Gitiles
Code Review Sign In
review.blissroms.org / platform_art / be1ca55db3362f5b100c4c65da5342fd299520bb / . / compiler / dex / quick / gen_common.cc
blob: daf21df19d3c4f9329150a1fcd2e29b3288a6ff1 [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"
18#include "dex/compiler_internals.h"
19#include "dex/quick/mir_to_lir-inl.h"
Ian Rogers166db042013-07-26 12:05:57 -0700[diff] [blame]20#include "entrypoints/quick/quick_entrypoints.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]21#include "mirror/array.h"
Hiroshi Yamauchibe1ca552014-01-15 11:46:48 -0800[diff] [blame^]22#include "mirror/object-inl.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]23#include "verifier/method_verifier.h"
24
25namespace art {
26
27/*
28 * This source files contains "gen" codegen routines that should
29 * be applicable to most targets. Only mid-level support utilities
30 * and "op" calls may be used here.
31 */
32
33/*
buzbeeb48819d2013-09-14 16:15:25 -0700[diff] [blame]34 * Generate a kPseudoBarrier marker to indicate the boundary of special
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]35 * blocks.
36 */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]37void Mir2Lir::GenBarrier() {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]38 LIR* barrier = NewLIR0(kPseudoBarrier);
39 /* Mark all resources as being clobbered */
buzbeeb48819d2013-09-14 16:15:25 -0700[diff] [blame]40 DCHECK(!barrier->flags.use_def_invalid);
41 barrier->u.m.def_mask = ENCODE_ALL;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]42}
43
buzbee0d829482013-10-11 15:24:55 -0700[diff] [blame]44// TODO: need to do some work to split out targets with
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]45// condition codes and those without
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]46LIR* Mir2Lir::GenCheck(ConditionCode c_code, ThrowKind kind) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]47 DCHECK_NE(cu_->instruction_set, kMips);
48 LIR* tgt = RawLIR(0, kPseudoThrowTarget, kind, current_dalvik_offset_);
49 LIR* branch = OpCondBranch(c_code, tgt);
50 // Remember branch target - will process later
51 throw_launchpads_.Insert(tgt);
52 return branch;
53}
54
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]55LIR* Mir2Lir::GenImmedCheck(ConditionCode c_code, int reg, int imm_val, ThrowKind kind) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]56 LIR* tgt = RawLIR(0, kPseudoThrowTarget, kind, current_dalvik_offset_, reg, imm_val);
57 LIR* branch;
58 if (c_code == kCondAl) {
59 branch = OpUnconditionalBranch(tgt);
60 } else {
61 branch = OpCmpImmBranch(c_code, reg, imm_val, tgt);
62 }
63 // Remember branch target - will process later
64 throw_launchpads_.Insert(tgt);
65 return branch;
66}
67
68/* Perform null-check on a register. */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]69LIR* Mir2Lir::GenNullCheck(int s_reg, int m_reg, int opt_flags) {
Ian Rogersa9a82542013-10-04 11:17:26 -0700[diff] [blame]70 if (!(cu_->disable_opt & (1 << kNullCheckElimination)) && (opt_flags & MIR_IGNORE_NULL_CHECK)) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]71 return NULL;
72 }
73 return GenImmedCheck(kCondEq, m_reg, 0, kThrowNullPointer);
74}
75
76/* Perform check on two registers */
77LIR* Mir2Lir::GenRegRegCheck(ConditionCode c_code, int reg1, int reg2,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]78 ThrowKind kind) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]79 LIR* tgt = RawLIR(0, kPseudoThrowTarget, kind, current_dalvik_offset_, reg1, reg2);
80 LIR* branch = OpCmpBranch(c_code, reg1, reg2, tgt);
81 // Remember branch target - will process later
82 throw_launchpads_.Insert(tgt);
83 return branch;
84}
85
86void Mir2Lir::GenCompareAndBranch(Instruction::Code opcode, RegLocation rl_src1,
87 RegLocation rl_src2, LIR* taken,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]88 LIR* fall_through) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]89 ConditionCode cond;
90 switch (opcode) {
91 case Instruction::IF_EQ:
92 cond = kCondEq;
93 break;
94 case Instruction::IF_NE:
95 cond = kCondNe;
96 break;
97 case Instruction::IF_LT:
98 cond = kCondLt;
99 break;
100 case Instruction::IF_GE:
101 cond = kCondGe;
102 break;
103 case Instruction::IF_GT:
104 cond = kCondGt;
105 break;
106 case Instruction::IF_LE:
107 cond = kCondLe;
108 break;
109 default:
110 cond = static_cast<ConditionCode>(0);
111 LOG(FATAL) << "Unexpected opcode " << opcode;
112 }
113
114 // Normalize such that if either operand is constant, src2 will be constant
115 if (rl_src1.is_const) {
116 RegLocation rl_temp = rl_src1;
117 rl_src1 = rl_src2;
118 rl_src2 = rl_temp;
119 cond = FlipComparisonOrder(cond);
120 }
121
122 rl_src1 = LoadValue(rl_src1, kCoreReg);
123 // Is this really an immediate comparison?
