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review.blissroms.org / platform_art / 80f9d0c48d6f8561700630b8b08adb4398d61008 / . / compiler / dex / quick / gen_invoke.cc
blob: 92c13cef2a9ecb174ae357aa7aaf27ac31ac6b8a [file] [log] [blame]
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1/*
2 * Copyright (C) 2012 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17#include "dex/compiler_ir.h"
Vladimir Marko5c96e6b2013-11-14 15:34:17 +0000[diff] [blame]18#include "dex/frontend.h"
19#include "dex/quick/dex_file_method_inliner.h"
20#include "dex/quick/dex_file_to_method_inliner_map.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]21#include "dex_file-inl.h"
Ian Rogers166db042013-07-26 12:05:57 -0700[diff] [blame]22#include "entrypoints/quick/quick_entrypoints.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]23#include "invoke_type.h"
24#include "mirror/array.h"
25#include "mirror/string.h"
26#include "mir_to_lir-inl.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]27#include "x86/codegen_x86.h"
28
29namespace art {
30
31/*
32 * This source files contains "gen" codegen routines that should
33 * be applicable to most targets. Only mid-level support utilities
34 * and "op" calls may be used here.
35 */
36
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]37void Mir2Lir::AddIntrinsicLaunchpad(CallInfo* info, LIR* branch, LIR* resume) {
38 class IntrinsicLaunchpadPath : public Mir2Lir::LIRSlowPath {
39 public:
40 IntrinsicLaunchpadPath(Mir2Lir* m2l, CallInfo* info, LIR* branch, LIR* resume = nullptr)
41 : LIRSlowPath(m2l, info->offset, branch, resume), info_(info) {
42 }
43
44 void Compile() {
45 m2l_->ResetRegPool();
46 m2l_->ResetDefTracking();
47 LIR* label = GenerateTargetLabel();
48 label->opcode = kPseudoIntrinsicRetry;
49 // NOTE: GenInvokeNoInline() handles MarkSafepointPC.
50 m2l_->GenInvokeNoInline(info_);
51 if (cont_ != nullptr) {
52 m2l_->OpUnconditionalBranch(cont_);
53 }
54 }
55
56 private:
57 CallInfo* const info_;
58 };
59
60 AddSlowPath(new (arena_) IntrinsicLaunchpadPath(this, info, branch, resume));
61}
62
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]63/*
64 * To save scheduling time, helper calls are broken into two parts: generation of
65 * the helper target address, and the actuall call to the helper. Because x86
66 * has a memory call operation, part 1 is a NOP for x86. For other targets,
67 * load arguments between the two parts.
68 */
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]69int Mir2Lir::CallHelperSetup(ThreadOffset helper_offset) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]70 return (cu_->instruction_set == kX86) ? 0 : LoadHelper(helper_offset);
71}
72
73/* NOTE: if r_tgt is a temp, it will be freed following use */
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]74LIR* Mir2Lir::CallHelper(int r_tgt, ThreadOffset helper_offset, bool safepoint_pc) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]75 LIR* call_inst;
76 if (cu_->instruction_set == kX86) {
77 call_inst = OpThreadMem(kOpBlx, helper_offset);
78 } else {
79 call_inst = OpReg(kOpBlx, r_tgt);
80 FreeTemp(r_tgt);
81 }
82 if (safepoint_pc) {
83 MarkSafepointPC(call_inst);
84 }
85 return call_inst;
86}
87
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]88void Mir2Lir::CallRuntimeHelperImm(ThreadOffset helper_offset, int arg0, bool safepoint_pc) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]89 int r_tgt = CallHelperSetup(helper_offset);
90 LoadConstant(TargetReg(kArg0), arg0);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]91 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]92 CallHelper(r_tgt, helper_offset, safepoint_pc);
93}
94
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]95void Mir2Lir::CallRuntimeHelperReg(ThreadOffset helper_offset, int arg0, bool safepoint_pc) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]96 int r_tgt = CallHelperSetup(helper_offset);
97 OpRegCopy(TargetReg(kArg0), arg0);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]98 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]99 CallHelper(r_tgt, helper_offset, safepoint_pc);
100}
101
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]102void Mir2Lir::CallRuntimeHelperRegLocation(ThreadOffset helper_offset, RegLocation arg0,
103 bool safepoint_pc) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]104 int r_tgt = CallHelperSetup(helper_offset);
Zheng Xu9a84ad92014-03-13 18:00:21 +0000[diff] [blame]105 if (arg0.wide) {
106 LoadValueDirectWideFixed(arg0, arg0.fp ? TargetReg(kFArg0) : TargetReg(kArg0),
107 arg0.fp ? TargetReg(kFArg1) : TargetReg(kArg1));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]108 } else {
Zheng Xu9a84ad92014-03-13 18:00:21 +0000[diff] [blame]109 LoadValueDirectFixed(arg0, arg0.fp ? TargetReg(kFArg0) : TargetReg(kArg0));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]110 }
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]111 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]112 CallHelper(r_tgt, helper_offset, safepoint_pc);
113}
114
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]115void Mir2Lir::CallRuntimeHelperImmImm(ThreadOffset helper_offset, int arg0, int arg1,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]116 bool safepoint_pc) {
117 int r_tgt = CallHelperSetup(helper_offset);
118 LoadConstant(TargetReg(kArg0), arg0);
119 LoadConstant(TargetReg(kArg1), arg1);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]120 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]121 CallHelper(r_tgt, helper_offset, safepoint_pc);
122}
123
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]124void Mir2Lir::CallRuntimeHelperImmRegLocation(ThreadOffset helper_offset, int arg0,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]125 RegLocation arg1, bool safepoint_pc) {
126 int r_tgt = CallHelperSetup(helper_offset);
127 if (arg1.wide == 0) {
128 LoadValueDirectFixed(arg1, TargetReg(kArg1));
129 } else {
130 LoadValueDirectWideFixed(arg1, TargetReg(kArg1), TargetReg(kArg2));
131 }
132 LoadConstant(TargetReg(kArg0), arg0);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]133 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]134 CallHelper(r_tgt, helper_offset, safepoint_pc);
135}
136
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]137void Mir2Lir::CallRuntimeHelperRegLocationImm(ThreadOffset helper_offset, RegLocation arg0, int arg1,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]138 bool safepoint_pc) {
139 int r_tgt = CallHelperSetup(helper_offset);
140 LoadValueDirectFixed(arg0, TargetReg(kArg0));
141 LoadConstant(TargetReg(kArg1), arg1);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]142 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]143 CallHelper(r_tgt, helper_offset, safepoint_pc);
144}
145
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]146void Mir2Lir::CallRuntimeHelperImmReg(ThreadOffset helper_offset, int arg0, int arg1,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]147 bool safepoint_pc) {
148 int r_tgt = CallHelperSetup(helper_offset);
149 OpRegCopy(TargetReg(kArg1), arg1);
150 LoadConstant(TargetReg(kArg0), arg0);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]151 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]152 CallHelper(r_tgt, helper_offset, safepoint_pc);
153}
154
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]155void Mir2Lir::CallRuntimeHelperRegImm(ThreadOffset helper_offset, int arg0, int arg1,
156 bool safepoint_pc) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]157 int r_tgt = CallHelperSetup(helper_offset);
158 OpRegCopy(TargetReg(kArg0), arg0);
159 LoadConstant(TargetReg(kArg1), arg1);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]160 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]161 CallHelper(r_tgt, helper_offset, safepoint_pc);
162}
163
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]164void Mir2Lir::CallRuntimeHelperImmMethod(ThreadOffset helper_offset, int arg0, bool safepoint_pc) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]165 int r_tgt = CallHelperSetup(helper_offset);
166 LoadCurrMethodDirect(TargetReg(kArg1));
167 LoadConstant(TargetReg(kArg0), arg0);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]168 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]169 CallHelper(r_tgt, helper_offset, safepoint_pc);
170}
171
Hiroshi Yamauchibe1ca552014-01-15 11:46:48 -0800[diff] [blame]172void Mir2Lir::CallRuntimeHelperRegMethod(ThreadOffset helper_offset, int arg0, bool safepoint_pc) {
173 int r_tgt = CallHelperSetup(helper_offset);
174 DCHECK_NE(TargetReg(kArg1), arg0);
175 if (TargetReg(kArg0) != arg0) {
176 OpRegCopy(TargetReg(kArg0), arg0);
177 }
178 LoadCurrMethodDirect(TargetReg(kArg1));
179 ClobberCallerSave();
180 CallHelper(r_tgt, helper_offset, safepoint_pc);
181}
182
Hiroshi Yamauchibb8f0ab2014-01-27 16:50:29 -0800[diff] [blame]183void Mir2Lir::CallRuntimeHelperRegMethodRegLocation(ThreadOffset helper_offset, int arg0,
184 RegLocation arg2, bool safepoint_pc) {
185 int r_tgt = CallHelperSetup(helper_offset);
186 DCHECK_NE(TargetReg(kArg1), arg0);
187 if (TargetReg(kArg0) != arg0) {
188 OpRegCopy(TargetReg(kArg0), arg0);
189 }
190 LoadCurrMethodDirect(TargetReg(kArg1));
191 LoadValueDirectFixed(arg2, TargetReg(kArg2));
192 ClobberCallerSave();
193 CallHelper(r_tgt, helper_offset, safepoint_pc);
194}
195
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]196void Mir2Lir::CallRuntimeHelperRegLocationRegLocation(ThreadOffset helper_offset, RegLocation arg0,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]197 RegLocation arg1, bool safepoint_pc) {
198 int r_tgt = CallHelperSetup(helper_offset);
199 if (arg0.wide == 0) {
200 LoadValueDirectFixed(arg0, arg0.fp ? TargetReg(kFArg0) : TargetReg(kArg0));
201 if (arg1.wide == 0) {
202 if (cu_->instruction_set == kMips) {
203 LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg2) : TargetReg(kArg1));
204 } else {
205 LoadValueDirectFixed(arg1, TargetReg(kArg1));
206 }
207 } else {
208 if (cu_->instruction_set == kMips) {
209 LoadValueDirectWideFixed(arg1, arg1.fp ? TargetReg(kFArg2) : TargetReg(kArg1), arg1.fp ? TargetReg(kFArg3) : TargetReg(kArg2));
210 } else {
