipe(ialu_reg); | |
6952 %} | |
6953 | |
6954 | |
6955 | |
6956 //----------OS and Locking Instructions---------------------------------------- | |
6957 | |
6958 // This name is KNOWN by the ADLC and cannot be changed. | |
6959 // The ADLC forces a 'TypeRawPtr::BOTTOM' output type | |
6960 // for this guy. | |
6961 instruct tlsLoadP(g2RegP dst) %{ | |
6962 match(Set dst (ThreadLocal)); | |
6963 | |
6964 size(0); | |
6965 ins_cost(0); | |
6966 format %{ "# TLS is in G2" %} | |
6967 ins_encode( /*empty encoding*/ ); | |
6968 ins_pipe(ialu_none); | |
6969 %} | |
6970 | |
6971 instruct checkCastPP( iRegP dst ) %{ | |
6972 match(Set dst (CheckCastPP dst)); | |
6973 | |
6974 size(0); | |
6975 format %{ "# checkcastPP of $dst" %} | |
6976 ins_encode( /*empty encoding*/ ); | |
6977 ins_pipe(empty); | |
6978 %} | |
6979 | |
6980 | |
6981 instruct castPP( iRegP dst ) %{ | |
6982 match(Set dst (CastPP dst)); | |
6983 format %{ "# castPP of $dst" %} | |
6984 ins_encode( /*empty encoding*/ ); | |
6985 ins_pipe(empty); | |
6986 %} | |
6987 | |
6988 instruct castII( iRegI dst ) %{ | |
6989 match(Set dst (CastII dst)); | |
6990 format %{ "# castII of $dst" %} | |
6991 ins_encode( /*empty encoding*/ ); | |
6992 ins_cost(0); | |
6993 ins_pipe(empty); | |
6994 %} | |
6995 | |
6996 //----------Arithmetic Instructions-------------------------------------------- | |
6997 // Addition Instructions | |
6998 // Register Addition | |
6999 instruct addI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7000 match(Set dst (AddI src1 src2)); | |
7001 | |
7002 size(4); | |
7003 format %{ "ADD $src1,$src2,$dst" %} | |
7004 ins_encode %{ | |
7005 __ add($src1$$Register, $src2$$Register, $dst$$Register); | |
7006 %} | |
7007 ins_pipe(ialu_reg_reg); | |
7008 %} | |
7009 | |
7010 // Immediate Addition | |
7011 instruct addI_reg_imm13(iRegI dst, iRegI src1, immI13 src2) %{ | |
7012 match(Set dst (AddI src1 src2)); | |
7013 | |
7014 size(4); | |
7015 format %{ "ADD $src1,$src2,$dst" %} | |
7016 opcode(Assembler::add_op3, Assembler::arith_op); | |
7017 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7018 ins_pipe(ialu_reg_imm); | |
7019 %} | |
7020 | |
7021 // Pointer Register Addition | |
7022 instruct addP_reg_reg(iRegP dst, iRegP src1, iRegX src2) %{ | |
7023 match(Set dst (AddP src1 src2)); | |
7024 | |
7025 size(4); | |
7026 format %{ "ADD $src1,$src2,$dst" %} | |
7027 opcode(Assembler::add_op3, Assembler::arith_op); | |
7028 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7029 ins_pipe(ialu_reg_reg); | |
7030 %} | |
7031 | |
7032 // Pointer Immediate Addition | |
7033 instruct addP_reg_imm13(iRegP dst, iRegP src1, immX13 src2) %{ | |
7034 match(Set dst (AddP src1 src2)); | |
7035 | |
7036 size(4); | |
7037 format %{ "ADD $src1,$src2,$dst" %} | |
7038 opcode(Assembler::add_op3, Assembler::arith_op); | |
7039 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7040 ins_pipe(ialu_reg_imm); | |
7041 %} | |
7042 | |
7043 // Long Addition | |
7044 instruct addL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
7045 match(Set dst (AddL src1 src2)); | |
7046 | |
7047 size(4); | |
7048 format %{ "ADD $src1,$src2,$dst\t! long" %} | |
7049 opcode(Assembler::add_op3, Assembler::arith_op); | |
7050 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7051 ins_pipe(ialu_reg_reg); | |
7052 %} | |
7053 | |
7054 instruct addL_reg_imm13(iRegL dst, iRegL src1, immL13 con) %{ | |
7055 match(Set dst (AddL src1 con)); | |
7056 | |
7057 size(4); | |
7058 format %{ "ADD $src1,$con,$dst" %} | |
7059 opcode(Assembler::add_op3, Assembler::arith_op); | |
7060 ins_encode( form3_rs1_simm13_rd( src1, con, dst ) ); | |
7061 ins_pipe(ialu_reg_imm); | |
7062 %} | |
7063 | |
7064 //----------Conditional_store-------------------------------------------------- | |
7065 // Conditional-store of the updated heap-top. | |
7066 // Used during allocation of the shared heap. | |
7067 // Sets flags (EQ) on success. Implemented with a CASA on Sparc. | |
7068 | |
7069 // LoadP-locked. Same as a regular pointer load when used with a compare-swap | |
7070 instruct loadPLocked(iRegP dst, memory mem) %{ | |
7071 match(Set dst (LoadPLocked mem)); | |
7072 ins_cost(MEMORY_REF_COST); | |
7073 | |
7074 #ifndef _LP64 | |
7075 size(4); | |
7076 format %{ "LDUW $mem,$dst\t! ptr" %} | |
7077 opcode(Assembler::lduw_op3, 0, REGP_OP); | |
7078 #else | |
7079 format %{ "LDX $mem,$dst\t! ptr" %} | |
7080 opcode(Assembler::ldx_op3, 0, REGP_OP); | |
7081 #endif | |
7082 ins_encode( form3_mem_reg( mem, dst ) ); | |
7083 ins_pipe(iload_mem); | |
7084 %} | |
7085 | |
7086 // LoadL-locked. Same as a regular long load when used with a compare-swap | |
7087 instruct loadLLocked(iRegL dst, memory mem) %{ | |
7088 match(Set dst (LoadLLocked mem)); | |
7089 ins_cost(MEMORY_REF_COST); | |
7090 size(4); | |
7091 format %{ "LDX $mem,$dst\t! long" %} | |
7092 opcode(Assembler::ldx_op3); | |
415
4d9884b01ba6
6754519: don't emit flag fixup for NaN when condition being tested doesn't need it
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235
diff
changeset
|
7093 ins_encode(simple_form3_mem_reg( mem, dst ) ); |
0 | 7094 ins_pipe(iload_mem); |
7095 %} | |
7096 | |
7097 instruct storePConditional( iRegP heap_top_ptr, iRegP oldval, g3RegP newval, flagsRegP pcc ) %{ | |
7098 match(Set pcc (StorePConditional heap_top_ptr (Binary oldval newval))); | |
7099 effect( KILL newval ); | |
7100 format %{ "CASA [$heap_top_ptr],$oldval,R_G3\t! If $oldval==[$heap_top_ptr] Then store R_G3 into [$heap_top_ptr], set R_G3=[$heap_top_ptr] in any case\n\t" | |
7101 "CMP R_G3,$oldval\t\t! See if we made progress" %} | |
7102 ins_encode( enc_cas(heap_top_ptr,oldval,newval) ); | |
7103 ins_pipe( long_memory_op ); | |
7104 %} | |
7105 | |
420
a1980da045cc
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parents:
415
diff
changeset
|
7106 // Conditional-store of an int value. |
a1980da045cc
6462850: generate biased locking code in C2 ideal graph
kvn
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diff
changeset
|
7107 instruct storeIConditional( iRegP mem_ptr, iRegI oldval, g3RegI newval, flagsReg icc ) %{ |
a1980da045cc
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7108 match(Set icc (StoreIConditional mem_ptr (Binary oldval newval))); |
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7109 effect( KILL newval ); |
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7110 format %{ "CASA [$mem_ptr],$oldval,$newval\t! If $oldval==[$mem_ptr] Then store $newval into [$mem_ptr], set $newval=[$mem_ptr] in any case\n\t" |
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7111 "CMP $oldval,$newval\t\t! See if we made progress" %} |
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7112 ins_encode( enc_cas(mem_ptr,oldval,newval) ); |
0 | 7113 ins_pipe( long_memory_op ); |
7114 %} | |
7115 | |
420
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|
7116 // Conditional-store of a long value. |
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7117 instruct storeLConditional( iRegP mem_ptr, iRegL oldval, g3RegL newval, flagsRegL xcc ) %{ |
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7118 match(Set xcc (StoreLConditional mem_ptr (Binary oldval newval))); |
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7119 effect( KILL newval ); |
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7120 format %{ "CASXA [$mem_ptr],$oldval,$newval\t! If $oldval==[$mem_ptr] Then store $newval into [$mem_ptr], set $newval=[$mem_ptr] in any case\n\t" |
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7121 "CMP $oldval,$newval\t\t! See if we made progress" %} |
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7122 ins_encode( enc_cas(mem_ptr,oldval,newval) ); |
0 | 7123 ins_pipe( long_memory_op ); |
7124 %} | |
7125 | |
7126 // No flag versions for CompareAndSwap{P,I,L} because matcher can't match them | |
7127 | |
7128 instruct compareAndSwapL_bool(iRegP mem_ptr, iRegL oldval, iRegL newval, iRegI res, o7RegI tmp1, flagsReg ccr ) %{ | |
7129 match(Set res (CompareAndSwapL mem_ptr (Binary oldval newval))); | |
7130 effect( USE mem_ptr, KILL ccr, KILL tmp1); | |
7131 format %{ | |
7132 "MOV $newval,O7\n\t" | |
7133 "CASXA [$mem_ptr],$oldval,O7\t! If $oldval==[$mem_ptr] Then store O7 into [$mem_ptr], set O7=[$mem_ptr] in any case\n\t" | |
7134 "CMP $oldval,O7\t\t! See if we made progress\n\t" | |
7135 "MOV 1,$res\n\t" | |
7136 "MOVne xcc,R_G0,$res" | |
7137 %} | |
7138 ins_encode( enc_casx(mem_ptr, oldval, newval), | |
7139 enc_lflags_ne_to_boolean(res) ); | |
7140 ins_pipe( long_memory_op ); | |
7141 %} | |
7142 | |
7143 | |
7144 instruct compareAndSwapI_bool(iRegP mem_ptr, iRegI oldval, iRegI newval, iRegI res, o7RegI tmp1, flagsReg ccr ) %{ | |
7145 match(Set res (CompareAndSwapI mem_ptr (Binary oldval newval))); | |
7146 effect( USE mem_ptr, KILL ccr, KILL tmp1); | |
7147 format %{ | |
7148 "MOV $newval,O7\n\t" | |
7149 "CASA [$mem_ptr],$oldval,O7\t! If $oldval==[$mem_ptr] Then store O7 into [$mem_ptr], set O7=[$mem_ptr] in any case\n\t" | |
7150 "CMP $oldval,O7\t\t! See if we made progress\n\t" | |
7151 "MOV 1,$res\n\t" | |
7152 "MOVne icc,R_G0,$res" | |
7153 %} | |
7154 ins_encode( enc_casi(mem_ptr, oldval, newval), | |
7155 enc_iflags_ne_to_boolean(res) ); | |
7156 ins_pipe( long_memory_op ); | |
7157 %} | |
7158 | |
7159 instruct compareAndSwapP_bool(iRegP mem_ptr, iRegP oldval, iRegP newval, iRegI res, o7RegI tmp1, flagsReg ccr ) %{ | |
7160 match(Set res (CompareAndSwapP mem_ptr (Binary oldval newval))); | |
7161 effect( USE mem_ptr, KILL ccr, KILL tmp1); | |
7162 format %{ | |
7163 "MOV $newval,O7\n\t" | |
113
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7164 "CASA_PTR [$mem_ptr],$oldval,O7\t! If $oldval==[$mem_ptr] Then store O7 into [$mem_ptr], set O7=[$mem_ptr] in any case\n\t" |
0 | 7165 "CMP $oldval,O7\t\t! See if we made progress\n\t" |
7166 "MOV 1,$res\n\t" | |
7167 "MOVne xcc,R_G0,$res" | |
7168 %} | |
113
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7169 #ifdef _LP64 |
0 | 7170 ins_encode( enc_casx(mem_ptr, oldval, newval), |
7171 enc_lflags_ne_to_boolean(res) ); | |
7172 #else | |
113
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7173 ins_encode( enc_casi(mem_ptr, oldval, newval), |
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7174 enc_iflags_ne_to_boolean(res) ); |
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7175 #endif |
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7176 ins_pipe( long_memory_op ); |
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7177 %} |
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7178 |
181
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7179 instruct compareAndSwapN_bool(iRegP mem_ptr, iRegN oldval, iRegN newval, iRegI res, o7RegI tmp1, flagsReg ccr ) %{ |
113
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7180 match(Set res (CompareAndSwapN mem_ptr (Binary oldval newval))); |
181
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7181 effect( USE mem_ptr, KILL ccr, KILL tmp1); |
0 | 7182 format %{ |
7183 "MOV $newval,O7\n\t" | |
7184 "CASA [$mem_ptr],$oldval,O7\t! If $oldval==[$mem_ptr] Then store O7 into [$mem_ptr], set O7=[$mem_ptr] in any case\n\t" | |
7185 "CMP $oldval,O7\t\t! See if we made progress\n\t" | |
7186 "MOV 1,$res\n\t" | |
7187 "MOVne icc,R_G0,$res" | |
7188 %} | |
181
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7189 ins_encode( enc_casi(mem_ptr, oldval, newval), |
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7190 enc_iflags_ne_to_boolean(res) ); |
0 | 7191 ins_pipe( long_memory_op ); |
7192 %} | |
7193 | |
7194 //--------------------- | |
7195 // Subtraction Instructions | |
7196 // Register Subtraction | |
7197 instruct subI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7198 match(Set dst (SubI src1 src2)); | |
7199 | |
7200 size(4); | |
7201 format %{ "SUB $src1,$src2,$dst" %} | |
7202 opcode(Assembler::sub_op3, Assembler::arith_op); | |
7203 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7204 ins_pipe(ialu_reg_reg); | |
7205 %} | |
7206 | |
7207 // Immediate Subtraction | |
7208 instruct subI_reg_imm13(iRegI dst, iRegI src1, immI13 src2) %{ | |
7209 match(Set dst (SubI src1 src2)); | |
7210 | |
7211 size(4); | |
7212 format %{ "SUB $src1,$src2,$dst" %} | |
7213 opcode(Assembler::sub_op3, Assembler::arith_op); | |
7214 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7215 ins_pipe(ialu_reg_imm); | |
7216 %} | |
7217 | |
7218 instruct subI_zero_reg(iRegI dst, immI0 zero, iRegI src2) %{ | |
7219 match(Set dst (SubI zero src2)); | |
7220 | |
7221 size(4); | |
7222 format %{ "NEG $src2,$dst" %} | |
7223 opcode(Assembler::sub_op3, Assembler::arith_op); | |
7224 ins_encode( form3_rs1_rs2_rd( R_G0, src2, dst ) ); | |
7225 ins_pipe(ialu_zero_reg); | |
7226 %} | |
7227 | |
7228 // Long subtraction | |
7229 instruct subL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
7230 match(Set dst (SubL src1 src2)); | |
7231 | |
7232 size(4); | |
7233 format %{ "SUB $src1,$src2,$dst\t! long" %} | |
7234 opcode(Assembler::sub_op3, Assembler::arith_op); | |
7235 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7236 ins_pipe(ialu_reg_reg); | |
7237 %} | |
7238 | |
7239 // Immediate Subtraction | |
7240 instruct subL_reg_imm13(iRegL dst, iRegL src1, immL13 con) %{ | |
7241 match(Set dst (SubL src1 con)); | |
7242 | |
7243 size(4); | |
7244 format %{ "SUB $src1,$con,$dst\t! long" %} | |
7245 opcode(Assembler::sub_op3, Assembler::arith_op); | |
7246 ins_encode( form3_rs1_simm13_rd( src1, con, dst ) ); | |
7247 ins_pipe(ialu_reg_imm); | |
7248 %} | |
7249 | |
7250 // Long negation | |
7251 instruct negL_reg_reg(iRegL dst, immL0 zero, iRegL src2) %{ | |
7252 match(Set dst (SubL zero src2)); | |
7253 | |
7254 size(4); | |
7255 format %{ "NEG $src2,$dst\t! long" %} | |
7256 opcode(Assembler::sub_op3, Assembler::arith_op); | |
7257 ins_encode( form3_rs1_rs2_rd( R_G0, src2, dst ) ); | |
7258 ins_pipe(ialu_zero_reg); | |
7259 %} | |
7260 | |
7261 // Multiplication Instructions | |
7262 // Integer Multiplication | |
7263 // Register Multiplication | |
7264 instruct mulI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7265 match(Set dst (MulI src1 src2)); | |
7266 | |
7267 size(4); | |
7268 format %{ "MULX $src1,$src2,$dst" %} | |
7269 opcode(Assembler::mulx_op3, Assembler::arith_op); | |
7270 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7271 ins_pipe(imul_reg_reg); | |
7272 %} | |
7273 | |
7274 // Immediate Multiplication | |
7275 instruct mulI_reg_imm13(iRegI dst, iRegI src1, immI13 src2) %{ | |
7276 match(Set dst (MulI src1 src2)); | |
7277 | |
7278 size(4); | |
7279 format %{ "MULX $src1,$src2,$dst" %} | |
7280 opcode(Assembler::mulx_op3, Assembler::arith_op); | |
7281 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7282 ins_pipe(imul_reg_imm); | |
7283 %} | |
7284 | |
7285 instruct mulL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
7286 match(Set dst (MulL src1 src2)); | |
7287 ins_cost(DEFAULT_COST * 5); | |
7288 size(4); | |
7289 format %{ "MULX $src1,$src2,$dst\t! long" %} | |
7290 opcode(Assembler::mulx_op3, Assembler::arith_op); | |
7291 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7292 ins_pipe(mulL_reg_reg); | |
7293 %} | |
7294 | |
7295 // Immediate Multiplication | |
7296 instruct mulL_reg_imm13(iRegL dst, iRegL src1, immL13 src2) %{ | |
7297 match(Set dst (MulL src1 src2)); | |
7298 ins_cost(DEFAULT_COST * 5); | |
7299 size(4); | |
7300 format %{ "MULX $src1,$src2,$dst" %} | |
7301 opcode(Assembler::mulx_op3, Assembler::arith_op); | |
7302 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7303 ins_pipe(mulL_reg_imm); | |
7304 %} | |
7305 | |
7306 // Integer Division | |
7307 // Register Division | |