124 if (rl_src2.is_const) {
125 // If it's already live in a register or not easily materialized, just keep going
126 RegLocation rl_temp = UpdateLoc(rl_src2);
127 if ((rl_temp.location == kLocDalvikFrame) &&
128 InexpensiveConstantInt(mir_graph_->ConstantValue(rl_src2))) {
129 // OK - convert this to a compare immediate and branch
130 OpCmpImmBranch(cond, rl_src1.low_reg, mir_graph_->ConstantValue(rl_src2), taken);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]131 return;
132 }
133 }
134 rl_src2 = LoadValue(rl_src2, kCoreReg);
135 OpCmpBranch(cond, rl_src1.low_reg, rl_src2.low_reg, taken);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]136}
137
138void Mir2Lir::GenCompareZeroAndBranch(Instruction::Code opcode, RegLocation rl_src, LIR* taken,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]139 LIR* fall_through) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]140 ConditionCode cond;
141 rl_src = LoadValue(rl_src, kCoreReg);
142 switch (opcode) {
143 case Instruction::IF_EQZ:
144 cond = kCondEq;
145 break;
146 case Instruction::IF_NEZ:
147 cond = kCondNe;
148 break;
149 case Instruction::IF_LTZ:
150 cond = kCondLt;
151 break;
152 case Instruction::IF_GEZ:
153 cond = kCondGe;
154 break;
155 case Instruction::IF_GTZ:
156 cond = kCondGt;
157 break;
158 case Instruction::IF_LEZ:
159 cond = kCondLe;
160 break;
161 default:
162 cond = static_cast<ConditionCode>(0);
163 LOG(FATAL) << "Unexpected opcode " << opcode;
164 }
165 OpCmpImmBranch(cond, rl_src.low_reg, 0, taken);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]166}
167
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]168void Mir2Lir::GenIntToLong(RegLocation rl_dest, RegLocation rl_src) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]169 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
170 if (rl_src.location == kLocPhysReg) {
171 OpRegCopy(rl_result.low_reg, rl_src.low_reg);
172 } else {
173 LoadValueDirect(rl_src, rl_result.low_reg);
174 }
175 OpRegRegImm(kOpAsr, rl_result.high_reg, rl_result.low_reg, 31);
176 StoreValueWide(rl_dest, rl_result);
177}
178
179void Mir2Lir::GenIntNarrowing(Instruction::Code opcode, RegLocation rl_dest,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]180 RegLocation rl_src) {
Brian Carlstrom6f485c62013-07-18 15:35:35 -0700[diff] [blame]181 rl_src = LoadValue(rl_src, kCoreReg);
182 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
183 OpKind op = kOpInvalid;
184 switch (opcode) {
185 case Instruction::INT_TO_BYTE:
186 op = kOp2Byte;
187 break;
188 case Instruction::INT_TO_SHORT:
189 op = kOp2Short;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]190 break;
Brian Carlstrom6f485c62013-07-18 15:35:35 -0700[diff] [blame]191 case Instruction::INT_TO_CHAR:
192 op = kOp2Char;
193 break;
194 default:
195 LOG(ERROR) << "Bad int conversion type";
196 }
197 OpRegReg(op, rl_result.low_reg, rl_src.low_reg);
198 StoreValue(rl_dest, rl_result);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]199}
200
201/*
202 * Let helper function take care of everything. Will call
203 * Array::AllocFromCode(type_idx, method, count);
204 * Note: AllocFromCode will handle checks for errNegativeArraySize.
205 */
206void Mir2Lir::GenNewArray(uint32_t type_idx, RegLocation rl_dest,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]207 RegLocation rl_src) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]208 FlushAllRegs(); /* Everything to home location */
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]209 ThreadOffset func_offset(-1);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]210 if (cu_->compiler_driver->CanAccessTypeWithoutChecks(cu_->method_idx, *cu_->dex_file,
211 type_idx)) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]212 func_offset = QUICK_ENTRYPOINT_OFFSET(pAllocArray);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]213 } else {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]214 func_offset= QUICK_ENTRYPOINT_OFFSET(pAllocArrayWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]215 }
216 CallRuntimeHelperImmMethodRegLocation(func_offset, type_idx, rl_src, true);
217 RegLocation rl_result = GetReturn(false);
218 StoreValue(rl_dest, rl_result);
219}
220
221/*
222 * Similar to GenNewArray, but with post-allocation initialization.
223 * Verifier guarantees we're dealing with an array class. Current
224 * code throws runtime exception "bad Filled array req" for 'D' and 'J'.
225 * Current code also throws internal unimp if not 'L', '[' or 'I'.