211 LoadValueDirectWideFixed(arg1, TargetReg(kArg1), TargetReg(kArg2));
212 }
213 }
214 } else {
215 LoadValueDirectWideFixed(arg0, arg0.fp ? TargetReg(kFArg0) : TargetReg(kArg0), arg0.fp ? TargetReg(kFArg1) : TargetReg(kArg1));
216 if (arg1.wide == 0) {
217 LoadValueDirectFixed(arg1, arg1.fp ? TargetReg(kFArg2) : TargetReg(kArg2));
218 } else {
219 LoadValueDirectWideFixed(arg1, arg1.fp ? TargetReg(kFArg2) : TargetReg(kArg2), arg1.fp ? TargetReg(kFArg3) : TargetReg(kArg3));
220 }
221 }
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]222 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]223 CallHelper(r_tgt, helper_offset, safepoint_pc);
224}
225
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]226void Mir2Lir::CallRuntimeHelperRegReg(ThreadOffset helper_offset, int arg0, int arg1,
227 bool safepoint_pc) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]228 int r_tgt = CallHelperSetup(helper_offset);
229 DCHECK_NE(TargetReg(kArg0), arg1); // check copy into arg0 won't clobber arg1
230 OpRegCopy(TargetReg(kArg0), arg0);
231 OpRegCopy(TargetReg(kArg1), arg1);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]232 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]233 CallHelper(r_tgt, helper_offset, safepoint_pc);
234}
235
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]236void Mir2Lir::CallRuntimeHelperRegRegImm(ThreadOffset helper_offset, int arg0, int arg1,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]237 int arg2, bool safepoint_pc) {
238 int r_tgt = CallHelperSetup(helper_offset);
239 DCHECK_NE(TargetReg(kArg0), arg1); // check copy into arg0 won't clobber arg1
240 OpRegCopy(TargetReg(kArg0), arg0);
241 OpRegCopy(TargetReg(kArg1), arg1);
242 LoadConstant(TargetReg(kArg2), arg2);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]243 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]244 CallHelper(r_tgt, helper_offset, safepoint_pc);
245}
246
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]247void Mir2Lir::CallRuntimeHelperImmMethodRegLocation(ThreadOffset helper_offset,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]248 int arg0, RegLocation arg2, bool safepoint_pc) {
249 int r_tgt = CallHelperSetup(helper_offset);
250 LoadValueDirectFixed(arg2, TargetReg(kArg2));
251 LoadCurrMethodDirect(TargetReg(kArg1));
252 LoadConstant(TargetReg(kArg0), arg0);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]253 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]254 CallHelper(r_tgt, helper_offset, safepoint_pc);
255}
256
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]257void Mir2Lir::CallRuntimeHelperImmMethodImm(ThreadOffset helper_offset, int arg0,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]258 int arg2, bool safepoint_pc) {
259 int r_tgt = CallHelperSetup(helper_offset);
260 LoadCurrMethodDirect(TargetReg(kArg1));
261 LoadConstant(TargetReg(kArg2), arg2);
262 LoadConstant(TargetReg(kArg0), arg0);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]263 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]264 CallHelper(r_tgt, helper_offset, safepoint_pc);
265}
266
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]267void Mir2Lir::CallRuntimeHelperImmRegLocationRegLocation(ThreadOffset helper_offset,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]268 int arg0, RegLocation arg1,
269 RegLocation arg2, bool safepoint_pc) {
270 int r_tgt = CallHelperSetup(helper_offset);
Ian Rogersa9a82542013-10-04 11:17:26 -0700[diff] [blame]271 DCHECK_EQ(arg1.wide, 0U);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]272 LoadValueDirectFixed(arg1, TargetReg(kArg1));
273 if (arg2.wide == 0) {
274 LoadValueDirectFixed(arg2, TargetReg(kArg2));
275 } else {
276 LoadValueDirectWideFixed(arg2, TargetReg(kArg2), TargetReg(kArg3));
277 }
278 LoadConstant(TargetReg(kArg0), arg0);
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]279 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]280 CallHelper(r_tgt, helper_offset, safepoint_pc);
281}
282
Ian Rogersa9a82542013-10-04 11:17:26 -0700[diff] [blame]283void Mir2Lir::CallRuntimeHelperRegLocationRegLocationRegLocation(ThreadOffset helper_offset,
284 RegLocation arg0, RegLocation arg1,
285 RegLocation arg2,
286 bool safepoint_pc) {
287 int r_tgt = CallHelperSetup(helper_offset);
288 DCHECK_EQ(arg0.wide, 0U);
289 LoadValueDirectFixed(arg0, TargetReg(kArg0));
290 DCHECK_EQ(arg1.wide, 0U);
291 LoadValueDirectFixed(arg1, TargetReg(kArg1));
292 DCHECK_EQ(arg1.wide, 0U);
293 LoadValueDirectFixed(arg2, TargetReg(kArg2));
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]294 ClobberCallerSave();
Ian Rogersa9a82542013-10-04 11:17:26 -0700[diff] [blame]295 CallHelper(r_tgt, helper_offset, safepoint_pc);
296}
297
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]298/*
299 * If there are any ins passed in registers that have not been promoted
300 * to a callee-save register, flush them to the frame. Perform intial
301 * assignment of promoted arguments.
302 *
303 * ArgLocs is an array of location records describing the incoming arguments
304 * with one location record per word of argument.
305 */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]306void Mir2Lir::FlushIns(RegLocation* ArgLocs, RegLocation rl_method) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]307 /*
308 * Dummy up a RegLocation for the incoming Method*
309 * It will attempt to keep kArg0 live (or copy it to home location
310 * if promoted).
311 */
312 RegLocation rl_src = rl_method;
313 rl_src.location = kLocPhysReg;
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]314 rl_src.reg = RegStorage(RegStorage::k32BitSolo, TargetReg(kArg0));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]315 rl_src.home = false;
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]316 MarkLive(rl_src.reg.GetReg(), rl_src.s_reg_low);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]317 StoreValue(rl_method, rl_src);
318 // If Method* has been promoted, explicitly flush
319 if (rl_method.location == kLocPhysReg) {
320 StoreWordDisp(TargetReg(kSp), 0, TargetReg(kArg0));
321 }
322
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -0800[diff] [blame]323 if (cu_->num_ins == 0) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]324 return;
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -0800[diff] [blame]325 }
326
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]327 int start_vreg = cu_->num_dalvik_registers - cu_->num_ins;
328 /*
329 * Copy incoming arguments to their proper home locations.
330 * NOTE: an older version of dx had an issue in which
331 * it would reuse static method argument registers.
332 * This could result in the same Dalvik virtual register
333 * being promoted to both core and fp regs. To account for this,
334 * we only copy to the corresponding promoted physical register
335 * if it matches the type of the SSA name for the incoming
336 * argument. It is also possible that long and double arguments
337 * end up half-promoted. In those cases, we must flush the promoted
338 * half to memory as well.
339 */
340 for (int i = 0; i < cu_->num_ins; i++) {
341 PromotionMap* v_map = &promotion_map_[start_vreg + i];
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -0800[diff] [blame]342 int reg = GetArgMappingToPhysicalReg(i);
343
344 if (reg != INVALID_REG) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]345 // If arriving in register
346 bool need_flush = true;
347 RegLocation* t_loc = &ArgLocs[i];
348 if ((v_map->core_location == kLocPhysReg) && !t_loc->fp) {
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -0800[diff] [blame]349 OpRegCopy(v_map->core_reg, reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]350 need_flush = false;
351 } else if ((v_map->fp_location == kLocPhysReg) && t_loc->fp) {
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -0800[diff] [blame]352 OpRegCopy(v_map->FpReg, reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]353 need_flush = false;
354 } else {
355 need_flush = true;
356 }
357
buzbeed0a03b82013-09-14 08:21:05 -0700[diff] [blame]358 // For wide args, force flush if not fully promoted
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]359 if (t_loc->wide) {
360 PromotionMap* p_map = v_map + (t_loc->high_word ? -1 : +1);
buzbeed0a03b82013-09-14 08:21:05 -0700[diff] [blame]361 // Is only half promoted?
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]362 need_flush |= (p_map->core_location != v_map->core_location) ||
363 (p_map->fp_location != v_map->fp_location);
buzbeed0a03b82013-09-14 08:21:05 -0700[diff] [blame]364 if ((cu_->instruction_set == kThumb2) && t_loc->fp && !need_flush) {
365 /*
366 * In Arm, a double is represented as a pair of consecutive single float
367 * registers starting at an even number. It's possible that both Dalvik vRegs
368 * representing the incoming double were independently promoted as singles - but
369 * not in a form usable as a double. If so, we need to flush - even though the
370 * incoming arg appears fully in register. At this point in the code, both
371 * halves of the double are promoted. Make sure they are in a usable form.
372 */
373 int lowreg_index = start_vreg + i + (t_loc->high_word ? -1 : 0);
374 int low_reg = promotion_map_[lowreg_index].FpReg;
375 int high_reg = promotion_map_[lowreg_index + 1].FpReg;
376 if (((low_reg & 0x1) != 0) || (high_reg != (low_reg + 1))) {
377 need_flush = true;
378 }
379 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]380 }
381 if (need_flush) {
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -0800[diff] [blame]382 StoreBaseDisp(TargetReg(kSp), SRegOffset(start_vreg + i), reg, kWord);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]383 }
384 } else {
385 // If arriving in frame & promoted
386 if (v_map->core_location == kLocPhysReg) {
387 LoadWordDisp(TargetReg(kSp), SRegOffset(start_vreg + i),
388 v_map->core_reg);
389 }
390 if (v_map->fp_location == kLocPhysReg) {
391 LoadWordDisp(TargetReg(kSp), SRegOffset(start_vreg + i),
392 v_map->FpReg);
393 }
394 }
395 }
396}
397
398/*
399 * Bit of a hack here - in the absence of a real scheduling pass,
400 * emit the next instruction in static & direct invoke sequences.