7308 instruct divI_reg_reg(iRegI dst, iRegIsafe src1, iRegIsafe src2) %{ | |
7309 match(Set dst (DivI src1 src2)); | |
7310 ins_cost((2+71)*DEFAULT_COST); | |
7311 | |
7312 format %{ "SRA $src2,0,$src2\n\t" | |
7313 "SRA $src1,0,$src1\n\t" | |
7314 "SDIVX $src1,$src2,$dst" %} | |
7315 ins_encode( idiv_reg( src1, src2, dst ) ); | |
7316 ins_pipe(sdiv_reg_reg); | |
7317 %} | |
7318 | |
7319 // Immediate Division | |
7320 instruct divI_reg_imm13(iRegI dst, iRegIsafe src1, immI13 src2) %{ | |
7321 match(Set dst (DivI src1 src2)); | |
7322 ins_cost((2+71)*DEFAULT_COST); | |
7323 | |
7324 format %{ "SRA $src1,0,$src1\n\t" | |
7325 "SDIVX $src1,$src2,$dst" %} | |
7326 ins_encode( idiv_imm( src1, src2, dst ) ); | |
7327 ins_pipe(sdiv_reg_imm); | |
7328 %} | |
7329 | |
7330 //----------Div-By-10-Expansion------------------------------------------------ | |
7331 // Extract hi bits of a 32x32->64 bit multiply. | |
7332 // Expand rule only, not matched | |
7333 instruct mul_hi(iRegIsafe dst, iRegIsafe src1, iRegIsafe src2 ) %{ | |
7334 effect( DEF dst, USE src1, USE src2 ); | |
7335 format %{ "MULX $src1,$src2,$dst\t! Used in div-by-10\n\t" | |
7336 "SRLX $dst,#32,$dst\t\t! Extract only hi word of result" %} | |
7337 ins_encode( enc_mul_hi(dst,src1,src2)); | |
7338 ins_pipe(sdiv_reg_reg); | |
7339 %} | |
7340 | |
605 | 7341 // Magic constant, reciprocal of 10 |
0 | 7342 instruct loadConI_x66666667(iRegIsafe dst) %{ |
7343 effect( DEF dst ); | |
7344 | |
7345 size(8); | |
7346 format %{ "SET 0x66666667,$dst\t! Used in div-by-10" %} | |
7347 ins_encode( Set32(0x66666667, dst) ); | |
7348 ins_pipe(ialu_hi_lo_reg); | |
7349 %} | |
7350 | |
605 | 7351 // Register Shift Right Arithmetic Long by 32-63 |
0 | 7352 instruct sra_31( iRegI dst, iRegI src ) %{ |
7353 effect( DEF dst, USE src ); | |
7354 format %{ "SRA $src,31,$dst\t! Used in div-by-10" %} | |
7355 ins_encode( form3_rs1_rd_copysign_hi(src,dst) ); | |
7356 ins_pipe(ialu_reg_reg); | |
7357 %} | |
7358 | |
7359 // Arithmetic Shift Right by 8-bit immediate | |
7360 instruct sra_reg_2( iRegI dst, iRegI src ) %{ | |
7361 effect( DEF dst, USE src ); | |
7362 format %{ "SRA $src,2,$dst\t! Used in div-by-10" %} | |
7363 opcode(Assembler::sra_op3, Assembler::arith_op); | |
7364 ins_encode( form3_rs1_simm13_rd( src, 0x2, dst ) ); | |
7365 ins_pipe(ialu_reg_imm); | |
7366 %} | |
7367 | |
7368 // Integer DIV with 10 | |
7369 instruct divI_10( iRegI dst, iRegIsafe src, immI10 div ) %{ | |
7370 match(Set dst (DivI src div)); | |
7371 ins_cost((6+6)*DEFAULT_COST); | |
7372 expand %{ | |
7373 iRegIsafe tmp1; // Killed temps; | |
7374 iRegIsafe tmp2; // Killed temps; | |
7375 iRegI tmp3; // Killed temps; | |
7376 iRegI tmp4; // Killed temps; | |
7377 loadConI_x66666667( tmp1 ); // SET 0x66666667 -> tmp1 | |
7378 mul_hi( tmp2, src, tmp1 ); // MUL hibits(src * tmp1) -> tmp2 | |
7379 sra_31( tmp3, src ); // SRA src,31 -> tmp3 | |
7380 sra_reg_2( tmp4, tmp2 ); // SRA tmp2,2 -> tmp4 | |
7381 subI_reg_reg( dst,tmp4,tmp3); // SUB tmp4 - tmp3 -> dst | |
7382 %} | |
7383 %} | |
7384 | |
7385 // Register Long Division | |
7386 instruct divL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
7387 match(Set dst (DivL src1 src2)); | |
7388 ins_cost(DEFAULT_COST*71); | |
7389 size(4); | |
7390 format %{ "SDIVX $src1,$src2,$dst\t! long" %} | |
7391 opcode(Assembler::sdivx_op3, Assembler::arith_op); | |
7392 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7393 ins_pipe(divL_reg_reg); | |
7394 %} | |
7395 | |
7396 // Register Long Division | |
7397 instruct divL_reg_imm13(iRegL dst, iRegL src1, immL13 src2) %{ | |
7398 match(Set dst (DivL src1 src2)); | |
7399 ins_cost(DEFAULT_COST*71); | |
7400 size(4); | |
7401 format %{ "SDIVX $src1,$src2,$dst\t! long" %} | |
7402 opcode(Assembler::sdivx_op3, Assembler::arith_op); | |
7403 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7404 ins_pipe(divL_reg_imm); | |
7405 %} | |
7406 | |
7407 // Integer Remainder | |
7408 // Register Remainder | |
7409 instruct modI_reg_reg(iRegI dst, iRegIsafe src1, iRegIsafe src2, o7RegP temp, flagsReg ccr ) %{ | |
7410 match(Set dst (ModI src1 src2)); | |
7411 effect( KILL ccr, KILL temp); | |
7412 | |
7413 format %{ "SREM $src1,$src2,$dst" %} | |
7414 ins_encode( irem_reg(src1, src2, dst, temp) ); | |
7415 ins_pipe(sdiv_reg_reg); | |
7416 %} | |
7417 | |
7418 // Immediate Remainder | |
7419 instruct modI_reg_imm13(iRegI dst, iRegIsafe src1, immI13 src2, o7RegP temp, flagsReg ccr ) %{ | |
7420 match(Set dst (ModI src1 src2)); | |
7421 effect( KILL ccr, KILL temp); | |
7422 | |
7423 format %{ "SREM $src1,$src2,$dst" %} | |
7424 ins_encode( irem_imm(src1, src2, dst, temp) ); | |
7425 ins_pipe(sdiv_reg_imm); | |
7426 %} | |
7427 | |
7428 // Register Long Remainder | |
7429 instruct divL_reg_reg_1(iRegL dst, iRegL src1, iRegL src2) %{ | |
7430 effect(DEF dst, USE src1, USE src2); | |
7431 size(4); | |
7432 format %{ "SDIVX $src1,$src2,$dst\t! long" %} | |
7433 opcode(Assembler::sdivx_op3, Assembler::arith_op); | |
7434 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7435 ins_pipe(divL_reg_reg); | |
7436 %} | |
7437 | |
7438 // Register Long Division | |
7439 instruct divL_reg_imm13_1(iRegL dst, iRegL src1, immL13 src2) %{ | |
7440 effect(DEF dst, USE src1, USE src2); | |
7441 size(4); | |
7442 format %{ "SDIVX $src1,$src2,$dst\t! long" %} | |
7443 opcode(Assembler::sdivx_op3, Assembler::arith_op); | |
7444 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7445 ins_pipe(divL_reg_imm); | |
7446 %} | |
7447 | |
7448 instruct mulL_reg_reg_1(iRegL dst, iRegL src1, iRegL src2) %{ | |
7449 effect(DEF dst, USE src1, USE src2); | |
7450 size(4); | |
7451 format %{ "MULX $src1,$src2,$dst\t! long" %} | |
7452 opcode(Assembler::mulx_op3, Assembler::arith_op); | |
7453 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7454 ins_pipe(mulL_reg_reg); | |
7455 %} | |
7456 | |
7457 // Immediate Multiplication | |
7458 instruct mulL_reg_imm13_1(iRegL dst, iRegL src1, immL13 src2) %{ | |
7459 effect(DEF dst, USE src1, USE src2); | |
7460 size(4); | |
7461 format %{ "MULX $src1,$src2,$dst" %} | |
7462 opcode(Assembler::mulx_op3, Assembler::arith_op); | |
7463 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7464 ins_pipe(mulL_reg_imm); | |
7465 %} | |
7466 | |
7467 instruct subL_reg_reg_1(iRegL dst, iRegL src1, iRegL src2) %{ | |
7468 effect(DEF dst, USE src1, USE src2); | |
7469 size(4); | |
7470 format %{ "SUB $src1,$src2,$dst\t! long" %} | |
7471 opcode(Assembler::sub_op3, Assembler::arith_op); | |
7472 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7473 ins_pipe(ialu_reg_reg); | |
7474 %} | |
7475 | |
7476 instruct subL_reg_reg_2(iRegL dst, iRegL src1, iRegL src2) %{ | |
7477 effect(DEF dst, USE src1, USE src2); | |
7478 size(4); | |
7479 format %{ "SUB $src1,$src2,$dst\t! long" %} | |
7480 opcode(Assembler::sub_op3, Assembler::arith_op); | |
7481 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7482 ins_pipe(ialu_reg_reg); | |
7483 %} | |
7484 | |
7485 // Register Long Remainder | |
7486 instruct modL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
7487 match(Set dst (ModL src1 src2)); | |
7488 ins_cost(DEFAULT_COST*(71 + 6 + 1)); | |
7489 expand %{ | |
7490 iRegL tmp1; | |
7491 iRegL tmp2; | |
7492 divL_reg_reg_1(tmp1, src1, src2); | |
7493 mulL_reg_reg_1(tmp2, tmp1, src2); | |
7494 subL_reg_reg_1(dst, src1, tmp2); | |
7495 %} | |
7496 %} | |
7497 | |
7498 // Register Long Remainder | |
7499 instruct modL_reg_imm13(iRegL dst, iRegL src1, immL13 src2) %{ | |
7500 match(Set dst (ModL src1 src2)); | |
7501 ins_cost(DEFAULT_COST*(71 + 6 + 1)); | |
7502 expand %{ | |
7503 iRegL tmp1; | |
7504 iRegL tmp2; | |
7505 divL_reg_imm13_1(tmp1, src1, src2); | |
7506 mulL_reg_imm13_1(tmp2, tmp1, src2); | |
7507 subL_reg_reg_2 (dst, src1, tmp2); | |
7508 %} | |
7509 %} | |
7510 | |
7511 // Integer Shift Instructions | |
7512 // Register Shift Left | |
7513 instruct shlI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7514 match(Set dst (LShiftI src1 src2)); | |
7515 | |
7516 size(4); | |
7517 format %{ "SLL $src1,$src2,$dst" %} | |
7518 opcode(Assembler::sll_op3, Assembler::arith_op); | |
7519 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7520 ins_pipe(ialu_reg_reg); | |
7521 %} | |
7522 | |
7523 // Register Shift Left Immediate | |
7524 instruct shlI_reg_imm5(iRegI dst, iRegI src1, immU5 src2) %{ | |
7525 match(Set dst (LShiftI src1 src2)); | |
7526 | |
7527 size(4); | |
7528 format %{ "SLL $src1,$src2,$dst" %} | |
7529 opcode(Assembler::sll_op3, Assembler::arith_op); | |
7530 ins_encode( form3_rs1_imm5_rd( src1, src2, dst ) ); | |
7531 ins_pipe(ialu_reg_imm); | |
7532 %} | |
7533 | |
7534 // Register Shift Left | |
7535 instruct shlL_reg_reg(iRegL dst, iRegL src1, iRegI src2) %{ | |
7536 match(Set dst (LShiftL src1 src2)); | |
7537 | |
7538 size(4); | |
7539 format %{ "SLLX $src1,$src2,$dst" %} | |
7540 opcode(Assembler::sllx_op3, Assembler::arith_op); | |
7541 ins_encode( form3_sd_rs1_rs2_rd( src1, src2, dst ) ); | |
7542 ins_pipe(ialu_reg_reg); | |
7543 %} | |
7544 | |
7545 // Register Shift Left Immediate | |
7546 instruct shlL_reg_imm6(iRegL dst, iRegL src1, immU6 src2) %{ | |
7547 match(Set dst (LShiftL src1 src2)); | |
7548 | |
7549 size(4); | |
7550 format %{ "SLLX $src1,$src2,$dst" %} | |
7551 opcode(Assembler::sllx_op3, Assembler::arith_op); | |
7552 ins_encode( form3_sd_rs1_imm6_rd( src1, src2, dst ) ); | |
7553 ins_pipe(ialu_reg_imm); | |
7554 %} | |
7555 | |
7556 // Register Arithmetic Shift Right | |
7557 instruct sarI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7558 match(Set dst (RShiftI src1 src2)); | |
7559 size(4); | |
7560 format %{ "SRA $src1,$src2,$dst" %} | |
7561 opcode(Assembler::sra_op3, Assembler::arith_op); | |
7562 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7563 ins_pipe(ialu_reg_reg); | |
7564 %} | |
7565 | |
7566 // Register Arithmetic Shift Right Immediate | |
7567 instruct sarI_reg_imm5(iRegI dst, iRegI src1, immU5 src2) %{ | |
7568 match(Set dst (RShiftI src1 src2)); | |
7569 | |
7570 size(4); | |
7571 format %{ "SRA $src1,$src2,$dst" %} | |
7572 opcode(Assembler::sra_op3, Assembler::arith_op); | |
7573 ins_encode( form3_rs1_imm5_rd( src1, src2, dst ) ); | |
7574 ins_pipe(ialu_reg_imm); | |
7575 %} | |
7576 | |
7577 // Register Shift Right Arithmatic Long | |
7578 instruct sarL_reg_reg(iRegL dst, iRegL src1, iRegI src2) %{ | |
7579 match(Set dst (RShiftL src1 src2)); | |
7580 | |
7581 size(4); | |
7582 format %{ "SRAX $src1,$src2,$dst" %} | |
7583 opcode(Assembler::srax_op3, Assembler::arith_op); | |
7584 ins_encode( form3_sd_rs1_rs2_rd( src1, src2, dst ) ); | |
7585 ins_pipe(ialu_reg_reg); | |
7586 %} | |
7587 | |
7588 // Register Shift Left Immediate | |
7589 instruct sarL_reg_imm6(iRegL dst, iRegL src1, immU6 src2) %{ | |
7590 match(Set dst (RShiftL src1 src2)); | |
7591 | |
7592 size(4); | |
7593 format %{ "SRAX $src1,$src2,$dst" %} | |
7594 opcode(Assembler::srax_op3, Assembler::arith_op); | |
7595 ins_encode( form3_sd_rs1_imm6_rd( src1, src2, dst ) ); | |
7596 ins_pipe(ialu_reg_imm); | |
7597 %} | |
7598 | |
7599 // Register Shift Right | |
7600 instruct shrI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7601 match(Set dst (URShiftI src1 src2)); | |
7602 | |
7603 size(4); | |
7604 format %{ "SRL $src1,$src2,$dst" %} | |
7605 opcode(Assembler::srl_op3, Assembler::arith_op); | |
7606 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7607 ins_pipe(ialu_reg_reg); | |
7608 %} | |
7609 | |
7610 // Register Shift Right Immediate | |
7611 instruct shrI_reg_imm5(iRegI dst, iRegI src1, immU5 src2) %{ | |
7612 match(Set dst (URShiftI src1 src2)); | |
7613 | |
7614 size(4); | |
7615 format %{ "SRL $src1,$src2,$dst" %} | |
7616 opcode(Assembler::srl_op3, Assembler::arith_op); | |
7617 ins_encode( form3_rs1_imm5_rd( src1, src2, dst ) ); | |
7618 ins_pipe(ialu_reg_imm); | |
7619 %} | |
7620 | |
7621 // Register Shift Right | |
7622 instruct shrL_reg_reg(iRegL dst, iRegL src1, iRegI src2) %{ | |
7623 match(Set dst (URShiftL src1 src2)); | |
7624 | |
7625 size(4); | |
7626 format %{ "SRLX $src1,$src2,$dst" %} | |
7627 opcode(Assembler::srlx_op3, Assembler::arith_op); | |
7628 ins_encode( form3_sd_rs1_rs2_rd( src1, src2, dst ) ); | |
7629 ins_pipe(ialu_reg_reg); | |
7630 %} | |
7631 | |
7632 // Register Shift Right Immediate | |
7633 instruct shrL_reg_imm6(iRegL dst, iRegL src1, immU6 src2) %{ | |
7634 match(Set dst (URShiftL src1 src2)); | |
7635 | |
7636 size(4); | |
7637 format %{ "SRLX $src1,$src2,$dst" %} | |
7638 opcode(Assembler::srlx_op3, Assembler::arith_op); | |
7639 ins_encode( form3_sd_rs1_imm6_rd( src1, src2, dst ) ); | |
7640 ins_pipe(ialu_reg_imm); | |
7641 %} | |
7642 | |
7643 // Register Shift Right Immediate with a CastP2X | |
7644 #ifdef _LP64 | |
7645 instruct shrP_reg_imm6(iRegL dst, iRegP src1, immU6 src2) %{ | |
7646 match(Set dst (URShiftL (CastP2X src1) src2)); | |
7647 size(4); | |
7648 format %{ "SRLX $src1,$src2,$dst\t! Cast ptr $src1 to long and shift" %} | |
7649 opcode(Assembler::srlx_op3, Assembler::arith_op); | |
7650 ins_encode( form3_sd_rs1_imm6_rd( src1, src2, dst ) ); | |
7651 ins_pipe(ialu_reg_imm); | |
7652 %} | |
7653 #else | |
7654 instruct shrP_reg_imm5(iRegI dst, iRegP src1, immU5 src2) %{ | |
7655 match(Set dst (URShiftI (CastP2X src1) src2)); | |
7656 size(4); | |
7657 format %{ "SRL $src1,$src2,$dst\t! Cast ptr $src1 to int and shift" %} | |
7658 opcode(Assembler::srl_op3, Assembler::arith_op); | |
7659 ins_encode( form3_rs1_imm5_rd( src1, src2, dst ) ); | |
7660 ins_pipe(ialu_reg_imm); | |
7661 %} | |
7662 #endif | |
7663 | |
7664 | |
7665 //----------Floating Point Arithmetic Instructions----------------------------- | |
7666 | |
7667 // Add float single precision | |
7668 instruct addF_reg_reg(regF dst, regF src1, regF src2) %{ | |
7669 match(Set dst (AddF src1 src2)); | |
7670 | |
7671 size(4); | |
7672 format %{ "FADDS $src1,$src2,$dst" %} | |
7673 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fadds_opf); | |
7674 ins_encode(form3_opf_rs1F_rs2F_rdF(src1, src2, dst)); | |
7675 ins_pipe(faddF_reg_reg); | |
7676 %} | |
7677 | |
7678 // Add float double precision | |
7679 instruct addD_reg_reg(regD dst, regD src1, regD src2) %{ | |
7680 match(Set dst (AddD src1 src2)); | |
7681 | |
7682 size(4); | |
7683 format %{ "FADDD $src1,$src2,$dst" %} | |
7684 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::faddd_opf); | |
7685 ins_encode(form3_opf_rs1D_rs2D_rdD(src1, src2, dst)); | |
7686 ins_pipe(faddD_reg_reg); | |
7687 %} | |
7688 | |
7689 // Sub float single precision | |
7690 instruct subF_reg_reg(regF dst, regF src1, regF src2) %{ | |
7691 match(Set dst (SubF src1 src2)); | |
7692 | |
7693 size(4); | |
7694 format %{ "FSUBS $src1,$src2,$dst" %} | |
7695 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fsubs_opf); | |
7696 ins_encode(form3_opf_rs1F_rs2F_rdF(src1, src2, dst)); | |
7697 ins_pipe(faddF_reg_reg); | |
7698 %} | |
7699 | |
7700 // Sub float double precision | |
7701 instruct subD_reg_reg(regD dst, regD src1, regD src2) %{ | |
7702 match(Set dst (SubD src1 src2)); | |
7703 | |
7704 size(4); | |
7705 format %{ "FSUBD $src1,$src2,$dst" %} | |
7706 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fsubd_opf); | |
7707 ins_encode(form3_opf_rs1D_rs2D_rdD(src1, src2, dst)); | |
7708 ins_pipe(faddD_reg_reg); | |
7709 %} | |
7710 | |
7711 // Mul float single precision | |
7712 instruct mulF_reg_reg(regF dst, regF src1, regF src2) %{ | |
7713 match(Set dst (MulF src1 src2)); | |
7714 | |
7715 size(4); | |
7716 format %{ "FMULS $src1,$src2,$dst" %} | |
7717 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fmuls_opf); | |
7718 ins_encode(form3_opf_rs1F_rs2F_rdF(src1, src2, dst)); | |