226 */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]227void Mir2Lir::GenFilledNewArray(CallInfo* info) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]228 int elems = info->num_arg_words;
229 int type_idx = info->index;
230 FlushAllRegs(); /* Everything to home location */
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]231 ThreadOffset func_offset(-1);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]232 if (cu_->compiler_driver->CanAccessTypeWithoutChecks(cu_->method_idx, *cu_->dex_file,
233 type_idx)) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]234 func_offset = QUICK_ENTRYPOINT_OFFSET(pCheckAndAllocArray);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]235 } else {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]236 func_offset = QUICK_ENTRYPOINT_OFFSET(pCheckAndAllocArrayWithAccessCheck);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]237 }
238 CallRuntimeHelperImmMethodImm(func_offset, type_idx, elems, true);
239 FreeTemp(TargetReg(kArg2));
240 FreeTemp(TargetReg(kArg1));
241 /*
242 * NOTE: the implicit target for Instruction::FILLED_NEW_ARRAY is the
243 * return region. Because AllocFromCode placed the new array
244 * in kRet0, we'll just lock it into place. When debugger support is
245 * added, it may be necessary to additionally copy all return
246 * values to a home location in thread-local storage
247 */
248 LockTemp(TargetReg(kRet0));
249
250 // TODO: use the correct component size, currently all supported types
251 // share array alignment with ints (see comment at head of function)
252 size_t component_size = sizeof(int32_t);
253
254 // Having a range of 0 is legal
255 if (info->is_range && (elems > 0)) {
256 /*
257 * Bit of ugliness here. We're going generate a mem copy loop
258 * on the register range, but it is possible that some regs
259 * in the range have been promoted. This is unlikely, but
260 * before generating the copy, we'll just force a flush
261 * of any regs in the source range that have been promoted to
262 * home location.
263 */
264 for (int i = 0; i < elems; i++) {
265 RegLocation loc = UpdateLoc(info->args[i]);
266 if (loc.location == kLocPhysReg) {
267 StoreBaseDisp(TargetReg(kSp), SRegOffset(loc.s_reg_low),
268 loc.low_reg, kWord);
269 }
270 }
271 /*
272 * TUNING note: generated code here could be much improved, but
273 * this is an uncommon operation and isn't especially performance
274 * critical.
275 */
276 int r_src = AllocTemp();
277 int r_dst = AllocTemp();
278 int r_idx = AllocTemp();
279 int r_val = INVALID_REG;
Brian Carlstromdf629502013-07-17 22:39:56 -0700[diff] [blame]280 switch (cu_->instruction_set) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]281 case kThumb2:
282 r_val = TargetReg(kLr);
283 break;
284 case kX86:
285 FreeTemp(TargetReg(kRet0));
286 r_val = AllocTemp();
287 break;
288 case kMips:
289 r_val = AllocTemp();
290 break;
291 default: LOG(FATAL) << "Unexpected instruction set: " << cu_->instruction_set;
292 }
293 // Set up source pointer
294 RegLocation rl_first = info->args[0];
295 OpRegRegImm(kOpAdd, r_src, TargetReg(kSp), SRegOffset(rl_first.s_reg_low));
296 // Set up the target pointer
297 OpRegRegImm(kOpAdd, r_dst, TargetReg(kRet0),
298 mirror::Array::DataOffset(component_size).Int32Value());
299 // Set up the loop counter (known to be > 0)
300 LoadConstant(r_idx, elems - 1);
301 // Generate the copy loop. Going backwards for convenience
302 LIR* target = NewLIR0(kPseudoTargetLabel);
303 // Copy next element
304 LoadBaseIndexed(r_src, r_idx, r_val, 2, kWord);
305 StoreBaseIndexed(r_dst, r_idx, r_val, 2, kWord);
306 FreeTemp(r_val);
307 OpDecAndBranch(kCondGe, r_idx, target);
308 if (cu_->instruction_set == kX86) {
309 // Restore the target pointer
310 OpRegRegImm(kOpAdd, TargetReg(kRet0), r_dst,
311 -mirror::Array::DataOffset(component_size).Int32Value());
312 }
313 } else if (!info->is_range) {
314 // TUNING: interleave
315 for (int i = 0; i < elems; i++) {
316 RegLocation rl_arg = LoadValue(info->args[i], kCoreReg);
317 StoreBaseDisp(TargetReg(kRet0),
318 mirror::Array::DataOffset(component_size).Int32Value() +
319 i * 4, rl_arg.low_reg, kWord);
320 // If the LoadValue caused a temp to be allocated, free it
321 if (IsTemp(rl_arg.low_reg)) {
322 FreeTemp(rl_arg.low_reg);
323 }
324 }
325 }
326 if (info->result.location != kLocInvalid) {
327 StoreValue(info->result, GetReturn(false /* not fp */));
328 }
329}
330
331void Mir2Lir::GenSput(uint32_t field_idx, RegLocation rl_src, bool is_long_or_double,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]332 bool is_object) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]333 int field_offset;
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]334 int storage_index;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]335 bool is_volatile;
336 bool is_referrers_class;
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]337 bool is_initialized;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]338 bool fast_path = cu_->compiler_driver->ComputeStaticFieldInfo(
Ian Rogers9b297bf2013-09-06 11:11:25 -0700[diff] [blame]339 field_idx, mir_graph_->GetCurrentDexCompilationUnit(), true,
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]340 &field_offset, &storage_index, &is_referrers_class, &is_volatile, &is_initialized);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]341 if (fast_path && !SLOW_FIELD_PATH) {
342 DCHECK_GE(field_offset, 0);
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]343 int r_base;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]344 if (is_referrers_class) {
345 // Fast path, static storage base is this method's class
346 RegLocation rl_method = LoadCurrMethod();
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]347 r_base = AllocTemp();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]348 LoadWordDisp(rl_method.low_reg,
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]349 mirror::ArtMethod::DeclaringClassOffset().Int32Value(), r_base);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]350 if (IsTemp(rl_method.low_reg)) {
351 FreeTemp(rl_method.low_reg);
352 }
353 } else {
354 // Medium path, static storage base in a different class which requires checks that the other
355 // class is initialized.