401 */
402static int NextSDCallInsn(CompilationUnit* cu, CallInfo* info,
403 int state, const MethodReference& target_method,
404 uint32_t unused,
405 uintptr_t direct_code, uintptr_t direct_method,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]406 InvokeType type) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]407 Mir2Lir* cg = static_cast<Mir2Lir*>(cu->cg.get());
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]408 if (direct_code != 0 && direct_method != 0) {
409 switch (state) {
410 case 0: // Get the current Method* [sets kArg0]
411 if (direct_code != static_cast<unsigned int>(-1)) {
Ian Rogers83883d72013-10-21 21:07:24 -0700[diff] [blame]412 if (cu->instruction_set != kX86) {
413 cg->LoadConstant(cg->TargetReg(kInvokeTgt), direct_code);
414 }
Mark Mendell55d0eac2014-02-06 11:02:52 -0800[diff] [blame]415 } else if (cu->instruction_set != kX86) {
Jeff Hao49161ce2014-03-12 11:05:25 -0700[diff] [blame]416 cg->LoadCodeAddress(target_method, type, kInvokeTgt);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]417 }
418 if (direct_method != static_cast<unsigned int>(-1)) {
419 cg->LoadConstant(cg->TargetReg(kArg0), direct_method);
420 } else {
Jeff Hao49161ce2014-03-12 11:05:25 -0700[diff] [blame]421 cg->LoadMethodAddress(target_method, type, kArg0);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]422 }
423 break;
424 default:
425 return -1;
426 }
427 } else {
428 switch (state) {
429 case 0: // Get the current Method* [sets kArg0]
430 // TUNING: we can save a reg copy if Method* has been promoted.
431 cg->LoadCurrMethodDirect(cg->TargetReg(kArg0));
432 break;
433 case 1: // Get method->dex_cache_resolved_methods_
434 cg->LoadWordDisp(cg->TargetReg(kArg0),
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]435 mirror::ArtMethod::DexCacheResolvedMethodsOffset().Int32Value(), cg->TargetReg(kArg0));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]436 // Set up direct code if known.
437 if (direct_code != 0) {
438 if (direct_code != static_cast<unsigned int>(-1)) {
439 cg->LoadConstant(cg->TargetReg(kInvokeTgt), direct_code);
Mark Mendell55d0eac2014-02-06 11:02:52 -0800[diff] [blame]440 } else if (cu->instruction_set != kX86) {
Ian Rogers83883d72013-10-21 21:07:24 -0700[diff] [blame]441 CHECK_LT(target_method.dex_method_index, target_method.dex_file->NumMethodIds());
Jeff Hao49161ce2014-03-12 11:05:25 -0700[diff] [blame]442 cg->LoadCodeAddress(target_method, type, kInvokeTgt);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]443 }
444 }
445 break;
446 case 2: // Grab target method*
447 CHECK_EQ(cu->dex_file, target_method.dex_file);
448 cg->LoadWordDisp(cg->TargetReg(kArg0),
449 mirror::Array::DataOffset(sizeof(mirror::Object*)).Int32Value() +
450 (target_method.dex_method_index * 4),
451 cg-> TargetReg(kArg0));
452 break;
453 case 3: // Grab the code from the method*
454 if (cu->instruction_set != kX86) {
455 if (direct_code == 0) {
456 cg->LoadWordDisp(cg->TargetReg(kArg0),
Ian Rogersef7d42f2014-01-06 12:55:46 -0800[diff] [blame]457 mirror::ArtMethod::EntryPointFromQuickCompiledCodeOffset().Int32Value(),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]458 cg->TargetReg(kInvokeTgt));
459 }
460 break;
461 }
462 // Intentional fallthrough for x86
463 default:
464 return -1;
465 }
466 }
467 return state + 1;
468}
469
470/*
471 * Bit of a hack here - in the absence of a real scheduling pass,
472 * emit the next instruction in a virtual invoke sequence.
473 * We can use kLr as a temp prior to target address loading
474 * Note also that we'll load the first argument ("this") into
475 * kArg1 here rather than the standard LoadArgRegs.
476 */
477static int NextVCallInsn(CompilationUnit* cu, CallInfo* info,
478 int state, const MethodReference& target_method,
479 uint32_t method_idx, uintptr_t unused, uintptr_t unused2,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]480 InvokeType unused3) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]481 Mir2Lir* cg = static_cast<Mir2Lir*>(cu->cg.get());
482 /*
483 * This is the fast path in which the target virtual method is
484 * fully resolved at compile time.
485 */
486 switch (state) {
487 case 0: { // Get "this" [set kArg1]
488 RegLocation rl_arg = info->args[0];
489 cg->LoadValueDirectFixed(rl_arg, cg->TargetReg(kArg1));
490 break;
491 }
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]492 case 1: // Is "this" null? [use kArg1]
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]493 cg->GenNullCheck(cg->TargetReg(kArg1), info->opt_flags);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]494 // get this->klass_ [use kArg1, set kInvokeTgt]
495 cg->LoadWordDisp(cg->TargetReg(kArg1), mirror::Object::ClassOffset().Int32Value(),
496 cg->TargetReg(kInvokeTgt));
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]497 cg->MarkPossibleNullPointerException(info->opt_flags);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]498 break;
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]499 case 2: // Get this->klass_->vtable [usr kInvokeTgt, set kInvokeTgt]
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]500 cg->LoadWordDisp(cg->TargetReg(kInvokeTgt), mirror::Class::VTableOffset().Int32Value(),
501 cg->TargetReg(kInvokeTgt));
502 break;
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]503 case 3: // Get target method [use kInvokeTgt, set kArg0]
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]504 cg->LoadWordDisp(cg->TargetReg(kInvokeTgt), (method_idx * 4) +
505 mirror::Array::DataOffset(sizeof(mirror::Object*)).Int32Value(),
506 cg->TargetReg(kArg0));
507 break;
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]508 case 4: // Get the compiled code address [uses kArg0, sets kInvokeTgt]
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]509 if (cu->instruction_set != kX86) {
510 cg->LoadWordDisp(cg->TargetReg(kArg0),
Ian Rogersef7d42f2014-01-06 12:55:46 -0800[diff] [blame]511 mirror::ArtMethod::EntryPointFromQuickCompiledCodeOffset().Int32Value(),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]512 cg->TargetReg(kInvokeTgt));
513 break;
514 }
515 // Intentional fallthrough for X86
516 default:
517 return -1;
518 }
519 return state + 1;
520}
521
522/*
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]523 * Emit the next instruction in an invoke interface sequence. This will do a lookup in the
524 * class's IMT, calling either the actual method or art_quick_imt_conflict_trampoline if
525 * more than one interface method map to the same index. Note also that we'll load the first
526 * argument ("this") into kArg1 here rather than the standard LoadArgRegs.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]527 */
528static int NextInterfaceCallInsn(CompilationUnit* cu, CallInfo* info, int state,
529 const MethodReference& target_method,
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]530 uint32_t method_idx, uintptr_t unused,
531 uintptr_t direct_method, InvokeType unused2) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]532 Mir2Lir* cg = static_cast<Mir2Lir*>(cu->cg.get());
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]533
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]534 switch (state) {
535 case 0: // Set target method index in case of conflict [set kHiddenArg, kHiddenFpArg (x86)]
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]536 CHECK_LT(target_method.dex_method_index, target_method.dex_file->NumMethodIds());
537 cg->LoadConstant(cg->TargetReg(kHiddenArg), target_method.dex_method_index);
538 if (cu->instruction_set == kX86) {
539 cg->OpRegCopy(cg->TargetReg(kHiddenFpArg), cg->TargetReg(kHiddenArg));
540 }
541 break;
542 case 1: { // Get "this" [set kArg1]
543 RegLocation rl_arg = info->args[0];
544 cg->LoadValueDirectFixed(rl_arg, cg->TargetReg(kArg1));
545 break;
546 }
547 case 2: // Is "this" null? [use kArg1]
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]548 cg->GenNullCheck(cg->TargetReg(kArg1), info->opt_flags);
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]549 // Get this->klass_ [use kArg1, set kInvokeTgt]
550 cg->LoadWordDisp(cg->TargetReg(kArg1), mirror::Object::ClassOffset().Int32Value(),
551 cg->TargetReg(kInvokeTgt));
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]552 cg->MarkPossibleNullPointerException(info->opt_flags);
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]553 break;
554 case 3: // Get this->klass_->imtable [use kInvokeTgt, set kInvokeTgt]
555 cg->LoadWordDisp(cg->TargetReg(kInvokeTgt), mirror::Class::ImTableOffset().Int32Value(),
556 cg->TargetReg(kInvokeTgt));
557 break;
558 case 4: // Get target method [use kInvokeTgt, set kArg0]
559 cg->LoadWordDisp(cg->TargetReg(kInvokeTgt), ((method_idx % ClassLinker::kImtSize) * 4) +
560 mirror::Array::DataOffset(sizeof(mirror::Object*)).Int32Value(),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]561 cg->TargetReg(kArg0));
562 break;
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]563 case 5: // Get the compiled code address [use kArg0, set kInvokeTgt]
564 if (cu->instruction_set != kX86) {
565 cg->LoadWordDisp(cg->TargetReg(kArg0),
Ian Rogersef7d42f2014-01-06 12:55:46 -0800[diff] [blame]566 mirror::ArtMethod::EntryPointFromQuickCompiledCodeOffset().Int32Value(),
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]567 cg->TargetReg(kInvokeTgt));
568 break;
569 }
570 // Intentional fallthrough for X86
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]571 default:
572 return -1;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]573 }
574 return state + 1;
575}
576
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]577static int NextInvokeInsnSP(CompilationUnit* cu, CallInfo* info, ThreadOffset trampoline,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]578 int state, const MethodReference& target_method,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]579 uint32_t method_idx) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]580 Mir2Lir* cg = static_cast<Mir2Lir*>(cu->cg.get());
581 /*
582 * This handles the case in which the base method is not fully
583 * resolved at compile time, we bail to a runtime helper.