7719 ins_pipe(fmulF_reg_reg); | |
7720 %} | |
7721 | |
7722 // Mul float double precision | |
7723 instruct mulD_reg_reg(regD dst, regD src1, regD src2) %{ | |
7724 match(Set dst (MulD src1 src2)); | |
7725 | |
7726 size(4); | |
7727 format %{ "FMULD $src1,$src2,$dst" %} | |
7728 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fmuld_opf); | |
7729 ins_encode(form3_opf_rs1D_rs2D_rdD(src1, src2, dst)); | |
7730 ins_pipe(fmulD_reg_reg); | |
7731 %} | |
7732 | |
7733 // Div float single precision | |
7734 instruct divF_reg_reg(regF dst, regF src1, regF src2) %{ | |
7735 match(Set dst (DivF src1 src2)); | |
7736 | |
7737 size(4); | |
7738 format %{ "FDIVS $src1,$src2,$dst" %} | |
7739 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fdivs_opf); | |
7740 ins_encode(form3_opf_rs1F_rs2F_rdF(src1, src2, dst)); | |
7741 ins_pipe(fdivF_reg_reg); | |
7742 %} | |
7743 | |
7744 // Div float double precision | |
7745 instruct divD_reg_reg(regD dst, regD src1, regD src2) %{ | |
7746 match(Set dst (DivD src1 src2)); | |
7747 | |
7748 size(4); | |
7749 format %{ "FDIVD $src1,$src2,$dst" %} | |
7750 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fdivd_opf); | |
7751 ins_encode(form3_opf_rs1D_rs2D_rdD(src1, src2, dst)); | |
7752 ins_pipe(fdivD_reg_reg); | |
7753 %} | |
7754 | |
7755 // Absolute float double precision | |
7756 instruct absD_reg(regD dst, regD src) %{ | |
7757 match(Set dst (AbsD src)); | |
7758 | |
7759 format %{ "FABSd $src,$dst" %} | |
7760 ins_encode(fabsd(dst, src)); | |
7761 ins_pipe(faddD_reg); | |
7762 %} | |
7763 | |
7764 // Absolute float single precision | |
7765 instruct absF_reg(regF dst, regF src) %{ | |
7766 match(Set dst (AbsF src)); | |
7767 | |
7768 format %{ "FABSs $src,$dst" %} | |
7769 ins_encode(fabss(dst, src)); | |
7770 ins_pipe(faddF_reg); | |
7771 %} | |
7772 | |
7773 instruct negF_reg(regF dst, regF src) %{ | |
7774 match(Set dst (NegF src)); | |
7775 | |
7776 size(4); | |
7777 format %{ "FNEGs $src,$dst" %} | |
7778 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fnegs_opf); | |
7779 ins_encode(form3_opf_rs2F_rdF(src, dst)); | |
7780 ins_pipe(faddF_reg); | |
7781 %} | |
7782 | |
7783 instruct negD_reg(regD dst, regD src) %{ | |
7784 match(Set dst (NegD src)); | |
7785 | |
7786 format %{ "FNEGd $src,$dst" %} | |
7787 ins_encode(fnegd(dst, src)); | |
7788 ins_pipe(faddD_reg); | |
7789 %} | |
7790 | |
7791 // Sqrt float double precision | |
7792 instruct sqrtF_reg_reg(regF dst, regF src) %{ | |
7793 match(Set dst (ConvD2F (SqrtD (ConvF2D src)))); | |
7794 | |
7795 size(4); | |
7796 format %{ "FSQRTS $src,$dst" %} | |
7797 ins_encode(fsqrts(dst, src)); | |
7798 ins_pipe(fdivF_reg_reg); | |
7799 %} | |
7800 | |
7801 // Sqrt float double precision | |
7802 instruct sqrtD_reg_reg(regD dst, regD src) %{ | |
7803 match(Set dst (SqrtD src)); | |
7804 | |
7805 size(4); | |
7806 format %{ "FSQRTD $src,$dst" %} | |
7807 ins_encode(fsqrtd(dst, src)); | |
7808 ins_pipe(fdivD_reg_reg); | |
7809 %} | |
7810 | |
7811 //----------Logical Instructions----------------------------------------------- | |
7812 // And Instructions | |
7813 // Register And | |
7814 instruct andI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7815 match(Set dst (AndI src1 src2)); | |
7816 | |
7817 size(4); | |
7818 format %{ "AND $src1,$src2,$dst" %} | |
7819 opcode(Assembler::and_op3, Assembler::arith_op); | |
7820 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7821 ins_pipe(ialu_reg_reg); | |
7822 %} | |
7823 | |
7824 // Immediate And | |
7825 instruct andI_reg_imm13(iRegI dst, iRegI src1, immI13 src2) %{ | |
7826 match(Set dst (AndI src1 src2)); | |
7827 | |
7828 size(4); | |
7829 format %{ "AND $src1,$src2,$dst" %} | |
7830 opcode(Assembler::and_op3, Assembler::arith_op); | |
7831 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7832 ins_pipe(ialu_reg_imm); | |
7833 %} | |
7834 | |
7835 // Register And Long | |
7836 instruct andL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
7837 match(Set dst (AndL src1 src2)); | |
7838 | |
7839 ins_cost(DEFAULT_COST); | |
7840 size(4); | |
7841 format %{ "AND $src1,$src2,$dst\t! long" %} | |
7842 opcode(Assembler::and_op3, Assembler::arith_op); | |
7843 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7844 ins_pipe(ialu_reg_reg); | |
7845 %} | |
7846 | |
7847 instruct andL_reg_imm13(iRegL dst, iRegL src1, immL13 con) %{ | |
7848 match(Set dst (AndL src1 con)); | |
7849 | |
7850 ins_cost(DEFAULT_COST); | |
7851 size(4); | |
7852 format %{ "AND $src1,$con,$dst\t! long" %} | |
7853 opcode(Assembler::and_op3, Assembler::arith_op); | |
7854 ins_encode( form3_rs1_simm13_rd( src1, con, dst ) ); | |
7855 ins_pipe(ialu_reg_imm); | |
7856 %} | |
7857 | |
7858 // Or Instructions | |
7859 // Register Or | |
7860 instruct orI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7861 match(Set dst (OrI src1 src2)); | |
7862 | |
7863 size(4); | |
7864 format %{ "OR $src1,$src2,$dst" %} | |
7865 opcode(Assembler::or_op3, Assembler::arith_op); | |
7866 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7867 ins_pipe(ialu_reg_reg); | |
7868 %} | |
7869 | |
7870 // Immediate Or | |
7871 instruct orI_reg_imm13(iRegI dst, iRegI src1, immI13 src2) %{ | |
7872 match(Set dst (OrI src1 src2)); | |
7873 | |
7874 size(4); | |
7875 format %{ "OR $src1,$src2,$dst" %} | |
7876 opcode(Assembler::or_op3, Assembler::arith_op); | |
7877 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7878 ins_pipe(ialu_reg_imm); | |
7879 %} | |
7880 | |
7881 // Register Or Long | |
7882 instruct orL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
7883 match(Set dst (OrL src1 src2)); | |
7884 | |
7885 ins_cost(DEFAULT_COST); | |
7886 size(4); | |
7887 format %{ "OR $src1,$src2,$dst\t! long" %} | |
7888 opcode(Assembler::or_op3, Assembler::arith_op); | |
7889 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7890 ins_pipe(ialu_reg_reg); | |
7891 %} | |
7892 | |
7893 instruct orL_reg_imm13(iRegL dst, iRegL src1, immL13 con) %{ | |
7894 match(Set dst (OrL src1 con)); | |
7895 ins_cost(DEFAULT_COST*2); | |
7896 | |
7897 ins_cost(DEFAULT_COST); | |
7898 size(4); | |
7899 format %{ "OR $src1,$con,$dst\t! long" %} | |
7900 opcode(Assembler::or_op3, Assembler::arith_op); | |
7901 ins_encode( form3_rs1_simm13_rd( src1, con, dst ) ); | |
7902 ins_pipe(ialu_reg_imm); | |
7903 %} | |
7904 | |
420
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7905 #ifndef _LP64 |
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7906 |
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7907 // Use sp_ptr_RegP to match G2 (TLS register) without spilling. |
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7908 instruct orI_reg_castP2X(iRegI dst, iRegI src1, sp_ptr_RegP src2) %{ |
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7909 match(Set dst (OrI src1 (CastP2X src2))); |
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7910 |
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7911 size(4); |
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7912 format %{ "OR $src1,$src2,$dst" %} |
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7913 opcode(Assembler::or_op3, Assembler::arith_op); |
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7914 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); |
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7915 ins_pipe(ialu_reg_reg); |
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7916 %} |
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7917 |
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7918 #else |
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7919 |
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7920 instruct orL_reg_castP2X(iRegL dst, iRegL src1, sp_ptr_RegP src2) %{ |
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7921 match(Set dst (OrL src1 (CastP2X src2))); |
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7922 |
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7923 ins_cost(DEFAULT_COST); |
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7924 size(4); |
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7925 format %{ "OR $src1,$src2,$dst\t! long" %} |
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7926 opcode(Assembler::or_op3, Assembler::arith_op); |
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7927 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); |
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7928 ins_pipe(ialu_reg_reg); |
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7929 %} |
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7930 |
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7931 #endif |
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7932 |
0 | 7933 // Xor Instructions |
7934 // Register Xor | |
7935 instruct xorI_reg_reg(iRegI dst, iRegI src1, iRegI src2) %{ | |
7936 match(Set dst (XorI src1 src2)); | |
7937 | |
7938 size(4); | |
7939 format %{ "XOR $src1,$src2,$dst" %} | |
7940 opcode(Assembler::xor_op3, Assembler::arith_op); | |
7941 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7942 ins_pipe(ialu_reg_reg); | |
7943 %} | |
7944 | |
7945 // Immediate Xor | |
7946 instruct xorI_reg_imm13(iRegI dst, iRegI src1, immI13 src2) %{ | |
7947 match(Set dst (XorI src1 src2)); | |
7948 | |
7949 size(4); | |
7950 format %{ "XOR $src1,$src2,$dst" %} | |
7951 opcode(Assembler::xor_op3, Assembler::arith_op); | |
7952 ins_encode( form3_rs1_simm13_rd( src1, src2, dst ) ); | |
7953 ins_pipe(ialu_reg_imm); | |
7954 %} | |
7955 | |
7956 // Register Xor Long | |
7957 instruct xorL_reg_reg(iRegL dst, iRegL src1, iRegL src2) %{ | |
7958 match(Set dst (XorL src1 src2)); | |
7959 | |
7960 ins_cost(DEFAULT_COST); | |
7961 size(4); | |
7962 format %{ "XOR $src1,$src2,$dst\t! long" %} | |
7963 opcode(Assembler::xor_op3, Assembler::arith_op); | |
7964 ins_encode( form3_rs1_rs2_rd( src1, src2, dst ) ); | |
7965 ins_pipe(ialu_reg_reg); | |
7966 %} | |
7967 | |
7968 instruct xorL_reg_imm13(iRegL dst, iRegL src1, immL13 con) %{ | |
7969 match(Set dst (XorL src1 con)); | |
7970 | |
7971 ins_cost(DEFAULT_COST); | |
7972 size(4); | |
7973 format %{ "XOR $src1,$con,$dst\t! long" %} | |
7974 opcode(Assembler::xor_op3, Assembler::arith_op); | |
7975 ins_encode( form3_rs1_simm13_rd( src1, con, dst ) ); | |
7976 ins_pipe(ialu_reg_imm); | |
7977 %} | |
7978 | |
7979 //----------Convert to Boolean------------------------------------------------- | |
7980 // Nice hack for 32-bit tests but doesn't work for | |
7981 // 64-bit pointers. | |
7982 instruct convI2B( iRegI dst, iRegI src, flagsReg ccr ) %{ | |
7983 match(Set dst (Conv2B src)); | |
7984 effect( KILL ccr ); | |
7985 ins_cost(DEFAULT_COST*2); | |
7986 format %{ "CMP R_G0,$src\n\t" | |
7987 "ADDX R_G0,0,$dst" %} | |
7988 ins_encode( enc_to_bool( src, dst ) ); | |
7989 ins_pipe(ialu_reg_ialu); | |
7990 %} | |
7991 | |
7992 #ifndef _LP64 | |
7993 instruct convP2B( iRegI dst, iRegP src, flagsReg ccr ) %{ | |
7994 match(Set dst (Conv2B src)); | |
7995 effect( KILL ccr ); | |
7996 ins_cost(DEFAULT_COST*2); | |
7997 format %{ "CMP R_G0,$src\n\t" | |
7998 "ADDX R_G0,0,$dst" %} | |
7999 ins_encode( enc_to_bool( src, dst ) ); | |
8000 ins_pipe(ialu_reg_ialu); | |
8001 %} | |
8002 #else | |
8003 instruct convP2B( iRegI dst, iRegP src ) %{ | |
8004 match(Set dst (Conv2B src)); | |
8005 ins_cost(DEFAULT_COST*2); | |
8006 format %{ "MOV $src,$dst\n\t" | |
8007 "MOVRNZ $src,1,$dst" %} | |
8008 ins_encode( form3_g0_rs2_rd_move( src, dst ), enc_convP2B( dst, src ) ); | |
8009 ins_pipe(ialu_clr_and_mover); | |
8010 %} | |
8011 #endif | |
8012 | |
8013 instruct cmpLTMask_reg_reg( iRegI dst, iRegI p, iRegI q, flagsReg ccr ) %{ | |
8014 match(Set dst (CmpLTMask p q)); | |
8015 effect( KILL ccr ); | |
8016 ins_cost(DEFAULT_COST*4); | |
8017 format %{ "CMP $p,$q\n\t" | |
8018 "MOV #0,$dst\n\t" | |
8019 "BLT,a .+8\n\t" | |
8020 "MOV #-1,$dst" %} | |
8021 ins_encode( enc_ltmask(p,q,dst) ); | |
8022 ins_pipe(ialu_reg_reg_ialu); | |
8023 %} | |
8024 | |
8025 instruct cadd_cmpLTMask( iRegI p, iRegI q, iRegI y, iRegI tmp, flagsReg ccr ) %{ | |
8026 match(Set p (AddI (AndI (CmpLTMask p q) y) (SubI p q))); | |
8027 effect(KILL ccr, TEMP tmp); | |
8028 ins_cost(DEFAULT_COST*3); | |
8029 | |
8030 format %{ "SUBcc $p,$q,$p\t! p' = p-q\n\t" | |
8031 "ADD $p,$y,$tmp\t! g3=p-q+y\n\t" | |
8032 "MOVl $tmp,$p\t! p' < 0 ? p'+y : p'" %} | |
8033 ins_encode( enc_cadd_cmpLTMask(p, q, y, tmp) ); | |
8034 ins_pipe( cadd_cmpltmask ); | |
8035 %} | |
8036 | |
8037 instruct cadd_cmpLTMask2( iRegI p, iRegI q, iRegI y, iRegI tmp, flagsReg ccr ) %{ | |
8038 match(Set p (AddI (SubI p q) (AndI (CmpLTMask p q) y))); | |
8039 effect( KILL ccr, TEMP tmp); | |
8040 ins_cost(DEFAULT_COST*3); | |
8041 | |
8042 format %{ "SUBcc $p,$q,$p\t! p' = p-q\n\t" | |
8043 "ADD $p,$y,$tmp\t! g3=p-q+y\n\t" | |
8044 "MOVl $tmp,$p\t! p' < 0 ? p'+y : p'" %} | |
8045 ins_encode( enc_cadd_cmpLTMask(p, q, y, tmp) ); | |
8046 ins_pipe( cadd_cmpltmask ); | |
8047 %} | |
8048 | |
8049 //----------Arithmetic Conversion Instructions--------------------------------- | |
8050 // The conversions operations are all Alpha sorted. Please keep it that way! | |
8051 | |
8052 instruct convD2F_reg(regF dst, regD src) %{ | |
8053 match(Set dst (ConvD2F src)); | |
8054 size(4); | |
8055 format %{ "FDTOS $src,$dst" %} | |
8056 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fdtos_opf); | |
8057 ins_encode(form3_opf_rs2D_rdF(src, dst)); | |
8058 ins_pipe(fcvtD2F); | |
8059 %} | |
8060 | |
8061 | |
8062 // Convert a double to an int in a float register. | |
8063 // If the double is a NAN, stuff a zero in instead. | |
8064 instruct convD2I_helper(regF dst, regD src, flagsRegF0 fcc0) %{ | |
8065 effect(DEF dst, USE src, KILL fcc0); | |
8066 format %{ "FCMPd fcc0,$src,$src\t! check for NAN\n\t" | |
8067 "FBO,pt fcc0,skip\t! branch on ordered, predict taken\n\t" | |
8068 "FDTOI $src,$dst\t! convert in delay slot\n\t" | |
8069 "FITOS $dst,$dst\t! change NaN/max-int to valid float\n\t" | |
8070 "FSUBs $dst,$dst,$dst\t! cleared only if nan\n" | |
8071 "skip:" %} | |
8072 ins_encode(form_d2i_helper(src,dst)); | |
8073 ins_pipe(fcvtD2I); | |
8074 %} | |
8075 | |
8076 instruct convD2I_reg(stackSlotI dst, regD src) %{ | |
8077 match(Set dst (ConvD2I src)); | |
8078 ins_cost(DEFAULT_COST*2 + MEMORY_REF_COST*2 + BRANCH_COST); | |
8079 expand %{ | |
8080 regF tmp; | |
8081 convD2I_helper(tmp, src); | |
8082 regF_to_stkI(dst, tmp); | |
8083 %} | |
8084 %} | |
8085 | |
8086 // Convert a double to a long in a double register. | |
8087 // If the double is a NAN, stuff a zero in instead. | |
8088 instruct convD2L_helper(regD dst, regD src, flagsRegF0 fcc0) %{ | |
8089 effect(DEF dst, USE src, KILL fcc0); | |
8090 format %{ "FCMPd fcc0,$src,$src\t! check for NAN\n\t" | |
8091 "FBO,pt fcc0,skip\t! branch on ordered, predict taken\n\t" | |
8092 "FDTOX $src,$dst\t! convert in delay slot\n\t" | |
8093 "FXTOD $dst,$dst\t! change NaN/max-long to valid double\n\t" | |
8094 "FSUBd $dst,$dst,$dst\t! cleared only if nan\n" | |
8095 "skip:" %} | |
8096 ins_encode(form_d2l_helper(src,dst)); | |
8097 ins_pipe(fcvtD2L); | |
8098 %} | |
8099 | |
8100 | |
8101 // Double to Long conversion | |
8102 instruct convD2L_reg(stackSlotL dst, regD src) %{ | |
8103 match(Set dst (ConvD2L src)); | |
8104 ins_cost(DEFAULT_COST*2 + MEMORY_REF_COST*2 + BRANCH_COST); | |
8105 expand %{ | |
8106 regD tmp; | |
8107 convD2L_helper(tmp, src); | |
8108 regD_to_stkL(dst, tmp); | |
8109 %} | |
8110 %} | |
8111 | |
8112 | |
8113 instruct convF2D_reg(regD dst, regF src) %{ | |
8114 match(Set dst (ConvF2D src)); | |
8115 format %{ "FSTOD $src,$dst" %} | |