356 // TODO: remove initialized check now that we are initializing classes in the compiler driver.
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]357 DCHECK_GE(storage_index, 0);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]358 // May do runtime call so everything to home locations.
359 FlushAllRegs();
360 // Using fixed register to sync with possible call to runtime support.
361 int r_method = TargetReg(kArg1);
362 LockTemp(r_method);
363 LoadCurrMethodDirect(r_method);
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]364 r_base = TargetReg(kArg0);
365 LockTemp(r_base);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]366 LoadWordDisp(r_method,
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]367 mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(),
368 r_base);
369 LoadWordDisp(r_base, mirror::Array::DataOffset(sizeof(mirror::Object*)).Int32Value() +
370 sizeof(int32_t*) * storage_index, r_base);
371 // r_base now points at static storage (Class*) or NULL if the type is not yet resolved.
372 if (!is_initialized) {
373 // Check if r_base is NULL or a not yet initialized class.
374 // TUNING: fast path should fall through
375 LIR* unresolved_branch = OpCmpImmBranch(kCondEq, r_base, 0, NULL);
376 int r_tmp = TargetReg(kArg2);
377 LockTemp(r_tmp);
378 // TODO: Fuse the compare of a constant with memory on X86 and avoid the load.
379 LoadWordDisp(r_base, mirror::Class::StatusOffset().Int32Value(), r_tmp);
380 LIR* initialized_branch = OpCmpImmBranch(kCondGe, r_tmp, mirror::Class::kStatusInitialized,
381 NULL);
382
383 LIR* unresolved_target = NewLIR0(kPseudoTargetLabel);
384 unresolved_branch->target = unresolved_target;
385 CallRuntimeHelperImm(QUICK_ENTRYPOINT_OFFSET(pInitializeStaticStorage), storage_index,
386 true);
387 // Copy helper's result into r_base, a no-op on all but MIPS.
388 OpRegCopy(r_base, TargetReg(kRet0));
389
390 LIR* initialized_target = NewLIR0(kPseudoTargetLabel);
391 initialized_branch->target = initialized_target;
392
393 FreeTemp(r_tmp);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]394 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]395 FreeTemp(r_method);
396 }
397 // rBase now holds static storage base
398 if (is_long_or_double) {
399 rl_src = LoadValueWide(rl_src, kAnyReg);
400 } else {
401 rl_src = LoadValue(rl_src, kAnyReg);
402 }
403 if (is_volatile) {
404 GenMemBarrier(kStoreStore);
405 }
406 if (is_long_or_double) {
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]407 StoreBaseDispWide(r_base, field_offset, rl_src.low_reg,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]408 rl_src.high_reg);
409 } else {
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]410 StoreWordDisp(r_base, field_offset, rl_src.low_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]411 }
412 if (is_volatile) {
413 GenMemBarrier(kStoreLoad);
414 }
415 if (is_object && !mir_graph_->IsConstantNullRef(rl_src)) {
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]416 MarkGCCard(rl_src.low_reg, r_base);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]417 }
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]418 FreeTemp(r_base);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]419 } else {
420 FlushAllRegs(); // Everything to home locations
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]421 ThreadOffset setter_offset =
422 is_long_or_double ? QUICK_ENTRYPOINT_OFFSET(pSet64Static)
423 : (is_object ? QUICK_ENTRYPOINT_OFFSET(pSetObjStatic)
424 : QUICK_ENTRYPOINT_OFFSET(pSet32Static));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]425 CallRuntimeHelperImmRegLocation(setter_offset, field_idx, rl_src, true);
426 }
427}
428
429void Mir2Lir::GenSget(uint32_t field_idx, RegLocation rl_dest,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]430 bool is_long_or_double, bool is_object) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]431 int field_offset;
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]432 int storage_index;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]433 bool is_volatile;
434 bool is_referrers_class;
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]435 bool is_initialized;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]436 bool fast_path = cu_->compiler_driver->ComputeStaticFieldInfo(
Ian Rogers9b297bf2013-09-06 11:11:25 -0700[diff] [blame]437 field_idx, mir_graph_->GetCurrentDexCompilationUnit(), false,
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]438 &field_offset, &storage_index, &is_referrers_class, &is_volatile, &is_initialized);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]439 if (fast_path && !SLOW_FIELD_PATH) {
440 DCHECK_GE(field_offset, 0);
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]441 int r_base;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]442 if (is_referrers_class) {
443 // Fast path, static storage base is this method's class
444 RegLocation rl_method = LoadCurrMethod();
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]445 r_base = AllocTemp();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]446 LoadWordDisp(rl_method.low_reg,
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]447 mirror::ArtMethod::DeclaringClassOffset().Int32Value(), r_base);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]448 } else {
449 // Medium path, static storage base in a different class which requires checks that the other
450 // class is initialized
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]451 DCHECK_GE(storage_index, 0);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]452 // May do runtime call so everything to home locations.