584 */
585 if (state == 0) {
586 if (cu->instruction_set != kX86) {
587 // Load trampoline target
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]588 cg->LoadWordDisp(cg->TargetReg(kSelf), trampoline.Int32Value(), cg->TargetReg(kInvokeTgt));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]589 }
590 // Load kArg0 with method index
591 CHECK_EQ(cu->dex_file, target_method.dex_file);
592 cg->LoadConstant(cg->TargetReg(kArg0), target_method.dex_method_index);
593 return 1;
594 }
595 return -1;
596}
597
598static int NextStaticCallInsnSP(CompilationUnit* cu, CallInfo* info,
599 int state,
600 const MethodReference& target_method,
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]601 uint32_t unused, uintptr_t unused2,
602 uintptr_t unused3, InvokeType unused4) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]603 ThreadOffset trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeStaticTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]604 return NextInvokeInsnSP(cu, info, trampoline, state, target_method, 0);
605}
606
607static int NextDirectCallInsnSP(CompilationUnit* cu, CallInfo* info, int state,
608 const MethodReference& target_method,
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]609 uint32_t unused, uintptr_t unused2,
610 uintptr_t unused3, InvokeType unused4) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]611 ThreadOffset trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeDirectTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]612 return NextInvokeInsnSP(cu, info, trampoline, state, target_method, 0);
613}
614
615static int NextSuperCallInsnSP(CompilationUnit* cu, CallInfo* info, int state,
616 const MethodReference& target_method,
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]617 uint32_t unused, uintptr_t unused2,
618 uintptr_t unused3, InvokeType unused4) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]619 ThreadOffset trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeSuperTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]620 return NextInvokeInsnSP(cu, info, trampoline, state, target_method, 0);
621}
622
623static int NextVCallInsnSP(CompilationUnit* cu, CallInfo* info, int state,
624 const MethodReference& target_method,
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]625 uint32_t unused, uintptr_t unused2,
626 uintptr_t unused3, InvokeType unused4) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]627 ThreadOffset trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeVirtualTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]628 return NextInvokeInsnSP(cu, info, trampoline, state, target_method, 0);
629}
630
631static int NextInterfaceCallInsnWithAccessCheck(CompilationUnit* cu,
632 CallInfo* info, int state,
633 const MethodReference& target_method,
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]634 uint32_t unused, uintptr_t unused2,
635 uintptr_t unused3, InvokeType unused4) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]636 ThreadOffset trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeInterfaceTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]637 return NextInvokeInsnSP(cu, info, trampoline, state, target_method, 0);
638}
639
640int Mir2Lir::LoadArgRegs(CallInfo* info, int call_state,
641 NextCallInsn next_call_insn,
642 const MethodReference& target_method,
643 uint32_t vtable_idx, uintptr_t direct_code,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]644 uintptr_t direct_method, InvokeType type, bool skip_this) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]645 int last_arg_reg = TargetReg(kArg3);
646 int next_reg = TargetReg(kArg1);
647 int next_arg = 0;
648 if (skip_this) {
649 next_reg++;
650 next_arg++;
651 }
652 for (; (next_reg <= last_arg_reg) && (next_arg < info->num_arg_words); next_reg++) {
653 RegLocation rl_arg = info->args[next_arg++];
654 rl_arg = UpdateRawLoc(rl_arg);
655 if (rl_arg.wide && (next_reg <= TargetReg(kArg2))) {
656 LoadValueDirectWideFixed(rl_arg, next_reg, next_reg + 1);
657 next_reg++;
658 next_arg++;
659 } else {
660 if (rl_arg.wide) {
661 rl_arg.wide = false;
662 rl_arg.is_const = false;
663 }
664 LoadValueDirectFixed(rl_arg, next_reg);
665 }
666 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
667 direct_code, direct_method, type);
668 }
669 return call_state;
670}
671
672/*
673 * Load up to 5 arguments, the first three of which will be in
674 * kArg1 .. kArg3. On entry kArg0 contains the current method pointer,
675 * and as part of the load sequence, it must be replaced with
676 * the target method pointer. Note, this may also be called
677 * for "range" variants if the number of arguments is 5 or fewer.
678 */
679int Mir2Lir::GenDalvikArgsNoRange(CallInfo* info,
680 int call_state, LIR** pcrLabel, NextCallInsn next_call_insn,
681 const MethodReference& target_method,
682 uint32_t vtable_idx, uintptr_t direct_code,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]683 uintptr_t direct_method, InvokeType type, bool skip_this) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]684 RegLocation rl_arg;
685
686 /* If no arguments, just return */
687 if (info->num_arg_words == 0)
688 return call_state;
689
690 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
691 direct_code, direct_method, type);
692
693 DCHECK_LE(info->num_arg_words, 5);
694 if (info->num_arg_words > 3) {
695 int32_t next_use = 3;
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]696 // Detect special case of wide arg spanning arg3/arg4
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]697 RegLocation rl_use0 = info->args[0];
698 RegLocation rl_use1 = info->args[1];
699 RegLocation rl_use2 = info->args[2];
700 if (((!rl_use0.wide && !rl_use1.wide) || rl_use0.wide) &&
701 rl_use2.wide) {
702 int reg = -1;
703 // Wide spans, we need the 2nd half of uses[2].
704 rl_arg = UpdateLocWide(rl_use2);
705 if (rl_arg.location == kLocPhysReg) {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]706 reg = rl_arg.reg.GetHighReg();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]707 } else {
708 // kArg2 & rArg3 can safely be used here
709 reg = TargetReg(kArg3);
710 LoadWordDisp(TargetReg(kSp), SRegOffset(rl_arg.s_reg_low) + 4, reg);
711 call_state = next_call_insn(cu_, info, call_state, target_method,
712 vtable_idx, direct_code, direct_method, type);
713 }
714 StoreBaseDisp(TargetReg(kSp), (next_use + 1) * 4, reg, kWord);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]715 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
716 direct_code, direct_method, type);
717 next_use++;
718 }
719 // Loop through the rest
720 while (next_use < info->num_arg_words) {
721 int low_reg;
722 int high_reg = -1;
723 rl_arg = info->args[next_use];
724 rl_arg = UpdateRawLoc(rl_arg);
725 if (rl_arg.location == kLocPhysReg) {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]726 low_reg = rl_arg.reg.GetReg();
727 if (rl_arg.wide) {
728 high_reg = rl_arg.reg.GetHighReg();
729 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]730 } else {
731 low_reg = TargetReg(kArg2);
732 if (rl_arg.wide) {
733 high_reg = TargetReg(kArg3);
734 LoadValueDirectWideFixed(rl_arg, low_reg, high_reg);
735 } else {
736 LoadValueDirectFixed(rl_arg, low_reg);
737 }
738 call_state = next_call_insn(cu_, info, call_state, target_method,
739 vtable_idx, direct_code, direct_method, type);
740 }
741 int outs_offset = (next_use + 1) * 4;
742 if (rl_arg.wide) {
743 StoreBaseDispWide(TargetReg(kSp), outs_offset, low_reg, high_reg);
744 next_use += 2;
745 } else {
746 StoreWordDisp(TargetReg(kSp), outs_offset, low_reg);
747 next_use++;
748 }
749 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
750 direct_code, direct_method, type);
751 }
752 }
753
754 call_state = LoadArgRegs(info, call_state, next_call_insn,
755 target_method, vtable_idx, direct_code, direct_method,
756 type, skip_this);
757
758 if (pcrLabel) {
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]759 *pcrLabel = GenNullCheck(TargetReg(kArg1), info->opt_flags);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]760 }
761 return call_state;
762}
763
764/*
765 * May have 0+ arguments (also used for jumbo). Note that
766 * source virtual registers may be in physical registers, so may
767 * need to be flushed to home location before copying. This
768 * applies to arg3 and above (see below).
769 *
770 * Two general strategies:
771 * If < 20 arguments
772 * Pass args 3-18 using vldm/vstm block copy
773 * Pass arg0, arg1 & arg2 in kArg1-kArg3
774 * If 20+ arguments
775 * Pass args arg19+ using memcpy block copy
776 * Pass arg0, arg1 & arg2 in kArg1-kArg3
777 *
778 */
779int Mir2Lir::GenDalvikArgsRange(CallInfo* info, int call_state,
780 LIR** pcrLabel, NextCallInsn next_call_insn,
781 const MethodReference& target_method,
782 uint32_t vtable_idx, uintptr_t direct_code, uintptr_t direct_method,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]783 InvokeType type, bool skip_this) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]784 // If we can treat it as non-range (Jumbo ops will use range form)
785 if (info->num_arg_words <= 5)
786 return GenDalvikArgsNoRange(info, call_state, pcrLabel,
787 next_call_insn, target_method, vtable_idx,
788 direct_code, direct_method, type, skip_this);
789 /*
790 * First load the non-register arguments. Both forms expect all
791 * of the source arguments to be in their home frame location, so
792 * scan the s_reg names and flush any that have been promoted to
793 * frame backing storage.