8116 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fstod_opf); | |
8117 ins_encode(form3_opf_rs2F_rdD(src, dst)); | |
8118 ins_pipe(fcvtF2D); | |
8119 %} | |
8120 | |
8121 | |
8122 instruct convF2I_helper(regF dst, regF src, flagsRegF0 fcc0) %{ | |
8123 effect(DEF dst, USE src, KILL fcc0); | |
8124 format %{ "FCMPs fcc0,$src,$src\t! check for NAN\n\t" | |
8125 "FBO,pt fcc0,skip\t! branch on ordered, predict taken\n\t" | |
8126 "FSTOI $src,$dst\t! convert in delay slot\n\t" | |
8127 "FITOS $dst,$dst\t! change NaN/max-int to valid float\n\t" | |
8128 "FSUBs $dst,$dst,$dst\t! cleared only if nan\n" | |
8129 "skip:" %} | |
8130 ins_encode(form_f2i_helper(src,dst)); | |
8131 ins_pipe(fcvtF2I); | |
8132 %} | |
8133 | |
8134 instruct convF2I_reg(stackSlotI dst, regF src) %{ | |
8135 match(Set dst (ConvF2I src)); | |
8136 ins_cost(DEFAULT_COST*2 + MEMORY_REF_COST*2 + BRANCH_COST); | |
8137 expand %{ | |
8138 regF tmp; | |
8139 convF2I_helper(tmp, src); | |
8140 regF_to_stkI(dst, tmp); | |
8141 %} | |
8142 %} | |
8143 | |
8144 | |
8145 instruct convF2L_helper(regD dst, regF src, flagsRegF0 fcc0) %{ | |
8146 effect(DEF dst, USE src, KILL fcc0); | |
8147 format %{ "FCMPs fcc0,$src,$src\t! check for NAN\n\t" | |
8148 "FBO,pt fcc0,skip\t! branch on ordered, predict taken\n\t" | |
8149 "FSTOX $src,$dst\t! convert in delay slot\n\t" | |
8150 "FXTOD $dst,$dst\t! change NaN/max-long to valid double\n\t" | |
8151 "FSUBd $dst,$dst,$dst\t! cleared only if nan\n" | |
8152 "skip:" %} | |
8153 ins_encode(form_f2l_helper(src,dst)); | |
8154 ins_pipe(fcvtF2L); | |
8155 %} | |
8156 | |
8157 // Float to Long conversion | |
8158 instruct convF2L_reg(stackSlotL dst, regF src) %{ | |
8159 match(Set dst (ConvF2L src)); | |
8160 ins_cost(DEFAULT_COST*2 + MEMORY_REF_COST*2 + BRANCH_COST); | |
8161 expand %{ | |
8162 regD tmp; | |
8163 convF2L_helper(tmp, src); | |
8164 regD_to_stkL(dst, tmp); | |
8165 %} | |
8166 %} | |
8167 | |
8168 | |
8169 instruct convI2D_helper(regD dst, regF tmp) %{ | |
8170 effect(USE tmp, DEF dst); | |
8171 format %{ "FITOD $tmp,$dst" %} | |
8172 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fitod_opf); | |
8173 ins_encode(form3_opf_rs2F_rdD(tmp, dst)); | |
8174 ins_pipe(fcvtI2D); | |
8175 %} | |
8176 | |
8177 instruct convI2D_reg(stackSlotI src, regD dst) %{ | |
8178 match(Set dst (ConvI2D src)); | |
8179 ins_cost(DEFAULT_COST + MEMORY_REF_COST); | |
8180 expand %{ | |
8181 regF tmp; | |
8182 stkI_to_regF( tmp, src); | |
8183 convI2D_helper( dst, tmp); | |
8184 %} | |
8185 %} | |
8186 | |
8187 instruct convI2D_mem( regD_low dst, memory mem ) %{ | |
8188 match(Set dst (ConvI2D (LoadI mem))); | |
8189 ins_cost(DEFAULT_COST + MEMORY_REF_COST); | |
8190 size(8); | |
8191 format %{ "LDF $mem,$dst\n\t" | |
8192 "FITOD $dst,$dst" %} | |
8193 opcode(Assembler::ldf_op3, Assembler::fitod_opf); | |
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8194 ins_encode(simple_form3_mem_reg( mem, dst ), form3_convI2F(dst, dst)); |
0 | 8195 ins_pipe(floadF_mem); |
8196 %} | |
8197 | |
8198 | |
8199 instruct convI2F_helper(regF dst, regF tmp) %{ | |
8200 effect(DEF dst, USE tmp); | |
8201 format %{ "FITOS $tmp,$dst" %} | |
8202 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fitos_opf); | |
8203 ins_encode(form3_opf_rs2F_rdF(tmp, dst)); | |
8204 ins_pipe(fcvtI2F); | |
8205 %} | |
8206 | |
8207 instruct convI2F_reg( regF dst, stackSlotI src ) %{ | |
8208 match(Set dst (ConvI2F src)); | |
8209 ins_cost(DEFAULT_COST + MEMORY_REF_COST); | |
8210 expand %{ | |
8211 regF tmp; | |
8212 stkI_to_regF(tmp,src); | |
8213 convI2F_helper(dst, tmp); | |
8214 %} | |
8215 %} | |
8216 | |
8217 instruct convI2F_mem( regF dst, memory mem ) %{ | |
8218 match(Set dst (ConvI2F (LoadI mem))); | |
8219 ins_cost(DEFAULT_COST + MEMORY_REF_COST); | |
8220 size(8); | |
8221 format %{ "LDF $mem,$dst\n\t" | |
8222 "FITOS $dst,$dst" %} | |
8223 opcode(Assembler::ldf_op3, Assembler::fitos_opf); | |
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8224 ins_encode(simple_form3_mem_reg( mem, dst ), form3_convI2F(dst, dst)); |
0 | 8225 ins_pipe(floadF_mem); |
8226 %} | |
8227 | |
8228 | |
8229 instruct convI2L_reg(iRegL dst, iRegI src) %{ | |
8230 match(Set dst (ConvI2L src)); | |
8231 size(4); | |
8232 format %{ "SRA $src,0,$dst\t! int->long" %} | |
8233 opcode(Assembler::sra_op3, Assembler::arith_op); | |
8234 ins_encode( form3_rs1_rs2_rd( src, R_G0, dst ) ); | |
8235 ins_pipe(ialu_reg_reg); | |
8236 %} | |
8237 | |
8238 // Zero-extend convert int to long | |
8239 instruct convI2L_reg_zex(iRegL dst, iRegI src, immL_32bits mask ) %{ | |
8240 match(Set dst (AndL (ConvI2L src) mask) ); | |
8241 size(4); | |
8242 format %{ "SRL $src,0,$dst\t! zero-extend int to long" %} | |
8243 opcode(Assembler::srl_op3, Assembler::arith_op); | |
8244 ins_encode( form3_rs1_rs2_rd( src, R_G0, dst ) ); | |
8245 ins_pipe(ialu_reg_reg); | |
8246 %} | |
8247 | |
8248 // Zero-extend long | |
8249 instruct zerox_long(iRegL dst, iRegL src, immL_32bits mask ) %{ | |
8250 match(Set dst (AndL src mask) ); | |
8251 size(4); | |
8252 format %{ "SRL $src,0,$dst\t! zero-extend long" %} | |
8253 opcode(Assembler::srl_op3, Assembler::arith_op); | |
8254 ins_encode( form3_rs1_rs2_rd( src, R_G0, dst ) ); | |
8255 ins_pipe(ialu_reg_reg); | |
8256 %} | |
8257 | |
8258 instruct MoveF2I_stack_reg(iRegI dst, stackSlotF src) %{ | |
8259 match(Set dst (MoveF2I src)); | |
8260 effect(DEF dst, USE src); | |
8261 ins_cost(MEMORY_REF_COST); | |
8262 | |
8263 size(4); | |
8264 format %{ "LDUW $src,$dst\t! MoveF2I" %} | |
8265 opcode(Assembler::lduw_op3); | |
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8266 ins_encode(simple_form3_mem_reg( src, dst ) ); |
0 | 8267 ins_pipe(iload_mem); |
8268 %} | |
8269 | |
8270 instruct MoveI2F_stack_reg(regF dst, stackSlotI src) %{ | |
8271 match(Set dst (MoveI2F src)); | |
8272 effect(DEF dst, USE src); | |
8273 ins_cost(MEMORY_REF_COST); | |
8274 | |
8275 size(4); | |
8276 format %{ "LDF $src,$dst\t! MoveI2F" %} | |
8277 opcode(Assembler::ldf_op3); | |
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8278 ins_encode(simple_form3_mem_reg(src, dst)); |
0 | 8279 ins_pipe(floadF_stk); |
8280 %} | |
8281 | |
8282 instruct MoveD2L_stack_reg(iRegL dst, stackSlotD src) %{ | |
8283 match(Set dst (MoveD2L src)); | |
8284 effect(DEF dst, USE src); | |
8285 ins_cost(MEMORY_REF_COST); | |
8286 | |
8287 size(4); | |
8288 format %{ "LDX $src,$dst\t! MoveD2L" %} | |
8289 opcode(Assembler::ldx_op3); | |
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8290 ins_encode(simple_form3_mem_reg( src, dst ) ); |
0 | 8291 ins_pipe(iload_mem); |
8292 %} | |
8293 | |
8294 instruct MoveL2D_stack_reg(regD dst, stackSlotL src) %{ | |
8295 match(Set dst (MoveL2D src)); | |
8296 effect(DEF dst, USE src); | |
8297 ins_cost(MEMORY_REF_COST); | |
8298 | |
8299 size(4); | |
8300 format %{ "LDDF $src,$dst\t! MoveL2D" %} | |
8301 opcode(Assembler::lddf_op3); | |
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8302 ins_encode(simple_form3_mem_reg(src, dst)); |
0 | 8303 ins_pipe(floadD_stk); |
8304 %} | |
8305 | |
8306 instruct MoveF2I_reg_stack(stackSlotI dst, regF src) %{ | |
8307 match(Set dst (MoveF2I src)); | |
8308 effect(DEF dst, USE src); | |
8309 ins_cost(MEMORY_REF_COST); | |
8310 | |
8311 size(4); | |
8312 format %{ "STF $src,$dst\t!MoveF2I" %} | |
8313 opcode(Assembler::stf_op3); | |
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8314 ins_encode(simple_form3_mem_reg(dst, src)); |
0 | 8315 ins_pipe(fstoreF_stk_reg); |
8316 %} | |
8317 | |
8318 instruct MoveI2F_reg_stack(stackSlotF dst, iRegI src) %{ | |
8319 match(Set dst (MoveI2F src)); | |
8320 effect(DEF dst, USE src); | |
8321 ins_cost(MEMORY_REF_COST); | |
8322 | |
8323 size(4); | |
8324 format %{ "STW $src,$dst\t!MoveI2F" %} | |
8325 opcode(Assembler::stw_op3); | |
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8326 ins_encode(simple_form3_mem_reg( dst, src ) ); |
0 | 8327 ins_pipe(istore_mem_reg); |
8328 %} | |
8329 | |
8330 instruct MoveD2L_reg_stack(stackSlotL dst, regD src) %{ | |
8331 match(Set dst (MoveD2L src)); | |
8332 effect(DEF dst, USE src); | |
8333 ins_cost(MEMORY_REF_COST); | |
8334 | |
8335 size(4); | |
8336 format %{ "STDF $src,$dst\t!MoveD2L" %} | |
8337 opcode(Assembler::stdf_op3); | |
415
4d9884b01ba6
6754519: don't emit flag fixup for NaN when condition being tested doesn't need it
never
parents:
235
diff
changeset
|
8338 ins_encode(simple_form3_mem_reg(dst, src)); |
0 | 8339 ins_pipe(fstoreD_stk_reg); |
8340 %} | |
8341 | |
8342 instruct MoveL2D_reg_stack(stackSlotD dst, iRegL src) %{ | |
8343 match(Set dst (MoveL2D src)); | |
8344 effect(DEF dst, USE src); | |
8345 ins_cost(MEMORY_REF_COST); | |
8346 | |
8347 size(4); | |
8348 format %{ "STX $src,$dst\t!MoveL2D" %} | |
8349 opcode(Assembler::stx_op3); | |
415
4d9884b01ba6
6754519: don't emit flag fixup for NaN when condition being tested doesn't need it
never
parents:
235
diff
changeset
|
8350 ins_encode(simple_form3_mem_reg( dst, src ) ); |
0 | 8351 ins_pipe(istore_mem_reg); |
8352 %} | |
8353 | |
8354 | |
8355 //----------- | |
8356 // Long to Double conversion using V8 opcodes. | |
8357 // Still useful because cheetah traps and becomes | |
8358 // amazingly slow for some common numbers. | |
8359 | |
8360 // Magic constant, 0x43300000 | |
8361 instruct loadConI_x43300000(iRegI dst) %{ | |
8362 effect(DEF dst); | |
8363 size(4); | |
8364 format %{ "SETHI HI(0x43300000),$dst\t! 2^52" %} | |
8365 ins_encode(SetHi22(0x43300000, dst)); | |
8366 ins_pipe(ialu_none); | |
8367 %} | |
8368 | |
8369 // Magic constant, 0x41f00000 | |
8370 instruct loadConI_x41f00000(iRegI dst) %{ | |
8371 effect(DEF dst); | |
8372 size(4); | |
8373 format %{ "SETHI HI(0x41f00000),$dst\t! 2^32" %} | |
8374 ins_encode(SetHi22(0x41f00000, dst)); | |
8375 ins_pipe(ialu_none); | |
8376 %} | |
8377 | |
8378 // Construct a double from two float halves | |
8379 instruct regDHi_regDLo_to_regD(regD_low dst, regD_low src1, regD_low src2) %{ | |
8380 effect(DEF dst, USE src1, USE src2); | |
8381 size(8); | |
8382 format %{ "FMOVS $src1.hi,$dst.hi\n\t" | |
8383 "FMOVS $src2.lo,$dst.lo" %} | |
8384 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fmovs_opf); | |
8385 ins_encode(form3_opf_rs2D_hi_rdD_hi(src1, dst), form3_opf_rs2D_lo_rdD_lo(src2, dst)); | |
8386 ins_pipe(faddD_reg_reg); | |
8387 %} | |
8388 | |
8389 // Convert integer in high half of a double register (in the lower half of | |
8390 // the double register file) to double | |
8391 instruct convI2D_regDHi_regD(regD dst, regD_low src) %{ | |
8392 effect(DEF dst, USE src); | |
8393 size(4); | |
8394 format %{ "FITOD $src,$dst" %} | |
8395 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fitod_opf); | |
8396 ins_encode(form3_opf_rs2D_rdD(src, dst)); | |
8397 ins_pipe(fcvtLHi2D); | |
8398 %} | |
8399 | |
8400 // Add float double precision | |
8401 instruct addD_regD_regD(regD dst, regD src1, regD src2) %{ | |
8402 effect(DEF dst, USE src1, USE src2); | |
8403 size(4); | |
8404 format %{ "FADDD $src1,$src2,$dst" %} | |
8405 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::faddd_opf); | |
8406 ins_encode(form3_opf_rs1D_rs2D_rdD(src1, src2, dst)); | |
8407 ins_pipe(faddD_reg_reg); | |
8408 %} | |
8409 | |
8410 // Sub float double precision | |
8411 instruct subD_regD_regD(regD dst, regD src1, regD src2) %{ | |
8412 effect(DEF dst, USE src1, USE src2); | |
8413 size(4); | |
8414 format %{ "FSUBD $src1,$src2,$dst" %} | |
8415 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fsubd_opf); | |
8416 ins_encode(form3_opf_rs1D_rs2D_rdD(src1, src2, dst)); | |
8417 ins_pipe(faddD_reg_reg); | |
8418 %} | |
8419 | |
8420 // Mul float double precision | |
8421 instruct mulD_regD_regD(regD dst, regD src1, regD src2) %{ | |
8422 effect(DEF dst, USE src1, USE src2); | |
8423 size(4); | |
8424 format %{ "FMULD $src1,$src2,$dst" %} | |
8425 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fmuld_opf); | |
8426 ins_encode(form3_opf_rs1D_rs2D_rdD(src1, src2, dst)); | |
8427 ins_pipe(fmulD_reg_reg); | |
8428 %} | |
8429 | |
8430 instruct convL2D_reg_slow_fxtof(regD dst, stackSlotL src) %{ | |
8431 match(Set dst (ConvL2D src)); | |
8432 ins_cost(DEFAULT_COST*8 + MEMORY_REF_COST*6); | |
8433 | |
8434 expand %{ | |
8435 regD_low tmpsrc; | |
8436 iRegI ix43300000; | |
8437 iRegI ix41f00000; | |
8438 stackSlotL lx43300000; | |
8439 stackSlotL lx41f00000; | |
8440 regD_low dx43300000; | |
8441 regD dx41f00000; | |
8442 regD tmp1; | |
8443 regD_low tmp2; | |
8444 regD tmp3; | |
8445 regD tmp4; | |
8446 | |
8447 stkL_to_regD(tmpsrc, src); | |
8448 | |
8449 loadConI_x43300000(ix43300000); | |
8450 loadConI_x41f00000(ix41f00000); | |
8451 regI_to_stkLHi(lx43300000, ix43300000); | |
8452 regI_to_stkLHi(lx41f00000, ix41f00000); | |
8453 stkL_to_regD(dx43300000, lx43300000); | |
8454 stkL_to_regD(dx41f00000, lx41f00000); | |
8455 | |
8456 convI2D_regDHi_regD(tmp1, tmpsrc); | |
8457 regDHi_regDLo_to_regD(tmp2, dx43300000, tmpsrc); | |
8458 subD_regD_regD(tmp3, tmp2, dx43300000); | |
8459 mulD_regD_regD(tmp4, tmp1, dx41f00000); | |
8460 addD_regD_regD(dst, tmp3, tmp4); | |
8461 %} | |
8462 %} | |
8463 | |
8464 // Long to Double conversion using fast fxtof | |
8465 instruct convL2D_helper(regD dst, regD tmp) %{ | |
8466 effect(DEF dst, USE tmp); | |
8467 size(4); | |
8468 format %{ "FXTOD $tmp,$dst" %} | |
8469 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fxtod_opf); | |
8470 ins_encode(form3_opf_rs2D_rdD(tmp, dst)); | |
8471 ins_pipe(fcvtL2D); | |
8472 %} | |
8473 | |
8474 instruct convL2D_reg_fast_fxtof(regD dst, stackSlotL src) %{ | |
8475 predicate(VM_Version::has_fast_fxtof()); | |
8476 match(Set dst (ConvL2D src)); | |
8477 ins_cost(DEFAULT_COST + 3 * MEMORY_REF_COST); | |
8478 expand %{ | |
8479 regD tmp; | |
8480 stkL_to_regD(tmp, src); | |
8481 convL2D_helper(dst, tmp); | |
8482 %} | |
8483 %} | |
8484 | |
8485 //----------- | |
8486 // Long to Float conversion using V8 opcodes. | |
8487 // Still useful because cheetah traps and becomes | |
8488 // amazingly slow for some common numbers. | |
8489 | |
8490 // Long to Float conversion using fast fxtof | |
8491 instruct convL2F_helper(regF dst, regD tmp) %{ | |
8492 effect(DEF dst, USE tmp); | |
8493 size(4); | |
8494 format %{ "FXTOS $tmp,$dst" %} | |
8495 opcode(Assembler::fpop1_op3, Assembler::arith_op, Assembler::fxtos_opf); | |
8496 ins_encode(form3_opf_rs2D_rdF(tmp, dst)); | |
8497 ins_pipe(fcvtL2F); | |
8498 %} | |
8499 | |
8500 instruct convL2F_reg_fast_fxtof(regF dst, stackSlotL src) %{ | |
8501 match(Set dst (ConvL2F src)); | |
8502 ins_cost(DEFAULT_COST + MEMORY_REF_COST); | |
8503 expand %{ | |
8504 regD tmp; | |
8505 stkL_to_regD(tmp, src); | |
8506 convL2F_helper(dst, tmp); | |
8507 %} | |
8508 %} | |
8509 //----------- | |
8510 | |
8511 instruct convL2I_reg(iRegI dst, iRegL src) %{ | |
8512 match(Set dst (ConvL2I src)); | |
8513 #ifndef _LP64 | |
8514 format %{ "MOV $src.lo,$dst\t! long->int" %} | |
8515 ins_encode( form3_g0_rs2_rd_move_lo2( src, dst ) ); | |
8516 ins_pipe(ialu_move_reg_I_to_L); | |
8517 #else | |
8518 size(4); | |
8519 format %{ "SRA $src,R_G0,$dst\t! long->int" %} | |
8520 ins_encode( form3_rs1_rd_signextend_lo1( src, dst ) ); | |
8521 ins_pipe(ialu_reg); | |
8522 #endif | |
8523 %} | |
8524 | |
8525 // Register Shift Right Immediate | |
8526 instruct shrL_reg_imm6_L2I(iRegI dst, iRegL src, immI_32_63 cnt) %{ | |
8527 match(Set dst (ConvL2I (RShiftL src cnt))); | |
8528 | |
8529 size(4); | |
8530 format %{ "SRAX $src,$cnt,$dst" %} | |
8531 opcode(Assembler::srax_op3, Assembler::arith_op); | |
8532 ins_encode( form3_sd_rs1_imm6_rd( src, cnt, dst ) ); | |
8533 ins_pipe(ialu_reg_imm); | |
8534 %} | |
8535 | |