453 FlushAllRegs();
454 // Using fixed register to sync with possible call to runtime support.
455 int r_method = TargetReg(kArg1);
456 LockTemp(r_method);
457 LoadCurrMethodDirect(r_method);
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]458 r_base = TargetReg(kArg0);
459 LockTemp(r_base);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]460 LoadWordDisp(r_method,
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]461 mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(),
462 r_base);
463 LoadWordDisp(r_base, mirror::Array::DataOffset(sizeof(mirror::Object*)).Int32Value() +
464 sizeof(int32_t*) * storage_index, r_base);
465 // r_base now points at static storage (Class*) or NULL if the type is not yet resolved.
466 if (!is_initialized) {
467 // Check if r_base is NULL or a not yet initialized class.
468 // TUNING: fast path should fall through
469 LIR* unresolved_branch = OpCmpImmBranch(kCondEq, r_base, 0, NULL);
470 int r_tmp = TargetReg(kArg2);
471 LockTemp(r_tmp);
472 // TODO: Fuse the compare of a constant with memory on X86 and avoid the load.
473 LoadWordDisp(r_base, mirror::Class::StatusOffset().Int32Value(), r_tmp);
474 LIR* initialized_branch = OpCmpImmBranch(kCondGe, r_tmp, mirror::Class::kStatusInitialized,
475 NULL);
476
477 LIR* unresolved_target = NewLIR0(kPseudoTargetLabel);
478 unresolved_branch->target = unresolved_target;
479 CallRuntimeHelperImm(QUICK_ENTRYPOINT_OFFSET(pInitializeStaticStorage), storage_index,
480 true);
481 // Copy helper's result into r_base, a no-op on all but MIPS.
482 OpRegCopy(r_base, TargetReg(kRet0));
483
484 LIR* initialized_target = NewLIR0(kPseudoTargetLabel);
485 initialized_branch->target = initialized_target;
486
487 FreeTemp(r_tmp);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]488 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]489 FreeTemp(r_method);
490 }
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]491 // r_base now holds static storage base
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]492 RegLocation rl_result = EvalLoc(rl_dest, kAnyReg, true);
493 if (is_volatile) {
494 GenMemBarrier(kLoadLoad);
495 }
496 if (is_long_or_double) {
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]497 LoadBaseDispWide(r_base, field_offset, rl_result.low_reg,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]498 rl_result.high_reg, INVALID_SREG);
499 } else {
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]500 LoadWordDisp(r_base, field_offset, rl_result.low_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]501 }
Ian Rogers5ddb4102014-01-07 08:58:46 -0800[diff] [blame]502 FreeTemp(r_base);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]503 if (is_long_or_double) {
504 StoreValueWide(rl_dest, rl_result);
505 } else {
506 StoreValue(rl_dest, rl_result);
507 }
508 } else {
509 FlushAllRegs(); // Everything to home locations
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]510 ThreadOffset getterOffset =
511 is_long_or_double ? QUICK_ENTRYPOINT_OFFSET(pGet64Static)
512 :(is_object ? QUICK_ENTRYPOINT_OFFSET(pGetObjStatic)
513 : QUICK_ENTRYPOINT_OFFSET(pGet32Static));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]514 CallRuntimeHelperImm(getterOffset, field_idx, true);
515 if (is_long_or_double) {
516 RegLocation rl_result = GetReturnWide(rl_dest.fp);
517 StoreValueWide(rl_dest, rl_result);
518 } else {
519 RegLocation rl_result = GetReturn(rl_dest.fp);
520 StoreValue(rl_dest, rl_result);
521 }
522 }
523}
524
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]525void Mir2Lir::HandleSuspendLaunchPads() {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]526 int num_elems = suspend_launchpads_.Size();
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]527 ThreadOffset helper_offset = QUICK_ENTRYPOINT_OFFSET(pTestSuspend);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]528 for (int i = 0; i < num_elems; i++) {
529 ResetRegPool();
530 ResetDefTracking();
531 LIR* lab = suspend_launchpads_.Get(i);
buzbee0d829482013-10-11 15:24:55 -0700[diff] [blame]532 LIR* resume_lab = reinterpret_cast<LIR*>(UnwrapPointer(lab->operands[0]));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]533 current_dalvik_offset_ = lab->operands[1];
534 AppendLIR(lab);
535 int r_tgt = CallHelperSetup(helper_offset);
536 CallHelper(r_tgt, helper_offset, true /* MarkSafepointPC */);
537 OpUnconditionalBranch(resume_lab);
538 }
539}
540
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]541void Mir2Lir::HandleIntrinsicLaunchPads() {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]542 int num_elems = intrinsic_launchpads_.Size();