794 */
795 // Scan the rest of the args - if in phys_reg flush to memory
796 for (int next_arg = 0; next_arg < info->num_arg_words;) {
797 RegLocation loc = info->args[next_arg];
798 if (loc.wide) {
799 loc = UpdateLocWide(loc);
800 if ((next_arg >= 2) && (loc.location == kLocPhysReg)) {
801 StoreBaseDispWide(TargetReg(kSp), SRegOffset(loc.s_reg_low),
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]802 loc.reg.GetReg(), loc.reg.GetHighReg());
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]803 }
804 next_arg += 2;
805 } else {
806 loc = UpdateLoc(loc);
807 if ((next_arg >= 3) && (loc.location == kLocPhysReg)) {
808 StoreBaseDisp(TargetReg(kSp), SRegOffset(loc.s_reg_low),
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]809 loc.reg.GetReg(), kWord);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]810 }
811 next_arg++;
812 }
813 }
814
Razvan A Lupusoru2c498d12014-01-29 16:02:57 -0800[diff] [blame]815 // Logic below assumes that Method pointer is at offset zero from SP.
816 DCHECK_EQ(VRegOffset(static_cast<int>(kVRegMethodPtrBaseReg)), 0);
817
818 // The first 3 arguments are passed via registers.
819 // TODO: For 64-bit, instead of hardcoding 4 for Method* size, we should either
820 // get size of uintptr_t or size of object reference according to model being used.
821 int outs_offset = 4 /* Method* */ + (3 * sizeof(uint32_t));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]822 int start_offset = SRegOffset(info->args[3].s_reg_low);
Razvan A Lupusoru2c498d12014-01-29 16:02:57 -0800[diff] [blame]823 int regs_left_to_pass_via_stack = info->num_arg_words - 3;
824 DCHECK_GT(regs_left_to_pass_via_stack, 0);
825
826 if (cu_->instruction_set == kThumb2 && regs_left_to_pass_via_stack <= 16) {
827 // Use vldm/vstm pair using kArg3 as a temp
828 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
829 direct_code, direct_method, type);
830 OpRegRegImm(kOpAdd, TargetReg(kArg3), TargetReg(kSp), start_offset);
831 LIR* ld = OpVldm(TargetReg(kArg3), regs_left_to_pass_via_stack);
832 // TUNING: loosen barrier
833 ld->u.m.def_mask = ENCODE_ALL;
834 SetMemRefType(ld, true /* is_load */, kDalvikReg);
835 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
836 direct_code, direct_method, type);
837 OpRegRegImm(kOpAdd, TargetReg(kArg3), TargetReg(kSp), 4 /* Method* */ + (3 * 4));
838 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
839 direct_code, direct_method, type);
840 LIR* st = OpVstm(TargetReg(kArg3), regs_left_to_pass_via_stack);
841 SetMemRefType(st, false /* is_load */, kDalvikReg);
842 st->u.m.def_mask = ENCODE_ALL;
843 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
844 direct_code, direct_method, type);
845 } else if (cu_->instruction_set == kX86) {
846 int current_src_offset = start_offset;
847 int current_dest_offset = outs_offset;
848
849 while (regs_left_to_pass_via_stack > 0) {
850 // This is based on the knowledge that the stack itself is 16-byte aligned.
851 bool src_is_16b_aligned = (current_src_offset & 0xF) == 0;
852 bool dest_is_16b_aligned = (current_dest_offset & 0xF) == 0;
853 size_t bytes_to_move;
854
855 /*
856 * The amount to move defaults to 32-bit. If there are 4 registers left to move, then do a
857 * a 128-bit move because we won't get the chance to try to aligned. If there are more than
858 * 4 registers left to move, consider doing a 128-bit only if either src or dest are aligned.
859 * We do this because we could potentially do a smaller move to align.
860 */
861 if (regs_left_to_pass_via_stack == 4 ||
862 (regs_left_to_pass_via_stack > 4 && (src_is_16b_aligned || dest_is_16b_aligned))) {
863 // Moving 128-bits via xmm register.
864 bytes_to_move = sizeof(uint32_t) * 4;
865
866 // Allocate a free xmm temp. Since we are working through the calling sequence,
867 // we expect to have an xmm temporary available.
868 int temp = AllocTempDouble();
869 CHECK_GT(temp, 0);
870
871 LIR* ld1 = nullptr;
872 LIR* ld2 = nullptr;
873 LIR* st1 = nullptr;
874 LIR* st2 = nullptr;
875
876 /*
877 * The logic is similar for both loads and stores. If we have 16-byte alignment,
878 * do an aligned move. If we have 8-byte alignment, then do the move in two
879 * parts. This approach prevents possible cache line splits. Finally, fall back
880 * to doing an unaligned move. In most cases we likely won't split the cache
881 * line but we cannot prove it and thus take a conservative approach.
882 */
883 bool src_is_8b_aligned = (current_src_offset & 0x7) == 0;
884 bool dest_is_8b_aligned = (current_dest_offset & 0x7) == 0;
885
886 if (src_is_16b_aligned) {
887 ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovA128FP);
888 } else if (src_is_8b_aligned) {
889 ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovLo128FP);
890 ld2 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset + (bytes_to_move >> 1), kMovHi128FP);
891 } else {
892 ld1 = OpMovRegMem(temp, TargetReg(kSp), current_src_offset, kMovU128FP);
893 }
894
895 if (dest_is_16b_aligned) {
896 st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovA128FP);
897 } else if (dest_is_8b_aligned) {
898 st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovLo128FP);
899 st2 = OpMovMemReg(TargetReg(kSp), current_dest_offset + (bytes_to_move >> 1), temp, kMovHi128FP);
900 } else {
901 st1 = OpMovMemReg(TargetReg(kSp), current_dest_offset, temp, kMovU128FP);
902 }
903
904 // TODO If we could keep track of aliasing information for memory accesses that are wider
905 // than 64-bit, we wouldn't need to set up a barrier.
906 if (ld1 != nullptr) {
907 if (ld2 != nullptr) {
908 // For 64-bit load we can actually set up the aliasing information.
909 AnnotateDalvikRegAccess(ld1, current_src_offset >> 2, true, true);
910 AnnotateDalvikRegAccess(ld2, (current_src_offset + (bytes_to_move >> 1)) >> 2, true, true);
911 } else {
912 // Set barrier for 128-bit load.
913 SetMemRefType(ld1, true /* is_load */, kDalvikReg);
914 ld1->u.m.def_mask = ENCODE_ALL;
915 }
916 }
917 if (st1 != nullptr) {
918 if (st2 != nullptr) {
919 // For 64-bit store we can actually set up the aliasing information.
920 AnnotateDalvikRegAccess(st1, current_dest_offset >> 2, false, true);
921 AnnotateDalvikRegAccess(st2, (current_dest_offset + (bytes_to_move >> 1)) >> 2, false, true);
922 } else {
923 // Set barrier for 128-bit store.
924 SetMemRefType(st1, false /* is_load */, kDalvikReg);
925 st1->u.m.def_mask = ENCODE_ALL;
926 }
927 }
928
929 // Free the temporary used for the data movement.
930 FreeTemp(temp);
931 } else {
932 // Moving 32-bits via general purpose register.
933 bytes_to_move = sizeof(uint32_t);
934
935 // Instead of allocating a new temp, simply reuse one of the registers being used
936 // for argument passing.
937 int temp = TargetReg(kArg3);
938
939 // Now load the argument VR and store to the outs.
940 LoadWordDisp(TargetReg(kSp), current_src_offset, temp);
941 StoreWordDisp(TargetReg(kSp), current_dest_offset, temp);
942 }
943
944 current_src_offset += bytes_to_move;
945 current_dest_offset += bytes_to_move;
946 regs_left_to_pass_via_stack -= (bytes_to_move >> 2);
947 }
948 } else {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]949 // Generate memcpy
950 OpRegRegImm(kOpAdd, TargetReg(kArg0), TargetReg(kSp), outs_offset);
951 OpRegRegImm(kOpAdd, TargetReg(kArg1), TargetReg(kSp), start_offset);
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]952 CallRuntimeHelperRegRegImm(QUICK_ENTRYPOINT_OFFSET(pMemcpy), TargetReg(kArg0),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]953 TargetReg(kArg1), (info->num_arg_words - 3) * 4, false);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]954 }
955
956 call_state = LoadArgRegs(info, call_state, next_call_insn,
957 target_method, vtable_idx, direct_code, direct_method,
958 type, skip_this);
959
960 call_state = next_call_insn(cu_, info, call_state, target_method, vtable_idx,
961 direct_code, direct_method, type);
962 if (pcrLabel) {
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]963 *pcrLabel = GenNullCheck(TargetReg(kArg1), info->opt_flags);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]964 }
965 return call_state;
966}
967
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]968RegLocation Mir2Lir::InlineTarget(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]969 RegLocation res;
970 if (info->result.location == kLocInvalid) {
971 res = GetReturn(false);
972 } else {
973 res = info->result;
974 }
975 return res;
976}
977
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]978RegLocation Mir2Lir::InlineTargetWide(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]979 RegLocation res;
980 if (info->result.location == kLocInvalid) {
981 res = GetReturnWide(false);
982 } else {
983 res = info->result;
984 }
985 return res;
986}
987
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]988bool Mir2Lir::GenInlinedCharAt(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]989 if (cu_->instruction_set == kMips) {
990 // TODO - add Mips implementation
991 return false;
992 }
993 // Location of reference to data array
994 int value_offset = mirror::String::ValueOffset().Int32Value();
995 // Location of count
996 int count_offset = mirror::String::CountOffset().Int32Value();
997 // Starting offset within data array
998 int offset_offset = mirror::String::OffsetOffset().Int32Value();
999 // Start of char data with array_
1000 int data_offset = mirror::Array::DataOffset(sizeof(uint16_t)).Int32Value();
1001
1002 RegLocation rl_obj = info->args[0];
1003 RegLocation rl_idx = info->args[1];
1004 rl_obj = LoadValue(rl_obj, kCoreReg);
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1005 // X86 wants to avoid putting a constant index into a register.