8536 // Replicate scalar to packed byte values in Double register | |
8537 instruct Repl8B_reg_helper(iRegL dst, iRegI src) %{ | |
8538 effect(DEF dst, USE src); | |
8539 format %{ "SLLX $src,56,$dst\n\t" | |
8540 "SRLX $dst, 8,O7\n\t" | |
8541 "OR $dst,O7,$dst\n\t" | |
8542 "SRLX $dst,16,O7\n\t" | |
8543 "OR $dst,O7,$dst\n\t" | |
8544 "SRLX $dst,32,O7\n\t" | |
8545 "OR $dst,O7,$dst\t! replicate8B" %} | |
8546 ins_encode( enc_repl8b(src, dst)); | |
8547 ins_pipe(ialu_reg); | |
8548 %} | |
8549 | |
8550 // Replicate scalar to packed byte values in Double register | |
8551 instruct Repl8B_reg(stackSlotD dst, iRegI src) %{ | |
8552 match(Set dst (Replicate8B src)); | |
8553 expand %{ | |
8554 iRegL tmp; | |
8555 Repl8B_reg_helper(tmp, src); | |
8556 regL_to_stkD(dst, tmp); | |
8557 %} | |
8558 %} | |
8559 | |
8560 // Replicate scalar constant to packed byte values in Double register | |
8561 instruct Repl8B_immI(regD dst, immI13 src, o7RegP tmp) %{ | |
8562 match(Set dst (Replicate8B src)); | |
8563 #ifdef _LP64 | |
8564 size(36); | |
8565 #else | |
8566 size(8); | |
8567 #endif | |
8568 format %{ "SETHI hi(&Repl8($src)),$tmp\t!get Repl8B($src) from table\n\t" | |
8569 "LDDF [$tmp+lo(&Repl8($src))],$dst" %} | |
8570 ins_encode( LdReplImmI(src, dst, tmp, (8), (1)) ); | |
8571 ins_pipe(loadConFD); | |
8572 %} | |
8573 | |
8574 // Replicate scalar to packed char values into stack slot | |
8575 instruct Repl4C_reg_helper(iRegL dst, iRegI src) %{ | |
8576 effect(DEF dst, USE src); | |
8577 format %{ "SLLX $src,48,$dst\n\t" | |
8578 "SRLX $dst,16,O7\n\t" | |
8579 "OR $dst,O7,$dst\n\t" | |
8580 "SRLX $dst,32,O7\n\t" | |
8581 "OR $dst,O7,$dst\t! replicate4C" %} | |
8582 ins_encode( enc_repl4s(src, dst) ); | |
8583 ins_pipe(ialu_reg); | |
8584 %} | |
8585 | |
8586 // Replicate scalar to packed char values into stack slot | |
8587 instruct Repl4C_reg(stackSlotD dst, iRegI src) %{ | |
8588 match(Set dst (Replicate4C src)); | |
8589 expand %{ | |
8590 iRegL tmp; | |
8591 Repl4C_reg_helper(tmp, src); | |
8592 regL_to_stkD(dst, tmp); | |
8593 %} | |
8594 %} | |
8595 | |
8596 // Replicate scalar constant to packed char values in Double register | |
8597 instruct Repl4C_immI(regD dst, immI src, o7RegP tmp) %{ | |
8598 match(Set dst (Replicate4C src)); | |
8599 #ifdef _LP64 | |
8600 size(36); | |
8601 #else | |
8602 size(8); | |
8603 #endif | |
8604 format %{ "SETHI hi(&Repl4($src)),$tmp\t!get Repl4C($src) from table\n\t" | |
8605 "LDDF [$tmp+lo(&Repl4($src))],$dst" %} | |
8606 ins_encode( LdReplImmI(src, dst, tmp, (4), (2)) ); | |
8607 ins_pipe(loadConFD); | |
8608 %} | |
8609 | |
8610 // Replicate scalar to packed short values into stack slot | |
8611 instruct Repl4S_reg_helper(iRegL dst, iRegI src) %{ | |
8612 effect(DEF dst, USE src); | |
8613 format %{ "SLLX $src,48,$dst\n\t" | |
8614 "SRLX $dst,16,O7\n\t" | |
8615 "OR $dst,O7,$dst\n\t" | |
8616 "SRLX $dst,32,O7\n\t" | |
8617 "OR $dst,O7,$dst\t! replicate4S" %} | |
8618 ins_encode( enc_repl4s(src, dst) ); | |
8619 ins_pipe(ialu_reg); | |
8620 %} | |
8621 | |
8622 // Replicate scalar to packed short values into stack slot | |
8623 instruct Repl4S_reg(stackSlotD dst, iRegI src) %{ | |
8624 match(Set dst (Replicate4S src)); | |
8625 expand %{ | |
8626 iRegL tmp; | |
8627 Repl4S_reg_helper(tmp, src); | |
8628 regL_to_stkD(dst, tmp); | |
8629 %} | |
8630 %} | |
8631 | |
8632 // Replicate scalar constant to packed short values in Double register | |
8633 instruct Repl4S_immI(regD dst, immI src, o7RegP tmp) %{ | |
8634 match(Set dst (Replicate4S src)); | |
8635 #ifdef _LP64 | |
8636 size(36); | |
8637 #else | |
8638 size(8); | |
8639 #endif | |
8640 format %{ "SETHI hi(&Repl4($src)),$tmp\t!get Repl4S($src) from table\n\t" | |
8641 "LDDF [$tmp+lo(&Repl4($src))],$dst" %} | |
8642 ins_encode( LdReplImmI(src, dst, tmp, (4), (2)) ); | |
8643 ins_pipe(loadConFD); | |
8644 %} | |
8645 | |
8646 // Replicate scalar to packed int values in Double register | |
8647 instruct Repl2I_reg_helper(iRegL dst, iRegI src) %{ | |
8648 effect(DEF dst, USE src); | |
8649 format %{ "SLLX $src,32,$dst\n\t" | |
8650 "SRLX $dst,32,O7\n\t" | |
8651 "OR $dst,O7,$dst\t! replicate2I" %} | |
8652 ins_encode( enc_repl2i(src, dst)); | |
8653 ins_pipe(ialu_reg); | |
8654 %} | |
8655 | |
8656 // Replicate scalar to packed int values in Double register | |
8657 instruct Repl2I_reg(stackSlotD dst, iRegI src) %{ | |
8658 match(Set dst (Replicate2I src)); | |
8659 expand %{ | |
8660 iRegL tmp; | |
8661 Repl2I_reg_helper(tmp, src); | |
8662 regL_to_stkD(dst, tmp); | |
8663 %} | |
8664 %} | |
8665 | |
8666 // Replicate scalar zero constant to packed int values in Double register | |
8667 instruct Repl2I_immI(regD dst, immI src, o7RegP tmp) %{ | |
8668 match(Set dst (Replicate2I src)); | |
8669 #ifdef _LP64 | |
8670 size(36); | |
8671 #else | |
8672 size(8); | |
8673 #endif | |
8674 format %{ "SETHI hi(&Repl2($src)),$tmp\t!get Repl2I($src) from table\n\t" | |
8675 "LDDF [$tmp+lo(&Repl2($src))],$dst" %} | |
8676 ins_encode( LdReplImmI(src, dst, tmp, (2), (4)) ); | |
8677 ins_pipe(loadConFD); | |
8678 %} | |
8679 | |
8680 //----------Control Flow Instructions------------------------------------------ | |
8681 // Compare Instructions | |
8682 // Compare Integers | |
8683 instruct compI_iReg(flagsReg icc, iRegI op1, iRegI op2) %{ | |
8684 match(Set icc (CmpI op1 op2)); | |
8685 effect( DEF icc, USE op1, USE op2 ); | |
8686 | |
8687 size(4); | |
8688 format %{ "CMP $op1,$op2" %} | |
8689 opcode(Assembler::subcc_op3, Assembler::arith_op); | |
8690 ins_encode( form3_rs1_rs2_rd( op1, op2, R_G0 ) ); | |
8691 ins_pipe(ialu_cconly_reg_reg); | |
8692 %} | |
8693 | |
8694 instruct compU_iReg(flagsRegU icc, iRegI op1, iRegI op2) %{ | |
8695 match(Set icc (CmpU op1 op2)); | |
8696 | |
8697 size(4); | |
8698 format %{ "CMP $op1,$op2\t! unsigned" %} | |
8699 opcode(Assembler::subcc_op3, Assembler::arith_op); | |
8700 ins_encode( form3_rs1_rs2_rd( op1, op2, R_G0 ) ); | |
8701 ins_pipe(ialu_cconly_reg_reg); | |
8702 %} | |
8703 | |
8704 instruct compI_iReg_imm13(flagsReg icc, iRegI op1, immI13 op2) %{ | |
8705 match(Set icc (CmpI op1 op2)); | |
8706 effect( DEF icc, USE op1 ); | |
8707 | |
8708 size(4); | |
8709 format %{ "CMP $op1,$op2" %} | |
8710 opcode(Assembler::subcc_op3, Assembler::arith_op); | |
8711 ins_encode( form3_rs1_simm13_rd( op1, op2, R_G0 ) ); | |
8712 ins_pipe(ialu_cconly_reg_imm); | |
8713 %} | |
8714 | |
8715 instruct testI_reg_reg( flagsReg icc, iRegI op1, iRegI op2, immI0 zero ) %{ | |
8716 match(Set icc (CmpI (AndI op1 op2) zero)); | |
8717 | |
8718 size(4); | |
8719 format %{ "BTST $op2,$op1" %} | |
8720 opcode(Assembler::andcc_op3, Assembler::arith_op); | |
8721 ins_encode( form3_rs1_rs2_rd( op1, op2, R_G0 ) ); | |
8722 ins_pipe(ialu_cconly_reg_reg_zero); | |
8723 %} | |
8724 | |
8725 instruct testI_reg_imm( flagsReg icc, iRegI op1, immI13 op2, immI0 zero ) %{ | |
8726 match(Set icc (CmpI (AndI op1 op2) zero)); | |
8727 | |
8728 size(4); | |
8729 format %{ "BTST $op2,$op1" %} | |
8730 opcode(Assembler::andcc_op3, Assembler::arith_op); | |
8731 ins_encode( form3_rs1_simm13_rd( op1, op2, R_G0 ) ); | |
8732 ins_pipe(ialu_cconly_reg_imm_zero); | |
8733 %} | |
8734 | |
8735 instruct compL_reg_reg(flagsRegL xcc, iRegL op1, iRegL op2 ) %{ | |
8736 match(Set xcc (CmpL op1 op2)); | |
8737 effect( DEF xcc, USE op1, USE op2 ); | |
8738 | |
8739 size(4); | |
8740 format %{ "CMP $op1,$op2\t\t! long" %} | |
8741 opcode(Assembler::subcc_op3, Assembler::arith_op); | |
8742 ins_encode( form3_rs1_rs2_rd( op1, op2, R_G0 ) ); | |
8743 ins_pipe(ialu_cconly_reg_reg); | |
8744 %} | |
8745 | |
8746 instruct compL_reg_con(flagsRegL xcc, iRegL op1, immL13 con) %{ | |
8747 match(Set xcc (CmpL op1 con)); | |
8748 effect( DEF xcc, USE op1, USE con ); | |
8749 | |
8750 size(4); | |
8751 format %{ "CMP $op1,$con\t\t! long" %} | |
8752 opcode(Assembler::subcc_op3, Assembler::arith_op); | |
8753 ins_encode( form3_rs1_simm13_rd( op1, con, R_G0 ) ); | |
8754 ins_pipe(ialu_cconly_reg_reg); | |
8755 %} | |
8756 | |
8757 instruct testL_reg_reg(flagsRegL xcc, iRegL op1, iRegL op2, immL0 zero) %{ | |
8758 match(Set xcc (CmpL (AndL op1 op2) zero)); | |
8759 effect( DEF xcc, USE op1, USE op2 ); | |
8760 | |
8761 size(4); | |
8762 format %{ "BTST $op1,$op2\t\t! long" %} | |
8763 opcode(Assembler::andcc_op3, Assembler::arith_op); | |
8764 ins_encode( form3_rs1_rs2_rd( op1, op2, R_G0 ) ); | |
8765 ins_pipe(ialu_cconly_reg_reg); | |
8766 %} | |
8767 | |
8768 // useful for checking the alignment of a pointer: | |
8769 instruct testL_reg_con(flagsRegL xcc, iRegL op1, immL13 con, immL0 zero) %{ | |
8770 match(Set xcc (CmpL (AndL op1 con) zero)); | |
8771 effect( DEF xcc, USE op1, USE con ); | |
8772 | |
8773 size(4); | |
8774 format %{ "BTST $op1,$con\t\t! long" %} | |
8775 opcode(Assembler::andcc_op3, Assembler::arith_op); | |
8776 ins_encode( form3_rs1_simm13_rd( op1, con, R_G0 ) ); | |
8777 ins_pipe(ialu_cconly_reg_reg); | |
8778 %} | |
8779 | |
8780 instruct compU_iReg_imm13(flagsRegU icc, iRegI op1, immU13 op2 ) %{ | |
8781 match(Set icc (CmpU op1 op2)); | |
8782 | |
8783 size(4); | |
8784 format %{ "CMP $op1,$op2\t! unsigned" %} | |
8785 opcode(Assembler::subcc_op3, Assembler::arith_op); | |
8786 ins_encode( form3_rs1_simm13_rd( op1, op2, R_G0 ) ); | |
8787 ins_pipe(ialu_cconly_reg_imm); | |
8788 %} | |
8789 | |
8790 // Compare Pointers | |
8791 instruct compP_iRegP(flagsRegP pcc, iRegP op1, iRegP op2 ) %{ | |
8792 match(Set pcc (CmpP op1 op2)); | |
8793 | |
8794 size(4); | |
8795 format %{ "CMP $op1,$op2\t! ptr" %} | |
8796 opcode(Assembler::subcc_op3, Assembler::arith_op); | |
8797 ins_encode( form3_rs1_rs2_rd( op1, op2, R_G0 ) ); | |
8798 ins_pipe(ialu_cconly_reg_reg); | |
8799 %} | |
8800 | |
8801 instruct compP_iRegP_imm13(flagsRegP pcc, iRegP op1, immP13 op2 ) %{ | |
8802 match(Set pcc (CmpP op1 op2)); | |
8803 | |
8804 size(4); | |
8805 format %{ "CMP $op1,$op2\t! ptr" %} | |
8806 opcode(Assembler::subcc_op3, Assembler::arith_op); | |
8807 ins_encode( form3_rs1_simm13_rd( op1, op2, R_G0 ) ); | |
8808 ins_pipe(ialu_cconly_reg_imm); | |
8809 %} | |
8810 | |
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8811 // Compare Narrow oops |
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8812 instruct compN_iRegN(flagsReg icc, iRegN op1, iRegN op2 ) %{ |
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8813 match(Set icc (CmpN op1 op2)); |
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8814 |
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8815 size(4); |
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8816 format %{ "CMP $op1,$op2\t! compressed ptr" %} |
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8817 opcode(Assembler::subcc_op3, Assembler::arith_op); |
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8818 ins_encode( form3_rs1_rs2_rd( op1, op2, R_G0 ) ); |
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8819 ins_pipe(ialu_cconly_reg_reg); |
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8820 %} |
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8821 |
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8822 instruct compN_iRegN_immN0(flagsReg icc, iRegN op1, immN0 op2 ) %{ |
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8823 match(Set icc (CmpN op1 op2)); |
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8824 |
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8825 size(4); |
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8826 format %{ "CMP $op1,$op2\t! compressed ptr" %} |
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8827 opcode(Assembler::subcc_op3, Assembler::arith_op); |
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8828 ins_encode( form3_rs1_simm13_rd( op1, op2, R_G0 ) ); |
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8829 ins_pipe(ialu_cconly_reg_imm); |
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8830 %} |
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8831 |
0 | 8832 //----------Max and Min-------------------------------------------------------- |
8833 // Min Instructions | |
8834 // Conditional move for min | |
8835 instruct cmovI_reg_lt( iRegI op2, iRegI op1, flagsReg icc ) %{ | |
8836 effect( USE_DEF op2, USE op1, USE icc ); | |
8837 | |
8838 size(4); | |
8839 format %{ "MOVlt icc,$op1,$op2\t! min" %} | |
8840 opcode(Assembler::less); | |
8841 ins_encode( enc_cmov_reg_minmax(op2,op1) ); | |
8842 ins_pipe(ialu_reg_flags); | |
8843 %} | |
8844 | |
8845 // Min Register with Register. | |
8846 instruct minI_eReg(iRegI op1, iRegI op2) %{ | |
8847 match(Set op2 (MinI op1 op2)); | |
8848 ins_cost(DEFAULT_COST*2); | |
8849 expand %{ | |
8850 flagsReg icc; | |
8851 compI_iReg(icc,op1,op2); | |
8852 cmovI_reg_lt(op2,op1,icc); | |
8853 %} | |
8854 %} | |
8855 | |
8856 // Max Instructions | |
8857 // Conditional move for max | |
8858 instruct cmovI_reg_gt( iRegI op2, iRegI op1, flagsReg icc ) %{ | |
8859 effect( USE_DEF op2, USE op1, USE icc ); | |
8860 format %{ "MOVgt icc,$op1,$op2\t! max" %} | |
8861 opcode(Assembler::greater); | |
8862 ins_encode( enc_cmov_reg_minmax(op2,op1) ); | |
8863 ins_pipe(ialu_reg_flags); | |
8864 %} | |
8865 | |
8866 // Max Register with Register | |
8867 instruct maxI_eReg(iRegI op1, iRegI op2) %{ | |
8868 match(Set op2 (MaxI op1 op2)); | |
8869 ins_cost(DEFAULT_COST*2); | |
8870 expand %{ | |
8871 flagsReg icc; | |
8872 compI_iReg(icc,op1,op2); | |
8873 cmovI_reg_gt(op2,op1,icc); | |
8874 %} | |
8875 %} | |
8876 | |
8877 | |
8878 //----------Float Compares---------------------------------------------------- | |
8879 // Compare floating, generate condition code | |
8880 instruct cmpF_cc(flagsRegF fcc, regF src1, regF src2) %{ | |
8881 match(Set fcc (CmpF src1 src2)); | |
8882 | |
8883 size(4); | |
8884 format %{ "FCMPs $fcc,$src1,$src2" %} | |
8885 opcode(Assembler::fpop2_op3, Assembler::arith_op, Assembler::fcmps_opf); | |
8886 ins_encode( form3_opf_rs1F_rs2F_fcc( src1, src2, fcc ) ); | |
8887 ins_pipe(faddF_fcc_reg_reg_zero); | |
8888 %} | |
8889 | |
8890 instruct cmpD_cc(flagsRegF fcc, regD src1, regD src2) %{ | |
8891 match(Set fcc (CmpD src1 src2)); | |
8892 | |
8893 size(4); | |
8894 format %{ "FCMPd $fcc,$src1,$src2" %} | |
8895 opcode(Assembler::fpop2_op3, Assembler::arith_op, Assembler::fcmpd_opf); | |
8896 ins_encode( form3_opf_rs1D_rs2D_fcc( src1, src2, fcc ) ); | |
8897 ins_pipe(faddD_fcc_reg_reg_zero); | |
8898 %} | |
8899 | |
8900 | |
8901 // Compare floating, generate -1,0,1 | |
8902 instruct cmpF_reg(iRegI dst, regF src1, regF src2, flagsRegF0 fcc0) %{ | |
8903 match(Set dst (CmpF3 src1 src2)); | |
8904 effect(KILL fcc0); | |
8905 ins_cost(DEFAULT_COST*3+BRANCH_COST*3); | |
8906 format %{ "fcmpl $dst,$src1,$src2" %} | |
8907 // Primary = float | |
8908 opcode( true ); | |
8909 ins_encode( floating_cmp( dst, src1, src2 ) ); | |
8910 ins_pipe( floating_cmp ); | |
8911 %} | |
8912 | |
8913 instruct cmpD_reg(iRegI dst, regD src1, regD src2, flagsRegF0 fcc0) %{ | |
8914 match(Set dst (CmpD3 src1 src2)); | |
8915 effect(KILL fcc0); | |
8916 ins_cost(DEFAULT_COST*3+BRANCH_COST*3); | |
8917 format %{ "dcmpl $dst,$src1,$src2" %} | |
8918 // Primary = double (not float) | |
8919 opcode( false ); | |
8920 ins_encode( floating_cmp( dst, src1, src2 ) ); | |
8921 ins_pipe( floating_cmp ); | |
8922 %} | |
8923 | |
8924 //----------Branches--------------------------------------------------------- | |
8925 // Jump | |
8926 // (compare 'operand indIndex' and 'instruct addP_reg_reg' above) | |
8927 instruct jumpXtnd(iRegX switch_val, o7RegI table) %{ | |
8928 match(Jump switch_val); | |
8929 | |
8930 ins_cost(350); | |
8931 | |
8932 format %{ "SETHI [hi(table_base)],O7\n\t" | |
8933 "ADD O7, lo(table_base), O7\n\t" | |