543 for (int i = 0; i < num_elems; i++) {
544 ResetRegPool();
545 ResetDefTracking();
546 LIR* lab = intrinsic_launchpads_.Get(i);
buzbee0d829482013-10-11 15:24:55 -0700[diff] [blame]547 CallInfo* info = reinterpret_cast<CallInfo*>(UnwrapPointer(lab->operands[0]));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]548 current_dalvik_offset_ = info->offset;
549 AppendLIR(lab);
550 // NOTE: GenInvoke handles MarkSafepointPC
551 GenInvoke(info);
buzbee0d829482013-10-11 15:24:55 -0700[diff] [blame]552 LIR* resume_lab = reinterpret_cast<LIR*>(UnwrapPointer(lab->operands[2]));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]553 if (resume_lab != NULL) {
554 OpUnconditionalBranch(resume_lab);
555 }
556 }
557}
558
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]559void Mir2Lir::HandleThrowLaunchPads() {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]560 int num_elems = throw_launchpads_.Size();
561 for (int i = 0; i < num_elems; i++) {
562 ResetRegPool();
563 ResetDefTracking();
564 LIR* lab = throw_launchpads_.Get(i);
565 current_dalvik_offset_ = lab->operands[1];
566 AppendLIR(lab);
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]567 ThreadOffset func_offset(-1);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]568 int v1 = lab->operands[2];
569 int v2 = lab->operands[3];
570 bool target_x86 = (cu_->instruction_set == kX86);
571 switch (lab->operands[0]) {
572 case kThrowNullPointer:
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]573 func_offset = QUICK_ENTRYPOINT_OFFSET(pThrowNullPointer);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]574 break;
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]575 case kThrowConstantArrayBounds: // v1 is length reg (for Arm/Mips), v2 constant index
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]576 // v1 holds the constant array index. Mips/Arm uses v2 for length, x86 reloads.
577 if (target_x86) {
578 OpRegMem(kOpMov, TargetReg(kArg1), v1, mirror::Array::LengthOffset().Int32Value());
579 } else {
580 OpRegCopy(TargetReg(kArg1), v1);
581 }
582 // Make sure the following LoadConstant doesn't mess with kArg1.
583 LockTemp(TargetReg(kArg1));
584 LoadConstant(TargetReg(kArg0), v2);
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]585 func_offset = QUICK_ENTRYPOINT_OFFSET(pThrowArrayBounds);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]586 break;
587 case kThrowArrayBounds:
588 // Move v1 (array index) to kArg0 and v2 (array length) to kArg1
589 if (v2 != TargetReg(kArg0)) {
590 OpRegCopy(TargetReg(kArg0), v1);
591 if (target_x86) {
592 // x86 leaves the array pointer in v2, so load the array length that the handler expects
593 OpRegMem(kOpMov, TargetReg(kArg1), v2, mirror::Array::LengthOffset().Int32Value());
594 } else {
595 OpRegCopy(TargetReg(kArg1), v2);
596 }
597 } else {
598 if (v1 == TargetReg(kArg1)) {
599 // Swap v1 and v2, using kArg2 as a temp
600 OpRegCopy(TargetReg(kArg2), v1);
601 if (target_x86) {
602 // x86 leaves the array pointer in v2; load the array length that the handler expects
603 OpRegMem(kOpMov, TargetReg(kArg1), v2, mirror::Array::LengthOffset().Int32Value());
604 } else {
605 OpRegCopy(TargetReg(kArg1), v2);
606 }
607 OpRegCopy(TargetReg(kArg0), TargetReg(kArg2));
608 } else {
609 if (target_x86) {
610 // x86 leaves the array pointer in v2; load the array length that the handler expects
611 OpRegMem(kOpMov, TargetReg(kArg1), v2, mirror::Array::LengthOffset().Int32Value());
612 } else {
613 OpRegCopy(TargetReg(kArg1), v2);
614 }
615 OpRegCopy(TargetReg(kArg0), v1);
616 }
617 }
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]618 func_offset = QUICK_ENTRYPOINT_OFFSET(pThrowArrayBounds);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]619 break;
620 case kThrowDivZero:
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]621 func_offset = QUICK_ENTRYPOINT_OFFSET(pThrowDivZero);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]622 break;
623 case kThrowNoSuchMethod:
624 OpRegCopy(TargetReg(kArg0), v1);
625 func_offset =
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]626 QUICK_ENTRYPOINT_OFFSET(pThrowNoSuchMethod);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]627 break;
628 case kThrowStackOverflow:
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]629 func_offset = QUICK_ENTRYPOINT_OFFSET(pThrowStackOverflow);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]630 // Restore stack alignment
631 if (target_x86) {
632 OpRegImm(kOpAdd, TargetReg(kSp), frame_size_);
633 } else {
634 OpRegImm(kOpAdd, TargetReg(kSp), (num_core_spills_ + num_fp_spills_) * 4);