1006 if (!(cu_->instruction_set == kX86 && rl_idx.is_const)) {
1007 rl_idx = LoadValue(rl_idx, kCoreReg);
1008 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1009 int reg_max;
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]1010 GenNullCheck(rl_obj.reg.GetReg(), info->opt_flags);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1011 bool range_check = (!(info->opt_flags & MIR_IGNORE_RANGE_CHECK));
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1012 LIR* range_check_branch = nullptr;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1013 int reg_off = INVALID_REG;
1014 int reg_ptr = INVALID_REG;
1015 if (cu_->instruction_set != kX86) {
1016 reg_off = AllocTemp();
1017 reg_ptr = AllocTemp();
1018 if (range_check) {
1019 reg_max = AllocTemp();
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1020 LoadWordDisp(rl_obj.reg.GetReg(), count_offset, reg_max);
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]1021 MarkPossibleNullPointerException(info->opt_flags);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1022 }
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1023 LoadWordDisp(rl_obj.reg.GetReg(), offset_offset, reg_off);
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]1024 MarkPossibleNullPointerException(info->opt_flags);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1025 LoadWordDisp(rl_obj.reg.GetReg(), value_offset, reg_ptr);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1026 if (range_check) {
1027 // Set up a launch pad to allow retry in case of bounds violation */
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1028 OpRegReg(kOpCmp, rl_idx.reg.GetReg(), reg_max);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1029 FreeTemp(reg_max);
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1030 range_check_branch = OpCondBranch(kCondUge, nullptr);
Brian Carlstrom6f485c62013-07-18 15:35:35 -0700[diff] [blame]1031 }
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1032 OpRegImm(kOpAdd, reg_ptr, data_offset);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1033 } else {
1034 if (range_check) {
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1035 // On x86, we can compare to memory directly
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1036 // Set up a launch pad to allow retry in case of bounds violation */
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1037 if (rl_idx.is_const) {
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1038 range_check_branch = OpCmpMemImmBranch(
1039 kCondUlt, INVALID_REG, rl_obj.reg.GetReg(), count_offset,
1040 mir_graph_->ConstantValue(rl_idx.orig_sreg), nullptr);
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1041 } else {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1042 OpRegMem(kOpCmp, rl_idx.reg.GetReg(), rl_obj.reg.GetReg(), count_offset);
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1043 range_check_branch = OpCondBranch(kCondUge, nullptr);
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1044 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1045 }
1046 reg_off = AllocTemp();
1047 reg_ptr = AllocTemp();
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1048 LoadWordDisp(rl_obj.reg.GetReg(), offset_offset, reg_off);
1049 LoadWordDisp(rl_obj.reg.GetReg(), value_offset, reg_ptr);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1050 }
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1051 if (rl_idx.is_const) {
1052 OpRegImm(kOpAdd, reg_off, mir_graph_->ConstantValue(rl_idx.orig_sreg));
1053 } else {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1054 OpRegReg(kOpAdd, reg_off, rl_idx.reg.GetReg());
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1055 }
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1056 FreeTemp(rl_obj.reg.GetReg());
1057 if (rl_idx.location == kLocPhysReg) {
1058 FreeTemp(rl_idx.reg.GetReg());
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1059 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1060 RegLocation rl_dest = InlineTarget(info);
1061 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1062 if (cu_->instruction_set != kX86) {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1063 LoadBaseIndexed(reg_ptr, reg_off, rl_result.reg.GetReg(), 1, kUnsignedHalf);
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1064 } else {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1065 LoadBaseIndexedDisp(reg_ptr, reg_off, 1, data_offset, rl_result.reg.GetReg(),
Mark Mendell2b724cb2014-02-06 05:24:20 -0800[diff] [blame]1066 INVALID_REG, kUnsignedHalf, INVALID_SREG);
1067 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1068 FreeTemp(reg_off);
1069 FreeTemp(reg_ptr);
1070 StoreValue(rl_dest, rl_result);
1071 if (range_check) {
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1072 DCHECK(range_check_branch != nullptr);
1073 info->opt_flags |= MIR_IGNORE_NULL_CHECK; // Record that we've already null checked.
1074 AddIntrinsicLaunchpad(info, range_check_branch);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1075 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1076 return true;
1077}
1078
1079// Generates an inlined String.is_empty or String.length.
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1080bool Mir2Lir::GenInlinedStringIsEmptyOrLength(CallInfo* info, bool is_empty) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1081 if (cu_->instruction_set == kMips) {
1082 // TODO - add Mips implementation
1083 return false;
1084 }
1085 // dst = src.length();
1086 RegLocation rl_obj = info->args[0];
1087 rl_obj = LoadValue(rl_obj, kCoreReg);
1088 RegLocation rl_dest = InlineTarget(info);
1089 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]1090 GenNullCheck(rl_obj.reg.GetReg(), info->opt_flags);
1091 LoadWordDisp(rl_obj.reg.GetReg(), mirror::String::CountOffset().Int32Value(),
1092 rl_result.reg.GetReg());
1093 MarkPossibleNullPointerException(info->opt_flags);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1094 if (is_empty) {
1095 // dst = (dst == 0);
1096 if (cu_->instruction_set == kThumb2) {
1097 int t_reg = AllocTemp();
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1098 OpRegReg(kOpNeg, t_reg, rl_result.reg.GetReg());
1099 OpRegRegReg(kOpAdc, rl_result.reg.GetReg(), rl_result.reg.GetReg(), t_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1100 } else {
1101 DCHECK_EQ(cu_->instruction_set, kX86);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1102 OpRegImm(kOpSub, rl_result.reg.GetReg(), 1);
1103 OpRegImm(kOpLsr, rl_result.reg.GetReg(), 31);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1104 }
1105 }
1106 StoreValue(rl_dest, rl_result);
1107 return true;
1108}
1109
Vladimir Marko6bdf1ff2013-10-29 17:40:46 +0000[diff] [blame]1110bool Mir2Lir::GenInlinedReverseBytes(CallInfo* info, OpSize size) {
1111 if (cu_->instruction_set == kMips) {
1112 // TODO - add Mips implementation
1113 return false;
1114 }
1115 RegLocation rl_src_i = info->args[0];
Mark Mendell55d0eac2014-02-06 11:02:52 -0800[diff] [blame]1116 RegLocation rl_dest = (size == kLong) ? InlineTargetWide(info) : InlineTarget(info); // result reg
Vladimir Marko6bdf1ff2013-10-29 17:40:46 +0000[diff] [blame]1117 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
1118 if (size == kLong) {
1119 RegLocation rl_i = LoadValueWide(rl_src_i, kCoreReg);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1120 int r_i_low = rl_i.reg.GetReg();
1121 if (rl_i.reg.GetReg() == rl_result.reg.GetReg()) {
1122 // First REV shall clobber rl_result.reg.GetReg(), save the value in a temp for the second REV.
Vladimir Markof246af22013-11-27 12:30:15 +0000[diff] [blame]1123 r_i_low = AllocTemp();
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1124 OpRegCopy(r_i_low, rl_i.reg.GetReg());
Vladimir Markof246af22013-11-27 12:30:15 +0000[diff] [blame]1125 }
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1126 OpRegReg(kOpRev, rl_result.reg.GetReg(), rl_i.reg.GetHighReg());
1127 OpRegReg(kOpRev, rl_result.reg.GetHighReg(), r_i_low);
1128 if (rl_i.reg.GetReg() == rl_result.reg.GetReg()) {
Vladimir Markof246af22013-11-27 12:30:15 +0000[diff] [blame]1129 FreeTemp(r_i_low);
1130 }
Vladimir Marko6bdf1ff2013-10-29 17:40:46 +0000[diff] [blame]1131 StoreValueWide(rl_dest, rl_result);
1132 } else {
1133 DCHECK(size == kWord || size == kSignedHalf);
1134 OpKind op = (size == kWord) ? kOpRev : kOpRevsh;
1135 RegLocation rl_i = LoadValue(rl_src_i, kCoreReg);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1136 OpRegReg(op, rl_result.reg.GetReg(), rl_i.reg.GetReg());
Vladimir Marko6bdf1ff2013-10-29 17:40:46 +0000[diff] [blame]1137 StoreValue(rl_dest, rl_result);
1138 }
1139 return true;
1140}
1141
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1142bool Mir2Lir::GenInlinedAbsInt(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1143 if (cu_->instruction_set == kMips) {
1144 // TODO - add Mips implementation
1145 return false;
1146 }
1147 RegLocation rl_src = info->args[0];
1148 rl_src = LoadValue(rl_src, kCoreReg);
1149 RegLocation rl_dest = InlineTarget(info);
1150 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
1151 int sign_reg = AllocTemp();
1152 // abs(x) = y<=x>>31, (x+y)^y.
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1153 OpRegRegImm(kOpAsr, sign_reg, rl_src.reg.GetReg(), 31);
1154 OpRegRegReg(kOpAdd, rl_result.reg.GetReg(), rl_src.reg.GetReg(), sign_reg);
1155 OpRegReg(kOpXor, rl_result.reg.GetReg(), sign_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1156 StoreValue(rl_dest, rl_result);
1157 return true;
1158}
1159
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1160bool Mir2Lir::GenInlinedAbsLong(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1161 if (cu_->instruction_set == kMips) {
1162 // TODO - add Mips implementation
1163 return false;
1164 }
1165 if (cu_->instruction_set == kThumb2) {
1166 RegLocation rl_src = info->args[0];
1167 rl_src = LoadValueWide(rl_src, kCoreReg);
1168 RegLocation rl_dest = InlineTargetWide(info);
1169 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
1170 int sign_reg = AllocTemp();
1171 // abs(x) = y<=x>>31, (x+y)^y.