8934 "LD [O7+$switch_val], O7\n\t" | |
8935 "JUMP O7" | |
8936 %} | |
8937 ins_encode( jump_enc( switch_val, table) ); | |
8938 ins_pc_relative(1); | |
8939 ins_pipe(ialu_reg_reg); | |
8940 %} | |
8941 | |
8942 // Direct Branch. Use V8 version with longer range. | |
8943 instruct branch(label labl) %{ | |
8944 match(Goto); | |
8945 effect(USE labl); | |
8946 | |
8947 size(8); | |
8948 ins_cost(BRANCH_COST); | |
8949 format %{ "BA $labl" %} | |
8950 // Prim = bits 24-22, Secnd = bits 31-30, Tert = cond | |
8951 opcode(Assembler::br_op2, Assembler::branch_op, Assembler::always); | |
8952 ins_encode( enc_ba( labl ) ); | |
8953 ins_pc_relative(1); | |
8954 ins_pipe(br); | |
8955 %} | |
8956 | |
8957 // Conditional Direct Branch | |
8958 instruct branchCon(cmpOp cmp, flagsReg icc, label labl) %{ | |
8959 match(If cmp icc); | |
8960 effect(USE labl); | |
8961 | |
8962 size(8); | |
8963 ins_cost(BRANCH_COST); | |
8964 format %{ "BP$cmp $icc,$labl" %} | |
8965 // Prim = bits 24-22, Secnd = bits 31-30 | |
8966 ins_encode( enc_bp( labl, cmp, icc ) ); | |
8967 ins_pc_relative(1); | |
8968 ins_pipe(br_cc); | |
8969 %} | |
8970 | |
8971 // Branch-on-register tests all 64 bits. We assume that values | |
8972 // in 64-bit registers always remains zero or sign extended | |
8973 // unless our code munges the high bits. Interrupts can chop | |
8974 // the high order bits to zero or sign at any time. | |
8975 instruct branchCon_regI(cmpOp_reg cmp, iRegI op1, immI0 zero, label labl) %{ | |
8976 match(If cmp (CmpI op1 zero)); | |
8977 predicate(can_branch_register(_kids[0]->_leaf, _kids[1]->_leaf)); | |
8978 effect(USE labl); | |
8979 | |
8980 size(8); | |
8981 ins_cost(BRANCH_COST); | |
8982 format %{ "BR$cmp $op1,$labl" %} | |
8983 ins_encode( enc_bpr( labl, cmp, op1 ) ); | |
8984 ins_pc_relative(1); | |
8985 ins_pipe(br_reg); | |
8986 %} | |
8987 | |
8988 instruct branchCon_regP(cmpOp_reg cmp, iRegP op1, immP0 null, label labl) %{ | |
8989 match(If cmp (CmpP op1 null)); | |
8990 predicate(can_branch_register(_kids[0]->_leaf, _kids[1]->_leaf)); | |
8991 effect(USE labl); | |
8992 | |
8993 size(8); | |
8994 ins_cost(BRANCH_COST); | |
8995 format %{ "BR$cmp $op1,$labl" %} | |
8996 ins_encode( enc_bpr( labl, cmp, op1 ) ); | |
8997 ins_pc_relative(1); | |
8998 ins_pipe(br_reg); | |
8999 %} | |
9000 | |
9001 instruct branchCon_regL(cmpOp_reg cmp, iRegL op1, immL0 zero, label labl) %{ | |
9002 match(If cmp (CmpL op1 zero)); | |
9003 predicate(can_branch_register(_kids[0]->_leaf, _kids[1]->_leaf)); | |
9004 effect(USE labl); | |
9005 | |
9006 size(8); | |
9007 ins_cost(BRANCH_COST); | |
9008 format %{ "BR$cmp $op1,$labl" %} | |
9009 ins_encode( enc_bpr( labl, cmp, op1 ) ); | |
9010 ins_pc_relative(1); | |
9011 ins_pipe(br_reg); | |
9012 %} | |
9013 | |
9014 instruct branchConU(cmpOpU cmp, flagsRegU icc, label labl) %{ | |
9015 match(If cmp icc); | |
9016 effect(USE labl); | |
9017 | |
9018 format %{ "BP$cmp $icc,$labl" %} | |
9019 // Prim = bits 24-22, Secnd = bits 31-30 | |
9020 ins_encode( enc_bp( labl, cmp, icc ) ); | |
9021 ins_pc_relative(1); | |
9022 ins_pipe(br_cc); | |
9023 %} | |
9024 | |
9025 instruct branchConP(cmpOpP cmp, flagsRegP pcc, label labl) %{ | |
9026 match(If cmp pcc); | |
9027 effect(USE labl); | |
9028 | |
9029 size(8); | |
9030 ins_cost(BRANCH_COST); | |
9031 format %{ "BP$cmp $pcc,$labl" %} | |
9032 // Prim = bits 24-22, Secnd = bits 31-30 | |
9033 ins_encode( enc_bpx( labl, cmp, pcc ) ); | |
9034 ins_pc_relative(1); | |
9035 ins_pipe(br_cc); | |
9036 %} | |
9037 | |
9038 instruct branchConF(cmpOpF cmp, flagsRegF fcc, label labl) %{ | |
9039 match(If cmp fcc); | |
9040 effect(USE labl); | |
9041 | |
9042 size(8); | |
9043 ins_cost(BRANCH_COST); | |
9044 format %{ "FBP$cmp $fcc,$labl" %} | |
9045 // Prim = bits 24-22, Secnd = bits 31-30 | |
9046 ins_encode( enc_fbp( labl, cmp, fcc ) ); | |
9047 ins_pc_relative(1); | |
9048 ins_pipe(br_fcc); | |
9049 %} | |
9050 | |
9051 instruct branchLoopEnd(cmpOp cmp, flagsReg icc, label labl) %{ | |
9052 match(CountedLoopEnd cmp icc); | |
9053 effect(USE labl); | |
9054 | |
9055 size(8); | |
9056 ins_cost(BRANCH_COST); | |
9057 format %{ "BP$cmp $icc,$labl\t! Loop end" %} | |
9058 // Prim = bits 24-22, Secnd = bits 31-30 | |
9059 ins_encode( enc_bp( labl, cmp, icc ) ); | |
9060 ins_pc_relative(1); | |
9061 ins_pipe(br_cc); | |
9062 %} | |
9063 | |
9064 instruct branchLoopEndU(cmpOpU cmp, flagsRegU icc, label labl) %{ | |
9065 match(CountedLoopEnd cmp icc); | |
9066 effect(USE labl); | |
9067 | |
9068 size(8); | |
9069 ins_cost(BRANCH_COST); | |
9070 format %{ "BP$cmp $icc,$labl\t! Loop end" %} | |
9071 // Prim = bits 24-22, Secnd = bits 31-30 | |
9072 ins_encode( enc_bp( labl, cmp, icc ) ); | |
9073 ins_pc_relative(1); | |
9074 ins_pipe(br_cc); | |
9075 %} | |
9076 | |
9077 // ============================================================================ | |
9078 // Long Compare | |
9079 // | |
9080 // Currently we hold longs in 2 registers. Comparing such values efficiently | |
9081 // is tricky. The flavor of compare used depends on whether we are testing | |
9082 // for LT, LE, or EQ. For a simple LT test we can check just the sign bit. | |
9083 // The GE test is the negated LT test. The LE test can be had by commuting | |
9084 // the operands (yielding a GE test) and then negating; negate again for the | |
9085 // GT test. The EQ test is done by ORcc'ing the high and low halves, and the | |
9086 // NE test is negated from that. | |
9087 | |
9088 // Due to a shortcoming in the ADLC, it mixes up expressions like: | |
9089 // (foo (CmpI (CmpL X Y) 0)) and (bar (CmpI (CmpL X 0L) 0)). Note the | |
9090 // difference between 'Y' and '0L'. The tree-matches for the CmpI sections | |
9091 // are collapsed internally in the ADLC's dfa-gen code. The match for | |
9092 // (CmpI (CmpL X Y) 0) is silently replaced with (CmpI (CmpL X 0L) 0) and the | |
9093 // foo match ends up with the wrong leaf. One fix is to not match both | |
9094 // reg-reg and reg-zero forms of long-compare. This is unfortunate because | |
9095 // both forms beat the trinary form of long-compare and both are very useful | |
9096 // on Intel which has so few registers. | |
9097 | |
9098 instruct branchCon_long(cmpOp cmp, flagsRegL xcc, label labl) %{ | |
9099 match(If cmp xcc); | |
9100 effect(USE labl); | |
9101 | |
9102 size(8); | |
9103 ins_cost(BRANCH_COST); | |
9104 format %{ "BP$cmp $xcc,$labl" %} | |
9105 // Prim = bits 24-22, Secnd = bits 31-30 | |
9106 ins_encode( enc_bpl( labl, cmp, xcc ) ); | |
9107 ins_pc_relative(1); | |
9108 ins_pipe(br_cc); | |
9109 %} | |
9110 | |
9111 // Manifest a CmpL3 result in an integer register. Very painful. | |
9112 // This is the test to avoid. | |
9113 instruct cmpL3_reg_reg(iRegI dst, iRegL src1, iRegL src2, flagsReg ccr ) %{ | |
9114 match(Set dst (CmpL3 src1 src2) ); | |
9115 effect( KILL ccr ); | |
9116 ins_cost(6*DEFAULT_COST); | |
9117 size(24); | |
9118 format %{ "CMP $src1,$src2\t\t! long\n" | |
9119 "\tBLT,a,pn done\n" | |
9120 "\tMOV -1,$dst\t! delay slot\n" | |
9121 "\tBGT,a,pn done\n" | |
9122 "\tMOV 1,$dst\t! delay slot\n" | |
9123 "\tCLR $dst\n" | |
9124 "done:" %} | |
9125 ins_encode( cmpl_flag(src1,src2,dst) ); | |
9126 ins_pipe(cmpL_reg); | |
9127 %} | |
9128 | |
9129 // Conditional move | |
9130 instruct cmovLL_reg(cmpOp cmp, flagsRegL xcc, iRegL dst, iRegL src) %{ | |
9131 match(Set dst (CMoveL (Binary cmp xcc) (Binary dst src))); | |
9132 ins_cost(150); | |
9133 format %{ "MOV$cmp $xcc,$src,$dst\t! long" %} | |
9134 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::xcc)) ); | |
9135 ins_pipe(ialu_reg); | |
9136 %} | |
9137 | |
9138 instruct cmovLL_imm(cmpOp cmp, flagsRegL xcc, iRegL dst, immL0 src) %{ | |
9139 match(Set dst (CMoveL (Binary cmp xcc) (Binary dst src))); | |
9140 ins_cost(140); | |
9141 format %{ "MOV$cmp $xcc,$src,$dst\t! long" %} | |
9142 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::xcc)) ); | |
9143 ins_pipe(ialu_imm); | |
9144 %} | |
9145 | |
9146 instruct cmovIL_reg(cmpOp cmp, flagsRegL xcc, iRegI dst, iRegI src) %{ | |
9147 match(Set dst (CMoveI (Binary cmp xcc) (Binary dst src))); | |
9148 ins_cost(150); | |
9149 format %{ "MOV$cmp $xcc,$src,$dst" %} | |
9150 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::xcc)) ); | |
9151 ins_pipe(ialu_reg); | |
9152 %} | |
9153 | |
9154 instruct cmovIL_imm(cmpOp cmp, flagsRegL xcc, iRegI dst, immI11 src) %{ | |
9155 match(Set dst (CMoveI (Binary cmp xcc) (Binary dst src))); | |
9156 ins_cost(140); | |
9157 format %{ "MOV$cmp $xcc,$src,$dst" %} | |
9158 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::xcc)) ); | |
9159 ins_pipe(ialu_imm); | |
9160 %} | |
9161 | |
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9162 instruct cmovNL_reg(cmpOp cmp, flagsRegL xcc, iRegN dst, iRegN src) %{ |
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9163 match(Set dst (CMoveN (Binary cmp xcc) (Binary dst src))); |
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9164 ins_cost(150); |
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9165 format %{ "MOV$cmp $xcc,$src,$dst" %} |
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9166 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::xcc)) ); |
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9167 ins_pipe(ialu_reg); |
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9168 %} |
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9169 |
0 | 9170 instruct cmovPL_reg(cmpOp cmp, flagsRegL xcc, iRegP dst, iRegP src) %{ |
9171 match(Set dst (CMoveP (Binary cmp xcc) (Binary dst src))); | |
9172 ins_cost(150); | |
9173 format %{ "MOV$cmp $xcc,$src,$dst" %} | |
9174 ins_encode( enc_cmov_reg(cmp,dst,src, (Assembler::xcc)) ); | |
9175 ins_pipe(ialu_reg); | |
9176 %} | |
9177 | |
9178 instruct cmovPL_imm(cmpOp cmp, flagsRegL xcc, iRegP dst, immP0 src) %{ | |
9179 match(Set dst (CMoveP (Binary cmp xcc) (Binary dst src))); | |
9180 ins_cost(140); | |
9181 format %{ "MOV$cmp $xcc,$src,$dst" %} | |
9182 ins_encode( enc_cmov_imm(cmp,dst,src, (Assembler::xcc)) ); | |
9183 ins_pipe(ialu_imm); | |
9184 %} | |
9185 | |
9186 instruct cmovFL_reg(cmpOp cmp, flagsRegL xcc, regF dst, regF src) %{ | |
9187 match(Set dst (CMoveF (Binary cmp xcc) (Binary dst src))); | |
9188 ins_cost(150); | |
9189 opcode(0x101); | |
9190 format %{ "FMOVS$cmp $xcc,$src,$dst" %} | |
9191 ins_encode( enc_cmovf_reg(cmp,dst,src, (Assembler::xcc)) ); | |
9192 ins_pipe(int_conditional_float_move); | |
9193 %} | |
9194 | |
9195 instruct cmovDL_reg(cmpOp cmp, flagsRegL xcc, regD dst, regD src) %{ | |
9196 match(Set dst (CMoveD (Binary cmp xcc) (Binary dst src))); | |
9197 ins_cost(150); | |
9198 opcode(0x102); | |
9199 format %{ "FMOVD$cmp $xcc,$src,$dst" %} | |
9200 ins_encode( enc_cmovf_reg(cmp,dst,src, (Assembler::xcc)) ); | |
9201 ins_pipe(int_conditional_float_move); | |
9202 %} | |
9203 | |
9204 // ============================================================================ | |
9205 // Safepoint Instruction | |
9206 instruct safePoint_poll(iRegP poll) %{ | |
9207 match(SafePoint poll); | |
9208 effect(USE poll); | |
9209 | |
9210 size(4); | |
9211 #ifdef _LP64 | |
9212 format %{ "LDX [$poll],R_G0\t! Safepoint: poll for GC" %} | |
9213 #else | |
9214 format %{ "LDUW [$poll],R_G0\t! Safepoint: poll for GC" %} | |
9215 #endif | |
9216 ins_encode %{ | |
9217 __ relocate(relocInfo::poll_type); | |
9218 __ ld_ptr($poll$$Register, 0, G0); | |
9219 %} | |
9220 ins_pipe(loadPollP); | |
9221 %} | |
9222 | |
9223 // ============================================================================ | |
9224 // Call Instructions | |
9225 // Call Java Static Instruction | |
9226 instruct CallStaticJavaDirect( method meth ) %{ | |
9227 match(CallStaticJava); | |
1567 | 9228 predicate(! ((CallStaticJavaNode*)n)->is_method_handle_invoke()); |
0 | 9229 effect(USE meth); |
9230 | |
9231 size(8); | |
9232 ins_cost(CALL_COST); | |
9233 format %{ "CALL,static ; NOP ==> " %} | |
9234 ins_encode( Java_Static_Call( meth ), call_epilog ); | |
9235 ins_pc_relative(1); | |
9236 ins_pipe(simple_call); | |
9237 %} | |
9238 | |
1567 | 9239 // Call Java Static Instruction (method handle version) |
9240 instruct CallStaticJavaHandle(method meth, l7RegP l7_mh_SP_save) %{ | |
9241 match(CallStaticJava); | |
9242 predicate(((CallStaticJavaNode*)n)->is_method_handle_invoke()); | |
9243 effect(USE meth, KILL l7_mh_SP_save); | |
9244 | |
9245 size(8); | |
9246 ins_cost(CALL_COST); | |
9247 format %{ "CALL,static/MethodHandle" %} | |
9248 ins_encode(preserve_SP, Java_Static_Call(meth), restore_SP, call_epilog); | |
9249 ins_pc_relative(1); | |
9250 ins_pipe(simple_call); | |
9251 %} | |
9252 | |
0 | 9253 // Call Java Dynamic Instruction |
9254 instruct CallDynamicJavaDirect( method meth ) %{ | |
9255 match(CallDynamicJava); | |
9256 effect(USE meth); | |
9257 | |
9258 ins_cost(CALL_COST); | |
9259 format %{ "SET (empty),R_G5\n\t" | |
9260 "CALL,dynamic ; NOP ==> " %} | |
9261 ins_encode( Java_Dynamic_Call( meth ), call_epilog ); | |
9262 ins_pc_relative(1); | |
9263 ins_pipe(call); | |
9264 %} | |
9265 | |
9266 // Call Runtime Instruction | |
9267 instruct CallRuntimeDirect(method meth, l7RegP l7) %{ | |
9268 match(CallRuntime); | |
9269 effect(USE meth, KILL l7); | |
9270 ins_cost(CALL_COST); | |
9271 format %{ "CALL,runtime" %} | |
9272 ins_encode( Java_To_Runtime( meth ), | |
9273 call_epilog, adjust_long_from_native_call ); | |
9274 ins_pc_relative(1); | |
9275 ins_pipe(simple_call); | |
9276 %} | |
9277 | |
9278 // Call runtime without safepoint - same as CallRuntime | |
9279 instruct CallLeafDirect(method meth, l7RegP l7) %{ | |
9280 match(CallLeaf); | |
9281 effect(USE meth, KILL l7); | |
9282 ins_cost(CALL_COST); | |
9283 format %{ "CALL,runtime leaf" %} | |
9284 ins_encode( Java_To_Runtime( meth ), | |
9285 call_epilog, | |
9286 adjust_long_from_native_call ); | |
9287 ins_pc_relative(1); | |
9288 ins_pipe(simple_call); | |
9289 %} | |
9290 | |
9291 // Call runtime without safepoint - same as CallLeaf | |
9292 instruct CallLeafNoFPDirect(method meth, l7RegP l7) %{ | |
9293 match(CallLeafNoFP); | |
9294 effect(USE meth, KILL l7); | |
9295 ins_cost(CALL_COST); | |
9296 format %{ "CALL,runtime leaf nofp" %} | |
9297 ins_encode( Java_To_Runtime( meth ), | |
9298 call_epilog, | |
9299 adjust_long_from_native_call ); | |
9300 ins_pc_relative(1); | |
9301 ins_pipe(simple_call); | |
9302 %} | |
9303 | |
9304 // Tail Call; Jump from runtime stub to Java code. | |
9305 // Also known as an 'interprocedural jump'. | |
9306 // Target of jump will eventually return to caller. | |
9307 // TailJump below removes the return address. | |
9308 instruct TailCalljmpInd(g3RegP jump_target, inline_cache_regP method_oop) %{ | |
9309 match(TailCall jump_target method_oop ); | |
9310 | |
9311 ins_cost(CALL_COST); | |
9312 format %{ "Jmp $jump_target ; NOP \t! $method_oop holds method oop" %} | |
9313 ins_encode(form_jmpl(jump_target)); | |
9314 ins_pipe(tail_call); | |
9315 %} | |
9316 | |
9317 | |
9318 // Return Instruction | |
9319 instruct Ret() %{ | |
9320 match(Return); | |
9321 | |
9322 // The epilogue node did the ret already. | |
9323 size(0); | |
9324 format %{ "! return" %} | |
9325 ins_encode(); | |
9326 ins_pipe(empty); | |
9327 %} | |
9328 | |
9329 | |
9330 // Tail Jump; remove the return address; jump to target. | |
9331 // TailCall above leaves the return address around. | |
9332 // TailJump is used in only one place, the rethrow_Java stub (fancy_jump=2). | |
9333 // ex_oop (Exception Oop) is needed in %o0 at the jump. As there would be a | |
9334 // "restore" before this instruction (in Epilogue), we need to materialize it | |
9335 // in %i0. | |