635 }
636 break;
637 default:
638 LOG(FATAL) << "Unexpected throw kind: " << lab->operands[0];
639 }
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]640 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]641 int r_tgt = CallHelperSetup(func_offset);
642 CallHelper(r_tgt, func_offset, true /* MarkSafepointPC */);
643 }
644}
645
646void Mir2Lir::GenIGet(uint32_t field_idx, int opt_flags, OpSize size,
647 RegLocation rl_dest, RegLocation rl_obj, bool is_long_or_double,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]648 bool is_object) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]649 int field_offset;
650 bool is_volatile;
651
Ian Rogers9b297bf2013-09-06 11:11:25 -0700[diff] [blame]652 bool fast_path = FastInstance(field_idx, false, &field_offset, &is_volatile);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]653
654 if (fast_path && !SLOW_FIELD_PATH) {
655 RegLocation rl_result;
656 RegisterClass reg_class = oat_reg_class_by_size(size);
657 DCHECK_GE(field_offset, 0);
658 rl_obj = LoadValue(rl_obj, kCoreReg);
659 if (is_long_or_double) {
660 DCHECK(rl_dest.wide);
661 GenNullCheck(rl_obj.s_reg_low, rl_obj.low_reg, opt_flags);
662 if (cu_->instruction_set == kX86) {
663 rl_result = EvalLoc(rl_dest, reg_class, true);
664 GenNullCheck(rl_obj.s_reg_low, rl_obj.low_reg, opt_flags);
665 LoadBaseDispWide(rl_obj.low_reg, field_offset, rl_result.low_reg,
666 rl_result.high_reg, rl_obj.s_reg_low);
667 if (is_volatile) {
668 GenMemBarrier(kLoadLoad);
669 }
670 } else {
671 int reg_ptr = AllocTemp();
672 OpRegRegImm(kOpAdd, reg_ptr, rl_obj.low_reg, field_offset);
673 rl_result = EvalLoc(rl_dest, reg_class, true);
674 LoadBaseDispWide(reg_ptr, 0, rl_result.low_reg, rl_result.high_reg, INVALID_SREG);
675 if (is_volatile) {
676 GenMemBarrier(kLoadLoad);
677 }
678 FreeTemp(reg_ptr);
679 }
680 StoreValueWide(rl_dest, rl_result);
681 } else {
682 rl_result = EvalLoc(rl_dest, reg_class, true);
683 GenNullCheck(rl_obj.s_reg_low, rl_obj.low_reg, opt_flags);
684 LoadBaseDisp(rl_obj.low_reg, field_offset, rl_result.low_reg,
685 kWord, rl_obj.s_reg_low);
686 if (is_volatile) {
687 GenMemBarrier(kLoadLoad);
688 }
689 StoreValue(rl_dest, rl_result);
690 }
691 } else {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]692 ThreadOffset getterOffset =
693 is_long_or_double ? QUICK_ENTRYPOINT_OFFSET(pGet64Instance)
694 : (is_object ? QUICK_ENTRYPOINT_OFFSET(pGetObjInstance)
695 : QUICK_ENTRYPOINT_OFFSET(pGet32Instance));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]696 CallRuntimeHelperImmRegLocation(getterOffset, field_idx, rl_obj, true);
697 if (is_long_or_double) {
698 RegLocation rl_result = GetReturnWide(rl_dest.fp);
699 StoreValueWide(rl_dest, rl_result);
700 } else {
701 RegLocation rl_result = GetReturn(rl_dest.fp);
702 StoreValue(rl_dest, rl_result);
703 }
704 }
705}
706
707void Mir2Lir::GenIPut(uint32_t field_idx, int opt_flags, OpSize size,
708 RegLocation rl_src, RegLocation rl_obj, bool is_long_or_double,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]709 bool is_object) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]710 int field_offset;
711 bool is_volatile;
712
Ian Rogers9b297bf2013-09-06 11:11:25 -0700[diff] [blame]713 bool fast_path = FastInstance(field_idx, true, &field_offset, &is_volatile);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]714 if (fast_path && !SLOW_FIELD_PATH) {
715 RegisterClass reg_class = oat_reg_class_by_size(size);
716 DCHECK_GE(field_offset, 0);
717 rl_obj = LoadValue(rl_obj, kCoreReg);
718 if (is_long_or_double) {
719 int reg_ptr;
720 rl_src = LoadValueWide(rl_src, kAnyReg);
721 GenNullCheck(rl_obj.s_reg_low, rl_obj.low_reg, opt_flags);
722 reg_ptr = AllocTemp();
723 OpRegRegImm(kOpAdd, reg_ptr, rl_obj.low_reg, field_offset);
724 if (is_volatile) {
725 GenMemBarrier(kStoreStore);
726 }
727 StoreBaseDispWide(reg_ptr, 0, rl_src.low_reg, rl_src.high_reg);
728 if (is_volatile) {
729 GenMemBarrier(kLoadLoad);
730 }
731 FreeTemp(reg_ptr);
732 } else {
733 rl_src = LoadValue(rl_src, reg_class);
734 GenNullCheck(rl_obj.s_reg_low, rl_obj.low_reg, opt_flags);
735 if (is_volatile) {
736 GenMemBarrier(kStoreStore);
737 }
738 StoreBaseDisp(rl_obj.low_reg, field_offset, rl_src.low_reg, kWord);
739 if (is_volatile) {
740 GenMemBarrier(kLoadLoad);
741 }
742 if (is_object && !mir_graph_->IsConstantNullRef(rl_src)) {
743 MarkGCCard(rl_src.low_reg, rl_obj.low_reg);
744 }
745 }
746 } else {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]747 ThreadOffset setter_offset =
748 is_long_or_double ? QUICK_ENTRYPOINT_OFFSET(pSet64Instance)