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1172 OpRegRegImm(kOpAsr, sign_reg, rl_src.reg.GetHighReg(), 31);
1173 OpRegRegReg(kOpAdd, rl_result.reg.GetReg(), rl_src.reg.GetReg(), sign_reg);
1174 OpRegRegReg(kOpAdc, rl_result.reg.GetHighReg(), rl_src.reg.GetHighReg(), sign_reg);
1175 OpRegReg(kOpXor, rl_result.reg.GetReg(), sign_reg);
1176 OpRegReg(kOpXor, rl_result.reg.GetHighReg(), sign_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1177 StoreValueWide(rl_dest, rl_result);
1178 return true;
1179 } else {
1180 DCHECK_EQ(cu_->instruction_set, kX86);
1181 // Reuse source registers to avoid running out of temps
1182 RegLocation rl_src = info->args[0];
1183 rl_src = LoadValueWide(rl_src, kCoreReg);
1184 RegLocation rl_dest = InlineTargetWide(info);
1185 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1186 OpRegCopyWide(rl_result.reg.GetReg(), rl_result.reg.GetHighReg(), rl_src.reg.GetReg(), rl_src.reg.GetHighReg());
1187 FreeTemp(rl_src.reg.GetReg());
1188 FreeTemp(rl_src.reg.GetHighReg());
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1189 int sign_reg = AllocTemp();
1190 // abs(x) = y<=x>>31, (x+y)^y.
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1191 OpRegRegImm(kOpAsr, sign_reg, rl_result.reg.GetHighReg(), 31);
1192 OpRegReg(kOpAdd, rl_result.reg.GetReg(), sign_reg);
1193 OpRegReg(kOpAdc, rl_result.reg.GetHighReg(), sign_reg);
1194 OpRegReg(kOpXor, rl_result.reg.GetReg(), sign_reg);
1195 OpRegReg(kOpXor, rl_result.reg.GetHighReg(), sign_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1196 StoreValueWide(rl_dest, rl_result);
1197 return true;
1198 }
1199}
1200
Yixin Shoudbb17e32014-02-07 05:09:30 -0800[diff] [blame]1201bool Mir2Lir::GenInlinedAbsFloat(CallInfo* info) {
1202 if (cu_->instruction_set == kMips) {
1203 // TODO - add Mips implementation
1204 return false;
1205 }
1206 RegLocation rl_src = info->args[0];
1207 rl_src = LoadValue(rl_src, kCoreReg);
1208 RegLocation rl_dest = InlineTarget(info);
1209 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
1210 int signMask = AllocTemp();
1211 LoadConstant(signMask, 0x7fffffff);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1212 OpRegRegReg(kOpAnd, rl_result.reg.GetReg(), rl_src.reg.GetReg(), signMask);
Yixin Shoudbb17e32014-02-07 05:09:30 -0800[diff] [blame]1213 FreeTemp(signMask);
1214 StoreValue(rl_dest, rl_result);
1215 return true;
1216}
1217
1218bool Mir2Lir::GenInlinedAbsDouble(CallInfo* info) {
1219 if (cu_->instruction_set == kMips) {
1220 // TODO - add Mips implementation
1221 return false;
1222 }
1223 RegLocation rl_src = info->args[0];
1224 rl_src = LoadValueWide(rl_src, kCoreReg);
1225 RegLocation rl_dest = InlineTargetWide(info);
1226 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1227 OpRegCopyWide(rl_result.reg.GetReg(), rl_result.reg.GetHighReg(), rl_src.reg.GetReg(), rl_src.reg.GetHighReg());
1228 FreeTemp(rl_src.reg.GetReg());
1229 FreeTemp(rl_src.reg.GetHighReg());
Yixin Shoudbb17e32014-02-07 05:09:30 -0800[diff] [blame]1230 int signMask = AllocTemp();
1231 LoadConstant(signMask, 0x7fffffff);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1232 OpRegReg(kOpAnd, rl_result.reg.GetHighReg(), signMask);
Yixin Shoudbb17e32014-02-07 05:09:30 -0800[diff] [blame]1233 FreeTemp(signMask);
1234 StoreValueWide(rl_dest, rl_result);
1235 return true;
1236}
1237
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1238bool Mir2Lir::GenInlinedFloatCvt(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1239 if (cu_->instruction_set == kMips) {
1240 // TODO - add Mips implementation
1241 return false;
1242 }
1243 RegLocation rl_src = info->args[0];
1244 RegLocation rl_dest = InlineTarget(info);
1245 StoreValue(rl_dest, rl_src);
1246 return true;
1247}
1248
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1249bool Mir2Lir::GenInlinedDoubleCvt(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1250 if (cu_->instruction_set == kMips) {
1251 // TODO - add Mips implementation
1252 return false;
1253 }
1254 RegLocation rl_src = info->args[0];
1255 RegLocation rl_dest = InlineTargetWide(info);
1256 StoreValueWide(rl_dest, rl_src);
1257 return true;
1258}
1259
1260/*
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1261 * Fast String.indexOf(I) & (II). Tests for simple case of char <= 0xFFFF,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1262 * otherwise bails to standard library code.
1263 */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1264bool Mir2Lir::GenInlinedIndexOf(CallInfo* info, bool zero_based) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1265 if (cu_->instruction_set == kMips) {
1266 // TODO - add Mips implementation
1267 return false;
1268 }
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1269 RegLocation rl_obj = info->args[0];
1270 RegLocation rl_char = info->args[1];
1271 if (rl_char.is_const && (mir_graph_->ConstantValue(rl_char) & ~0xFFFF) != 0) {
1272 // Code point beyond 0xFFFF. Punt to the real String.indexOf().
1273 return false;
1274 }
1275
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]1276 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1277 LockCallTemps(); // Using fixed registers
1278 int reg_ptr = TargetReg(kArg0);
1279 int reg_char = TargetReg(kArg1);
1280 int reg_start = TargetReg(kArg2);
1281
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1282 LoadValueDirectFixed(rl_obj, reg_ptr);
1283 LoadValueDirectFixed(rl_char, reg_char);
1284 if (zero_based) {
1285 LoadConstant(reg_start, 0);
1286 } else {
buzbeea44d4f52014-03-05 11:26:39 -0800[diff] [blame]1287 RegLocation rl_start = info->args[2]; // 3rd arg only present in III flavor of IndexOf.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1288 LoadValueDirectFixed(rl_start, reg_start);
1289 }
Mark Mendell4028a6c2014-02-19 20:06:20 -0800[diff] [blame]1290 int r_tgt = LoadHelper(QUICK_ENTRYPOINT_OFFSET(pIndexOf));
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]1291 GenNullCheck(reg_ptr, info->opt_flags);
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1292 LIR* high_code_point_branch =
1293 rl_char.is_const ? nullptr : OpCmpImmBranch(kCondGt, reg_char, 0xFFFF, nullptr);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1294 // NOTE: not a safepoint
Mark Mendell4028a6c2014-02-19 20:06:20 -0800[diff] [blame]1295 OpReg(kOpBlx, r_tgt);
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1296 if (!rl_char.is_const) {
1297 // Add the slow path for code points beyond 0xFFFF.
1298 DCHECK(high_code_point_branch != nullptr);
1299 LIR* resume_tgt = NewLIR0(kPseudoTargetLabel);
1300 info->opt_flags |= MIR_IGNORE_NULL_CHECK; // Record that we've null checked.
1301 AddIntrinsicLaunchpad(info, high_code_point_branch, resume_tgt);
1302 } else {
1303 DCHECK_EQ(mir_graph_->ConstantValue(rl_char) & ~0xFFFF, 0);
1304 DCHECK(high_code_point_branch == nullptr);
1305 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1306 RegLocation rl_return = GetReturn(false);
1307 RegLocation rl_dest = InlineTarget(info);
1308 StoreValue(rl_dest, rl_return);
1309 return true;
1310}
1311
1312/* Fast string.compareTo(Ljava/lang/string;)I. */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1313bool Mir2Lir::GenInlinedStringCompareTo(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1314 if (cu_->instruction_set == kMips) {
1315 // TODO - add Mips implementation
1316 return false;
1317 }
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]1318 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1319 LockCallTemps(); // Using fixed registers
1320 int reg_this = TargetReg(kArg0);
1321 int reg_cmp = TargetReg(kArg1);
1322
1323 RegLocation rl_this = info->args[0];
1324 RegLocation rl_cmp = info->args[1];
1325 LoadValueDirectFixed(rl_this, reg_this);
1326 LoadValueDirectFixed(rl_cmp, reg_cmp);
1327 int r_tgt = (cu_->instruction_set != kX86) ?
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1328 LoadHelper(QUICK_ENTRYPOINT_OFFSET(pStringCompareTo)) : 0;
Dave Allisonb373e092014-02-20 16:06:36 -0800[diff] [blame]1329 GenNullCheck(reg_this, info->opt_flags);
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1330 info->opt_flags |= MIR_IGNORE_NULL_CHECK; // Record that we've null checked.