9336 instruct tailjmpInd(g1RegP jump_target, i0RegP ex_oop) %{ | |
9337 match( TailJump jump_target ex_oop ); | |
9338 ins_cost(CALL_COST); | |
9339 format %{ "! discard R_O7\n\t" | |
9340 "Jmp $jump_target ; ADD O7,8,O1 \t! $ex_oop holds exc. oop" %} | |
9341 ins_encode(form_jmpl_set_exception_pc(jump_target)); | |
9342 // opcode(Assembler::jmpl_op3, Assembler::arith_op); | |
9343 // The hack duplicates the exception oop into G3, so that CreateEx can use it there. | |
9344 // ins_encode( form3_rs1_simm13_rd( jump_target, 0x00, R_G0 ), move_return_pc_to_o1() ); | |
9345 ins_pipe(tail_call); | |
9346 %} | |
9347 | |
9348 // Create exception oop: created by stack-crawling runtime code. | |
9349 // Created exception is now available to this handler, and is setup | |
9350 // just prior to jumping to this handler. No code emitted. | |
9351 instruct CreateException( o0RegP ex_oop ) | |
9352 %{ | |
9353 match(Set ex_oop (CreateEx)); | |
9354 ins_cost(0); | |
9355 | |
9356 size(0); | |
9357 // use the following format syntax | |
9358 format %{ "! exception oop is in R_O0; no code emitted" %} | |
9359 ins_encode(); | |
9360 ins_pipe(empty); | |
9361 %} | |
9362 | |
9363 | |
9364 // Rethrow exception: | |
9365 // The exception oop will come in the first argument position. | |
9366 // Then JUMP (not call) to the rethrow stub code. | |
9367 instruct RethrowException() | |
9368 %{ | |
9369 match(Rethrow); | |
9370 ins_cost(CALL_COST); | |
9371 | |
9372 // use the following format syntax | |
9373 format %{ "Jmp rethrow_stub" %} | |
9374 ins_encode(enc_rethrow); | |
9375 ins_pipe(tail_call); | |
9376 %} | |
9377 | |
9378 | |
9379 // Die now | |
9380 instruct ShouldNotReachHere( ) | |
9381 %{ | |
9382 match(Halt); | |
9383 ins_cost(CALL_COST); | |
9384 | |
9385 size(4); | |
9386 // Use the following format syntax | |
9387 format %{ "ILLTRAP ; ShouldNotReachHere" %} | |
9388 ins_encode( form2_illtrap() ); | |
9389 ins_pipe(tail_call); | |
9390 %} | |
9391 | |
9392 // ============================================================================ | |
9393 // The 2nd slow-half of a subtype check. Scan the subklass's 2ndary superklass | |
9394 // array for an instance of the superklass. Set a hidden internal cache on a | |
9395 // hit (cache is checked with exposed code in gen_subtype_check()). Return | |
9396 // not zero for a miss or zero for a hit. The encoding ALSO sets flags. | |
9397 instruct partialSubtypeCheck( o0RegP index, o1RegP sub, o2RegP super, flagsRegP pcc, o7RegP o7 ) %{ | |
9398 match(Set index (PartialSubtypeCheck sub super)); | |
9399 effect( KILL pcc, KILL o7 ); | |
9400 ins_cost(DEFAULT_COST*10); | |
9401 format %{ "CALL PartialSubtypeCheck\n\tNOP" %} | |
9402 ins_encode( enc_PartialSubtypeCheck() ); | |
9403 ins_pipe(partial_subtype_check_pipe); | |
9404 %} | |
9405 | |
9406 instruct partialSubtypeCheck_vs_zero( flagsRegP pcc, o1RegP sub, o2RegP super, immP0 zero, o0RegP idx, o7RegP o7 ) %{ | |
9407 match(Set pcc (CmpP (PartialSubtypeCheck sub super) zero)); | |
9408 effect( KILL idx, KILL o7 ); | |
9409 ins_cost(DEFAULT_COST*10); | |
9410 format %{ "CALL PartialSubtypeCheck\n\tNOP\t# (sets condition codes)" %} | |
9411 ins_encode( enc_PartialSubtypeCheck() ); | |
9412 ins_pipe(partial_subtype_check_pipe); | |
9413 %} | |
9414 | |
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9415 |
0 | 9416 // ============================================================================ |
9417 // inlined locking and unlocking | |
9418 | |
9419 instruct cmpFastLock(flagsRegP pcc, iRegP object, iRegP box, iRegP scratch2, o7RegP scratch ) %{ | |
9420 match(Set pcc (FastLock object box)); | |
9421 | |
9422 effect(KILL scratch, TEMP scratch2); | |
9423 ins_cost(100); | |
9424 | |
9425 size(4*112); // conservative overestimation ... | |
9426 format %{ "FASTLOCK $object, $box; KILL $scratch, $scratch2, $box" %} | |
9427 ins_encode( Fast_Lock(object, box, scratch, scratch2) ); | |
9428 ins_pipe(long_memory_op); | |
9429 %} | |
9430 | |
9431 | |
9432 instruct cmpFastUnlock(flagsRegP pcc, iRegP object, iRegP box, iRegP scratch2, o7RegP scratch ) %{ | |
9433 match(Set pcc (FastUnlock object box)); | |
9434 effect(KILL scratch, TEMP scratch2); | |
9435 ins_cost(100); | |
9436 | |
9437 size(4*120); // conservative overestimation ... | |
9438 format %{ "FASTUNLOCK $object, $box; KILL $scratch, $scratch2, $box" %} | |
9439 ins_encode( Fast_Unlock(object, box, scratch, scratch2) ); | |
9440 ins_pipe(long_memory_op); | |
9441 %} | |
9442 | |
9443 // Count and Base registers are fixed because the allocator cannot | |
9444 // kill unknown registers. The encodings are generic. | |
9445 instruct clear_array(iRegX cnt, iRegP base, iRegX temp, Universe dummy, flagsReg ccr) %{ | |
9446 match(Set dummy (ClearArray cnt base)); | |
9447 effect(TEMP temp, KILL ccr); | |
9448 ins_cost(300); | |
9449 format %{ "MOV $cnt,$temp\n" | |
9450 "loop: SUBcc $temp,8,$temp\t! Count down a dword of bytes\n" | |
9451 " BRge loop\t\t! Clearing loop\n" | |
9452 " STX G0,[$base+$temp]\t! delay slot" %} | |
9453 ins_encode( enc_Clear_Array(cnt, base, temp) ); | |
9454 ins_pipe(long_memory_op); | |
9455 %} | |
9456 | |
986
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9457 instruct string_compare(o0RegP str1, o1RegP str2, g3RegI cnt1, g4RegI cnt2, notemp_iRegI result, |
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9458 o7RegI tmp, flagsReg ccr) %{ |
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9459 match(Set result (StrComp (Binary str1 cnt1) (Binary str2 cnt2))); |
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9460 effect(USE_KILL str1, USE_KILL str2, USE_KILL cnt1, USE_KILL cnt2, KILL ccr, KILL tmp); |
0 | 9461 ins_cost(300); |
986
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9462 format %{ "String Compare $str1,$cnt1,$str2,$cnt2 -> $result // KILL $tmp" %} |
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9463 ins_encode( enc_String_Compare(str1, str2, cnt1, cnt2, result) ); |
0 | 9464 ins_pipe(long_memory_op); |
9465 %} | |
9466 | |
986
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9467 instruct string_equals(o0RegP str1, o1RegP str2, g3RegI cnt, notemp_iRegI result, |
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9468 o7RegI tmp, flagsReg ccr) %{ |
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9469 match(Set result (StrEquals (Binary str1 str2) cnt)); |
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9470 effect(USE_KILL str1, USE_KILL str2, USE_KILL cnt, KILL tmp, KILL ccr); |
681 | 9471 ins_cost(300); |
986
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9472 format %{ "String Equals $str1,$str2,$cnt -> $result // KILL $tmp" %} |
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9473 ins_encode( enc_String_Equals(str1, str2, cnt, result) ); |
681 | 9474 ins_pipe(long_memory_op); |
9475 %} | |
9476 | |
986
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9477 instruct array_equals(o0RegP ary1, o1RegP ary2, g3RegI tmp1, notemp_iRegI result, |
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9478 o7RegI tmp2, flagsReg ccr) %{ |
681 | 9479 match(Set result (AryEq ary1 ary2)); |
9480 effect(USE_KILL ary1, USE_KILL ary2, KILL tmp1, KILL tmp2, KILL ccr); | |
9481 ins_cost(300); | |
986
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9482 format %{ "Array Equals $ary1,$ary2 -> $result // KILL $tmp1,$tmp2" %} |
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9483 ins_encode( enc_Array_Equals(ary1, ary2, tmp1, result)); |
681 | 9484 ins_pipe(long_memory_op); |
9485 %} | |
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9486 |
775
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9487 |
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9488 //---------- Zeros Count Instructions ------------------------------------------ |
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9489 |
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9490 instruct countLeadingZerosI(iRegI dst, iRegI src, iRegI tmp, flagsReg cr) %{ |
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9491 predicate(UsePopCountInstruction); // See Matcher::match_rule_supported |
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9492 match(Set dst (CountLeadingZerosI src)); |
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9493 effect(TEMP dst, TEMP tmp, KILL cr); |
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9494 |
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9495 // x |= (x >> 1); |
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9496 // x |= (x >> 2); |
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9497 // x |= (x >> 4); |
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9498 // x |= (x >> 8); |
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9499 // x |= (x >> 16); |
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9500 // return (WORDBITS - popc(x)); |
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9501 format %{ "SRL $src,1,$tmp\t! count leading zeros (int)\n\t" |
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9502 "SRL $src,0,$dst\t! 32-bit zero extend\n\t" |
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9503 "OR $dst,$tmp,$dst\n\t" |
775
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9504 "SRL $dst,2,$tmp\n\t" |
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9505 "OR $dst,$tmp,$dst\n\t" |
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9506 "SRL $dst,4,$tmp\n\t" |
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9507 "OR $dst,$tmp,$dst\n\t" |
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9508 "SRL $dst,8,$tmp\n\t" |
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9509 "OR $dst,$tmp,$dst\n\t" |
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9510 "SRL $dst,16,$tmp\n\t" |
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9511 "OR $dst,$tmp,$dst\n\t" |
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9512 "POPC $dst,$dst\n\t" |
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9513 "MOV 32,$tmp\n\t" |
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9514 "SUB $tmp,$dst,$dst" %} |
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9515 ins_encode %{ |
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9516 Register Rdst = $dst$$Register; |
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9517 Register Rsrc = $src$$Register; |
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6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9518 Register Rtmp = $tmp$$Register; |
1915
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9519 __ srl(Rsrc, 1, Rtmp); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9520 __ srl(Rsrc, 0, Rdst); |
1041
f875b4f472f7
6893554: SPECjvm2008 mpegaudio fails with SecurityException
twisti
parents:
1016
diff
changeset
|
9521 __ or3(Rdst, Rtmp, Rdst); |
1915
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9522 __ srl(Rdst, 2, Rtmp); |
775
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9523 __ or3(Rdst, Rtmp, Rdst); |
1915
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9524 __ srl(Rdst, 4, Rtmp); |
775
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9525 __ or3(Rdst, Rtmp, Rdst); |
1915
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9526 __ srl(Rdst, 8, Rtmp); |
775
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9527 __ or3(Rdst, Rtmp, Rdst); |
1915
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9528 __ srl(Rdst, 16, Rtmp); |
775
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9529 __ or3(Rdst, Rtmp, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9530 __ popc(Rdst, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9531 __ mov(BitsPerInt, Rtmp); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9532 __ sub(Rtmp, Rdst, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9533 %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9534 ins_pipe(ialu_reg); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9535 %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9536 |
1915
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9537 instruct countLeadingZerosL(iRegIsafe dst, iRegL src, iRegL tmp, flagsReg cr) %{ |
775
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9538 predicate(UsePopCountInstruction); // See Matcher::match_rule_supported |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9539 match(Set dst (CountLeadingZerosL src)); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9540 effect(TEMP dst, TEMP tmp, KILL cr); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9541 |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9542 // x |= (x >> 1); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9543 // x |= (x >> 2); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9544 // x |= (x >> 4); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9545 // x |= (x >> 8); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9546 // x |= (x >> 16); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9547 // x |= (x >> 32); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9548 // return (WORDBITS - popc(x)); |
1041
f875b4f472f7
6893554: SPECjvm2008 mpegaudio fails with SecurityException
twisti
parents:
1016
diff
changeset
|
9549 format %{ "SRLX $src,1,$tmp\t! count leading zeros (long)\n\t" |
775
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9550 "OR $src,$tmp,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9551 "SRLX $dst,2,$tmp\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9552 "OR $dst,$tmp,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9553 "SRLX $dst,4,$tmp\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9554 "OR $dst,$tmp,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9555 "SRLX $dst,8,$tmp\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9556 "OR $dst,$tmp,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9557 "SRLX $dst,16,$tmp\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9558 "OR $dst,$tmp,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9559 "SRLX $dst,32,$tmp\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9560 "OR $dst,$tmp,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9561 "POPC $dst,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9562 "MOV 64,$tmp\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9563 "SUB $tmp,$dst,$dst" %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9564 ins_encode %{ |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9565 Register Rdst = $dst$$Register; |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9566 Register Rsrc = $src$$Register; |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9567 Register Rtmp = $tmp$$Register; |
1915
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9568 __ srlx(Rsrc, 1, Rtmp); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9569 __ or3( Rsrc, Rtmp, Rdst); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9570 __ srlx(Rdst, 2, Rtmp); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9571 __ or3( Rdst, Rtmp, Rdst); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9572 __ srlx(Rdst, 4, Rtmp); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9573 __ or3( Rdst, Rtmp, Rdst); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9574 __ srlx(Rdst, 8, Rtmp); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9575 __ or3( Rdst, Rtmp, Rdst); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9576 __ srlx(Rdst, 16, Rtmp); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9577 __ or3( Rdst, Rtmp, Rdst); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9578 __ srlx(Rdst, 32, Rtmp); |
885e464e1a40
6996240: The BitSet.length method sometimes returns an index+1 value less than that of the highest bit set.