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]1331 // TUNING: check if rl_cmp.s_reg_low is already null checked
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1332 LIR* cmp_null_check_branch = OpCmpImmBranch(kCondEq, reg_cmp, 0, nullptr);
1333 AddIntrinsicLaunchpad(info, cmp_null_check_branch);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1334 // NOTE: not a safepoint
1335 if (cu_->instruction_set != kX86) {
1336 OpReg(kOpBlx, r_tgt);
1337 } else {
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1338 OpThreadMem(kOpBlx, QUICK_ENTRYPOINT_OFFSET(pStringCompareTo));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1339 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1340 RegLocation rl_return = GetReturn(false);
1341 RegLocation rl_dest = InlineTarget(info);
1342 StoreValue(rl_dest, rl_return);
1343 return true;
1344}
1345
1346bool Mir2Lir::GenInlinedCurrentThread(CallInfo* info) {
1347 RegLocation rl_dest = InlineTarget(info);
1348 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1349 ThreadOffset offset = Thread::PeerOffset();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1350 if (cu_->instruction_set == kThumb2 || cu_->instruction_set == kMips) {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1351 LoadWordDisp(TargetReg(kSelf), offset.Int32Value(), rl_result.reg.GetReg());
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1352 } else {
1353 CHECK(cu_->instruction_set == kX86);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1354 reinterpret_cast<X86Mir2Lir*>(this)->OpRegThreadMem(kOpMov, rl_result.reg.GetReg(), offset);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1355 }
1356 StoreValue(rl_dest, rl_result);
1357 return true;
1358}
1359
1360bool Mir2Lir::GenInlinedUnsafeGet(CallInfo* info,
1361 bool is_long, bool is_volatile) {
1362 if (cu_->instruction_set == kMips) {
1363 // TODO - add Mips implementation
1364 return false;
1365 }
1366 // Unused - RegLocation rl_src_unsafe = info->args[0];
1367 RegLocation rl_src_obj = info->args[1]; // Object
1368 RegLocation rl_src_offset = info->args[2]; // long low
1369 rl_src_offset.wide = 0; // ignore high half in info->args[3]
Mark Mendell55d0eac2014-02-06 11:02:52 -0800[diff] [blame]1370 RegLocation rl_dest = is_long ? InlineTargetWide(info) : InlineTarget(info); // result reg
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1371 if (is_volatile) {
1372 GenMemBarrier(kLoadLoad);
1373 }
1374 RegLocation rl_object = LoadValue(rl_src_obj, kCoreReg);
1375 RegLocation rl_offset = LoadValue(rl_src_offset, kCoreReg);
1376 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
1377 if (is_long) {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1378 OpRegReg(kOpAdd, rl_object.reg.GetReg(), rl_offset.reg.GetReg());
1379 LoadBaseDispWide(rl_object.reg.GetReg(), 0, rl_result.reg.GetReg(), rl_result.reg.GetHighReg(), INVALID_SREG);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1380 StoreValueWide(rl_dest, rl_result);
1381 } else {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1382 LoadBaseIndexed(rl_object.reg.GetReg(), rl_offset.reg.GetReg(), rl_result.reg.GetReg(), 0, kWord);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1383 StoreValue(rl_dest, rl_result);
1384 }
1385 return true;
1386}
1387
1388bool Mir2Lir::GenInlinedUnsafePut(CallInfo* info, bool is_long,
1389 bool is_object, bool is_volatile, bool is_ordered) {
1390 if (cu_->instruction_set == kMips) {
1391 // TODO - add Mips implementation
1392 return false;
1393 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1394 // Unused - RegLocation rl_src_unsafe = info->args[0];
1395 RegLocation rl_src_obj = info->args[1]; // Object
1396 RegLocation rl_src_offset = info->args[2]; // long low
1397 rl_src_offset.wide = 0; // ignore high half in info->args[3]
1398 RegLocation rl_src_value = info->args[4]; // value to store
1399 if (is_volatile || is_ordered) {
1400 GenMemBarrier(kStoreStore);
1401 }
1402 RegLocation rl_object = LoadValue(rl_src_obj, kCoreReg);
1403 RegLocation rl_offset = LoadValue(rl_src_offset, kCoreReg);
1404 RegLocation rl_value;
1405 if (is_long) {
1406 rl_value = LoadValueWide(rl_src_value, kCoreReg);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1407 OpRegReg(kOpAdd, rl_object.reg.GetReg(), rl_offset.reg.GetReg());
1408 StoreBaseDispWide(rl_object.reg.GetReg(), 0, rl_value.reg.GetReg(), rl_value.reg.GetHighReg());
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1409 } else {
1410 rl_value = LoadValue(rl_src_value, kCoreReg);
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1411 StoreBaseIndexed(rl_object.reg.GetReg(), rl_offset.reg.GetReg(), rl_value.reg.GetReg(), 0, kWord);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1412 }
Mark Mendelldf8ee2e2014-01-27 16:37:47 -0800[diff] [blame]1413
1414 // Free up the temp early, to ensure x86 doesn't run out of temporaries in MarkGCCard.
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1415 FreeTemp(rl_offset.reg.GetReg());
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1416 if (is_volatile) {
1417 GenMemBarrier(kStoreLoad);
1418 }
1419 if (is_object) {
Bill Buzbee00e1ec62014-02-27 23:44:13 +0000[diff] [blame]1420 MarkGCCard(rl_value.reg.GetReg(), rl_object.reg.GetReg());
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1421 }
1422 return true;
1423}
1424
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1425void Mir2Lir::GenInvoke(CallInfo* info) {
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1426 DCHECK(cu_->compiler_driver->GetMethodInlinerMap() != nullptr);
1427 if (cu_->compiler_driver->GetMethodInlinerMap()->GetMethodInliner(cu_->dex_file)
1428 ->GenIntrinsic(this, info)) {
1429 return;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1430 }
Vladimir Marko3bc86152014-03-13 14:11:28 +0000[diff] [blame]1431 GenInvokeNoInline(info);
1432}
1433
1434void Mir2Lir::GenInvokeNoInline(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1435 int call_state = 0;
1436 LIR* null_ck;
1437 LIR** p_null_ck = NULL;
1438 NextCallInsn next_call_insn;
1439 FlushAllRegs(); /* Everything to home location */
1440 // Explicit register usage
1441 LockCallTemps();
1442
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]1443 const MirMethodLoweringInfo& method_info = mir_graph_->GetMethodLoweringInfo(info->mir);
1444 cu_->compiler_driver->ProcessedInvoke(method_info.GetInvokeType(), method_info.StatsFlags());
1445 InvokeType original_type = static_cast<InvokeType>(method_info.GetInvokeType());
1446 info->type = static_cast<InvokeType>(method_info.GetSharpType());
1447 bool fast_path = method_info.FastPath();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1448 bool skip_this;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1449 if (info->type == kInterface) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1450 next_call_insn = fast_path ? NextInterfaceCallInsn : NextInterfaceCallInsnWithAccessCheck;
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]1451 skip_this = fast_path;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1452 } else if (info->type == kDirect) {
1453 if (fast_path) {
1454 p_null_ck = &null_ck;
1455 }
1456 next_call_insn = fast_path ? NextSDCallInsn : NextDirectCallInsnSP;
1457 skip_this = false;
1458 } else if (info->type == kStatic) {
1459 next_call_insn = fast_path ? NextSDCallInsn : NextStaticCallInsnSP;
1460 skip_this = false;
1461 } else if (info->type == kSuper) {
1462 DCHECK(!fast_path); // Fast path is a direct call.
1463 next_call_insn = NextSuperCallInsnSP;
1464 skip_this = false;
1465 } else {
1466 DCHECK_EQ(info->type, kVirtual);
1467 next_call_insn = fast_path ? NextVCallInsn : NextVCallInsnSP;
1468 skip_this = fast_path;
1469 }
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]1470 MethodReference target_method = method_info.GetTargetMethod();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1471 if (!info->is_range) {
1472 call_state = GenDalvikArgsNoRange(info, call_state, p_null_ck,
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]1473 next_call_insn, target_method, method_info.VTableIndex(),
1474 method_info.DirectCode(), method_info.DirectMethod(),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1475 original_type, skip_this);
1476 } else {
1477 call_state = GenDalvikArgsRange(info, call_state, p_null_ck,
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]1478 next_call_insn, target_method, method_info.VTableIndex(),
1479 method_info.DirectCode(), method_info.DirectMethod(),
1480 original_type, skip_this);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1481 }
1482 // Finish up any of the call sequence not interleaved in arg loading
1483 while (call_state >= 0) {
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]1484 call_state = next_call_insn(cu_, info, call_state, target_method, method_info.VTableIndex(),
1485 method_info.DirectCode(), method_info.DirectMethod(), original_type);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1486 }
1487 LIR* call_inst;
1488 if (cu_->instruction_set != kX86) {
1489 call_inst = OpReg(kOpBlx, TargetReg(kInvokeTgt));
1490 } else {
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]1491 if (fast_path) {
Vladimir Markof096aad2014-01-23 15:51:58 +0000[diff] [blame]1492 if (method_info.DirectCode() == static_cast<uintptr_t>(-1)) {
Mark Mendell55d0eac2014-02-06 11:02:52 -0800[diff] [blame]1493 // We can have the linker fixup a call relative.
1494 call_inst =
Jeff Hao49161ce2014-03-12 11:05:25 -0700[diff] [blame]1495 reinterpret_cast<X86Mir2Lir*>(this)->CallWithLinkerFixup(target_method, info->type);
Mark Mendell55d0eac2014-02-06 11:02:52 -0800[diff] [blame]1496 } else {
1497 call_inst = OpMem(kOpBlx, TargetReg(kArg0),
1498 mirror::ArtMethod::EntryPointFromQuickCompiledCodeOffset().Int32Value());
1499 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1500 } else {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1501 ThreadOffset trampoline(-1);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1502 switch (info->type) {
1503 case kInterface:
Jeff Hao88474b42013-10-23 16:24:40 -0700[diff] [blame]1504 trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeInterfaceTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1505 break;
1506 case kDirect:
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1507 trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeDirectTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1508 break;
1509 case kStatic:
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1510 trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeStaticTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1511 break;
1512 case kSuper:
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1513 trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeSuperTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1514 break;
1515 case kVirtual:
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1516 trampoline = QUICK_ENTRYPOINT_OFFSET(pInvokeVirtualTrampolineWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1517 break;
1518 default:
1519 LOG(FATAL) << "Unexpected invoke type";
1520 }
1521 call_inst = OpThreadMem(kOpBlx, trampoline);
1522 }
1523 }
1524 MarkSafepointPC(call_inst);
1525
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]1526 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1527 if (info->result.location != kLocInvalid) {
1528 // We have a following MOVE_RESULT - do it now.
1529 if (info->result.wide) {
1530 RegLocation ret_loc = GetReturnWide(info->result.fp);
1531 StoreValueWide(info->result, ret_loc);
1532 } else {
1533 RegLocation ret_loc = GetReturn(info->result.fp);
1534 StoreValue(info->result, ret_loc);
1535 }
1536 }
1537}
1538
1539} // namespace art