twisti
parents:
1914
diff
changeset
|
9579 __ or3( Rdst, Rtmp, Rdst); |
775
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9580 __ popc(Rdst, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9581 __ mov(BitsPerLong, Rtmp); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9582 __ sub(Rtmp, Rdst, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9583 %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9584 ins_pipe(ialu_reg); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9585 %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9586 |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9587 instruct countTrailingZerosI(iRegI dst, iRegI src, flagsReg cr) %{ |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9588 predicate(UsePopCountInstruction); // See Matcher::match_rule_supported |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9589 match(Set dst (CountTrailingZerosI src)); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9590 effect(TEMP dst, KILL cr); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9591 |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9592 // return popc(~x & (x - 1)); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9593 format %{ "SUB $src,1,$dst\t! count trailing zeros (int)\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9594 "ANDN $dst,$src,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9595 "SRL $dst,R_G0,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9596 "POPC $dst,$dst" %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9597 ins_encode %{ |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9598 Register Rdst = $dst$$Register; |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9599 Register Rsrc = $src$$Register; |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9600 __ sub(Rsrc, 1, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9601 __ andn(Rdst, Rsrc, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9602 __ srl(Rdst, G0, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9603 __ popc(Rdst, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9604 %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9605 ins_pipe(ialu_reg); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9606 %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9607 |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9608 instruct countTrailingZerosL(iRegI dst, iRegL src, flagsReg cr) %{ |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9609 predicate(UsePopCountInstruction); // See Matcher::match_rule_supported |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9610 match(Set dst (CountTrailingZerosL src)); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9611 effect(TEMP dst, KILL cr); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9612 |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9613 // return popc(~x & (x - 1)); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9614 format %{ "SUB $src,1,$dst\t! count trailing zeros (long)\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9615 "ANDN $dst,$src,$dst\n\t" |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9616 "POPC $dst,$dst" %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9617 ins_encode %{ |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9618 Register Rdst = $dst$$Register; |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9619 Register Rsrc = $src$$Register; |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9620 __ sub(Rsrc, 1, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9621 __ andn(Rdst, Rsrc, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9622 __ popc(Rdst, Rdst); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9623 %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9624 ins_pipe(ialu_reg); |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9625 %} |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9626 |
93c14e5562c4
6823354: Add intrinsics for {Integer,Long}.{numberOfLeadingZeros,numberOfTrailingZeros}()
twisti
parents:
732
diff
changeset
|
9627 |
643
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9628 //---------- Population Count Instructions ------------------------------------- |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9629 |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9630 instruct popCountI(iRegI dst, iRegI src) %{ |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9631 predicate(UsePopCountInstruction); |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9632 match(Set dst (PopCountI src)); |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9633 |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9634 format %{ "POPC $src, $dst" %} |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9635 ins_encode %{ |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9636 __ popc($src$$Register, $dst$$Register); |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9637 %} |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9638 ins_pipe(ialu_reg); |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9639 %} |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9640 |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9641 // Note: Long.bitCount(long) returns an int. |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9642 instruct popCountL(iRegI dst, iRegL src) %{ |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9643 predicate(UsePopCountInstruction); |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9644 match(Set dst (PopCountL src)); |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9645 |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9646 format %{ "POPC $src, $dst" %} |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9647 ins_encode %{ |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9648 __ popc($src$$Register, $dst$$Register); |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9649 %} |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9650 ins_pipe(ialu_reg); |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9651 %} |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9652 |
c771b7f43bbf
6378821: bitCount() should use POPC on SPARC processors and AMD+10h
twisti
parents:
642
diff
changeset
|
9653 |
0 | 9654 // ============================================================================ |
9655 //------------Bytes reverse-------------------------------------------------- | |
9656 | |
9657 instruct bytes_reverse_int(iRegI dst, stackSlotI src) %{ | |
9658 match(Set dst (ReverseBytesI src)); | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9659 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9660 // Op cost is artificially doubled to make sure that load or store |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9661 // instructions are preferred over this one which requires a spill |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9662 // onto a stack slot. |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9663 ins_cost(2*DEFAULT_COST + MEMORY_REF_COST); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9664 format %{ "LDUWA $src, $dst\t!asi=primary_little" %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9665 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9666 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9667 __ set($src$$disp + STACK_BIAS, O7); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9668 __ lduwa($src$$base$$Register, O7, Assembler::ASI_PRIMARY_LITTLE, $dst$$Register); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9669 %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9670 ins_pipe( iload_mem ); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9671 %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9672 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9673 instruct bytes_reverse_long(iRegL dst, stackSlotL src) %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9674 match(Set dst (ReverseBytesL src)); |
0 | 9675 |
9676 // Op cost is artificially doubled to make sure that load or store | |
9677 // instructions are preferred over this one which requires a spill | |
9678 // onto a stack slot. | |
9679 ins_cost(2*DEFAULT_COST + MEMORY_REF_COST); | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9680 format %{ "LDXA $src, $dst\t!asi=primary_little" %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9681 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9682 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9683 __ set($src$$disp + STACK_BIAS, O7); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9684 __ ldxa($src$$base$$Register, O7, Assembler::ASI_PRIMARY_LITTLE, $dst$$Register); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9685 %} |
0 | 9686 ins_pipe( iload_mem ); |
9687 %} | |
9688 | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9689 instruct bytes_reverse_unsigned_short(iRegI dst, stackSlotI src) %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9690 match(Set dst (ReverseBytesUS src)); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9691 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9692 // Op cost is artificially doubled to make sure that load or store |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9693 // instructions are preferred over this one which requires a spill |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9694 // onto a stack slot. |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9695 ins_cost(2*DEFAULT_COST + MEMORY_REF_COST); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9696 format %{ "LDUHA $src, $dst\t!asi=primary_little\n\t" %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9697 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9698 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9699 // the value was spilled as an int so bias the load |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9700 __ set($src$$disp + STACK_BIAS + 2, O7); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9701 __ lduha($src$$base$$Register, O7, Assembler::ASI_PRIMARY_LITTLE, $dst$$Register); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9702 %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9703 ins_pipe( iload_mem ); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9704 %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9705 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9706 instruct bytes_reverse_short(iRegI dst, stackSlotI src) %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9707 match(Set dst (ReverseBytesS src)); |
0 | 9708 |
9709 // Op cost is artificially doubled to make sure that load or store | |
9710 // instructions are preferred over this one which requires a spill | |
9711 // onto a stack slot. | |
9712 ins_cost(2*DEFAULT_COST + MEMORY_REF_COST); | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9713 format %{ "LDSHA $src, $dst\t!asi=primary_little\n\t" %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9714 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9715 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9716 // the value was spilled as an int so bias the load |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9717 __ set($src$$disp + STACK_BIAS + 2, O7); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9718 __ ldsha($src$$base$$Register, O7, Assembler::ASI_PRIMARY_LITTLE, $dst$$Register); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9719 %} |
0 | 9720 ins_pipe( iload_mem ); |
9721 %} | |
9722 | |
9723 // Load Integer reversed byte order | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9724 instruct loadI_reversed(iRegI dst, indIndexMemory src) %{ |
0 | 9725 match(Set dst (ReverseBytesI (LoadI src))); |
9726 | |
9727 ins_cost(DEFAULT_COST + MEMORY_REF_COST); | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9728 size(4); |
0 | 9729 format %{ "LDUWA $src, $dst\t!asi=primary_little" %} |
9730 | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9731 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9732 __ lduwa($src$$base$$Register, $src$$index$$Register, Assembler::ASI_PRIMARY_LITTLE, $dst$$Register); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9733 %} |
0 | 9734 ins_pipe(iload_mem); |
9735 %} | |
9736 | |
9737 // Load Long - aligned and reversed | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9738 instruct loadL_reversed(iRegL dst, indIndexMemory src) %{ |
0 | 9739 match(Set dst (ReverseBytesL (LoadL src))); |
9740 | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9741 ins_cost(MEMORY_REF_COST); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9742 size(4); |
0 | 9743 format %{ "LDXA $src, $dst\t!asi=primary_little" %} |
9744 | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9745 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9746 __ ldxa($src$$base$$Register, $src$$index$$Register, Assembler::ASI_PRIMARY_LITTLE, $dst$$Register); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9747 %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9748 ins_pipe(iload_mem); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9749 %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9750 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9751 // Load unsigned short / char reversed byte order |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9752 instruct loadUS_reversed(iRegI dst, indIndexMemory src) %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9753 match(Set dst (ReverseBytesUS (LoadUS src))); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9754 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9755 ins_cost(MEMORY_REF_COST); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9756 size(4); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9757 format %{ "LDUHA $src, $dst\t!asi=primary_little" %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9758 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9759 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9760 __ lduha($src$$base$$Register, $src$$index$$Register, Assembler::ASI_PRIMARY_LITTLE, $dst$$Register); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9761 %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9762 ins_pipe(iload_mem); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9763 %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9764 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9765 // Load short reversed byte order |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9766 instruct loadS_reversed(iRegI dst, indIndexMemory src) %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9767 match(Set dst (ReverseBytesS (LoadS src))); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9768 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9769 ins_cost(MEMORY_REF_COST); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9770 size(4); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9771 format %{ "LDSHA $src, $dst\t!asi=primary_little" %} |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9772 |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9773 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9774 __ ldsha($src$$base$$Register, $src$$index$$Register, Assembler::ASI_PRIMARY_LITTLE, $dst$$Register); |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9775 %} |
0 | 9776 ins_pipe(iload_mem); |
9777 %} | |
9778 | |
9779 // Store Integer reversed byte order | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9780 instruct storeI_reversed(indIndexMemory dst, iRegI src) %{ |
0 | 9781 match(Set dst (StoreI dst (ReverseBytesI src))); |
9782 | |
9783 ins_cost(MEMORY_REF_COST); | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9784 size(4); |
0 | 9785 format %{ "STWA $src, $dst\t!asi=primary_little" %} |
9786 | |
1396
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
|
9787 ins_encode %{ |
d7f654633cfe
6946040: add intrinsic for short and char reverseBytes
never
parents:
1367
diff
changeset
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9788 __ stwa($src$$Register, $dst$$base$$Register, $dst$$index$$Register, Assembler::ASI_PRIMARY_LITTLE); |
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9789 %} |
0 | 9790 ins_pipe(istore_mem_reg); |
9791 %} | |
9792 | |
9793 // Store Long reversed byte order | |
1396
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9794 instruct storeL_reversed(indIndexMemory dst, iRegL src) %{ |
0 | 9795 match(Set dst (StoreL dst (ReverseBytesL src))); |
9796 | |
9797 ins_cost(MEMORY_REF_COST); | |
1396
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9798 size(4); |
0 | 9799 format %{ "STXA $src, $dst\t!asi=primary_little" %} |
9800 | |
1396
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9801 ins_encode %{ |
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9802 __ stxa($src$$Register, $dst$$base$$Register, $dst$$index$$Register, Assembler::ASI_PRIMARY_LITTLE); |
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9803 %} |
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9804 ins_pipe(istore_mem_reg); |
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9805 %} |
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9806 |
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9807 // Store unsighed short/char reversed byte order |
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9808 instruct storeUS_reversed(indIndexMemory dst, iRegI src) %{ |
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9809 match(Set dst (StoreC dst (ReverseBytesUS src))); |
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9810 |
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9811 ins_cost(MEMORY_REF_COST); |
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9812 size(4); |
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9813 format %{ "STHA $src, $dst\t!asi=primary_little" %} |
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9814 |
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9815 ins_encode %{ |
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9816 __ stha($src$$Register, $dst$$base$$Register, $dst$$index$$Register, Assembler::ASI_PRIMARY_LITTLE); |
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9817 %} |
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9818 ins_pipe(istore_mem_reg); |
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9819 %} |
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|
9820 |
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9821 // Store short reversed byte order |
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9822 instruct storeS_reversed(indIndexMemory dst, iRegI src) %{ |
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9823 match(Set dst (StoreC dst (ReverseBytesS src))); |
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|
9824 |
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9825 ins_cost(MEMORY_REF_COST); |
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|
9826 size(4); |
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9827 format %{ "STHA $src, $dst\t!asi=primary_little" %} |
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|
9828 |
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|
9829 ins_encode %{ |
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9830 __ stha($src$$Register, $dst$$base$$Register, $dst$$index$$Register, Assembler::ASI_PRIMARY_LITTLE); |
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9831 %} |
0 | 9832 ins_pipe(istore_mem_reg); |
9833 %} | |
9834 | |
9835 //----------PEEPHOLE RULES----------------------------------------------------- | |
9836 // These must follow all instruction definitions as they use the names | |
9837 // defined in the instructions definitions. | |
9838 // | |
605 | 9839 // peepmatch ( root_instr_name [preceding_instruction]* ); |
0 | 9840 // |
9841 // peepconstraint %{ | |
9842 // (instruction_number.operand_name relational_op instruction_number.operand_name | |
9843 // [, ...] ); | |
9844 // // instruction numbers are zero-based using left to right order in peepmatch | |
9845 // | |
9846 // peepreplace ( instr_name ( [instruction_number.operand_name]* ) ); | |
9847 // // provide an instruction_number.operand_name for each operand that appears | |
9848 // // in the replacement instruction's match rule | |
9849 // | |
9850 // ---------VM FLAGS--------------------------------------------------------- | |
9851 // | |
9852 // All peephole optimizations can be turned off using -XX:-OptoPeephole | |
9853 // | |
9854 // Each peephole rule is given an identifying number starting with zero and | |
9855 // increasing by one in the order seen by the parser. An individual peephole | |
9856 // can be enabled, and all others disabled, by using -XX:OptoPeepholeAt=# | |
9857 // on the command-line. | |
9858 // | |
9859 // ---------CURRENT LIMITATIONS---------------------------------------------- | |
9860 // | |
9861 // Only match adjacent instructions in same basic block | |
9862 // Only equality constraints | |
9863 // Only constraints between operands, not (0.dest_reg == EAX_enc) | |
9864 // Only one replacement instruction | |
9865 // | |
9866 // ---------EXAMPLE---------------------------------------------------------- | |
9867 // | |
9868 // // pertinent parts of existing instructions in architecture description | |
9869 // instruct movI(eRegI dst, eRegI src) %{ | |
9870 // match(Set dst (CopyI src)); | |
9871 // %} | |
9872 // | |
9873 // instruct incI_eReg(eRegI dst, immI1 src, eFlagsReg cr) %{ | |
9874 // match(Set dst (AddI dst src)); | |
9875 // effect(KILL cr); | |
9876 // %} | |
9877 // | |
9878 // // Change (inc mov) to lea | |
9879 // peephole %{ | |
9880 // // increment preceeded by register-register move | |
9881 // peepmatch ( incI_eReg movI ); | |
9882 // // require that the destination register of the increment | |
9883 // // match the destination register of the move | |
9884 // peepconstraint ( 0.dst == 1.dst ); | |
9885 // // construct a replacement instruction that sets | |
9886 // // the destination to ( move's source register + one ) | |
9887 // peepreplace ( incI_eReg_immI1( 0.dst 1.src 0.src ) ); | |
9888 // %} | |
9889 // | |
9890 | |
9891 // // Change load of spilled value to only a spill | |
9892 // instruct storeI(memory mem, eRegI src) %{ | |
9893 // match(Set mem (StoreI mem src)); | |
9894 // %} | |
9895 // | |
9896 // instruct loadI(eRegI dst, memory mem) %{ | |
9897 // match(Set dst (LoadI mem)); | |
9898 // %} | |
9899 // | |
9900 // peephole %{ | |
9901 // peepmatch ( loadI storeI ); | |
9902 // peepconstraint ( 1.src == 0.dst, 1.mem == 0.mem ); | |
9903 // peepreplace ( storeI( 1.mem 1.mem 1.src ) ); | |
9904 // %} | |
9905 | |
9906 //----------SMARTSPILL RULES--------------------------------------------------- | |
9907 // These must follow all instruction definitions as they use the names | |
9908 // defined in the instructions definitions. | |
9909 // | |
9910 // SPARC will probably not have any of these rules due to RISC instruction set. | |
9911 | |
9912 //----------PIPELINE----------------------------------------------------------- | |
9913 // Rules which define the behavior of the target architectures pipeline. |