749 : (is_object ? QUICK_ENTRYPOINT_OFFSET(pSetObjInstance)
750 : QUICK_ENTRYPOINT_OFFSET(pSet32Instance));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]751 CallRuntimeHelperImmRegLocationRegLocation(setter_offset, field_idx, rl_obj, rl_src, true);
752 }
753}
754
Ian Rogersa9a82542013-10-04 11:17:26 -0700[diff] [blame]755void Mir2Lir::GenArrayObjPut(int opt_flags, RegLocation rl_array, RegLocation rl_index,
756 RegLocation rl_src) {
757 bool needs_range_check = !(opt_flags & MIR_IGNORE_RANGE_CHECK);
758 bool needs_null_check = !((cu_->disable_opt & (1 << kNullCheckElimination)) &&
759 (opt_flags & MIR_IGNORE_NULL_CHECK));
760 ThreadOffset helper = needs_range_check
761 ? (needs_null_check ? QUICK_ENTRYPOINT_OFFSET(pAputObjectWithNullAndBoundCheck)
762 : QUICK_ENTRYPOINT_OFFSET(pAputObjectWithBoundCheck))
763 : QUICK_ENTRYPOINT_OFFSET(pAputObject);
764 CallRuntimeHelperRegLocationRegLocationRegLocation(helper, rl_array, rl_index, rl_src, true);
765}
766
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]767void Mir2Lir::GenConstClass(uint32_t type_idx, RegLocation rl_dest) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]768 RegLocation rl_method = LoadCurrMethod();
769 int res_reg = AllocTemp();
770 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
771 if (!cu_->compiler_driver->CanAccessTypeWithoutChecks(cu_->method_idx,
772 *cu_->dex_file,
773 type_idx)) {
774 // Call out to helper which resolves type and verifies access.
775 // Resolved type returned in kRet0.
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]776 CallRuntimeHelperImmReg(QUICK_ENTRYPOINT_OFFSET(pInitializeTypeAndVerifyAccess),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]777 type_idx, rl_method.low_reg, true);
778 RegLocation rl_result = GetReturn(false);
779 StoreValue(rl_dest, rl_result);
780 } else {
781 // We're don't need access checks, load type from dex cache
782 int32_t dex_cache_offset =
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]783 mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]784 LoadWordDisp(rl_method.low_reg, dex_cache_offset, res_reg);
785 int32_t offset_of_type =
786 mirror::Array::DataOffset(sizeof(mirror::Class*)).Int32Value() + (sizeof(mirror::Class*)
787 * type_idx);
788 LoadWordDisp(res_reg, offset_of_type, rl_result.low_reg);
789 if (!cu_->compiler_driver->CanAssumeTypeIsPresentInDexCache(*cu_->dex_file,
790 type_idx) || SLOW_TYPE_PATH) {
791 // Slow path, at runtime test if type is null and if so initialize
792 FlushAllRegs();
793 LIR* branch1 = OpCmpImmBranch(kCondEq, rl_result.low_reg, 0, NULL);
794 // Resolved, store and hop over following code
795 StoreValue(rl_dest, rl_result);
796 /*
797 * Because we have stores of the target value on two paths,
798 * clobber temp tracking for the destination using the ssa name
799 */
800 ClobberSReg(rl_dest.s_reg_low);
801 LIR* branch2 = OpUnconditionalBranch(0);
802 // TUNING: move slow path to end & remove unconditional branch
803 LIR* target1 = NewLIR0(kPseudoTargetLabel);
804 // Call out to helper, which will return resolved type in kArg0
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]805 CallRuntimeHelperImmReg(QUICK_ENTRYPOINT_OFFSET(pInitializeType), type_idx,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]806 rl_method.low_reg, true);
807 RegLocation rl_result = GetReturn(false);
808 StoreValue(rl_dest, rl_result);
809 /*
810 * Because we have stores of the target value on two paths,
811 * clobber temp tracking for the destination using the ssa name
812 */
813 ClobberSReg(rl_dest.s_reg_low);
814 // Rejoin code paths
815 LIR* target2 = NewLIR0(kPseudoTargetLabel);
816 branch1->target = target1;
817 branch2->target = target2;
818 } else {
819 // Fast path, we're done - just store result
820 StoreValue(rl_dest, rl_result);
821 }
822 }
823}
824
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]825void Mir2Lir::GenConstString(uint32_t string_idx, RegLocation rl_dest) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]826 /* NOTE: Most strings should be available at compile time */
827 int32_t offset_of_string = mirror::Array::DataOffset(sizeof(mirror::String*)).Int32Value() +
828 (sizeof(mirror::String*) * string_idx);
829 if (!cu_->compiler_driver->CanAssumeStringIsPresentInDexCache(
830 *cu_->dex_file, string_idx) || SLOW_STRING_PATH) {
831 // slow path, resolve string if not in dex cache
832 FlushAllRegs();
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]833 LockCallTemps(); // Using explicit registers
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]834 LoadCurrMethodDirect(TargetReg(kArg2));
835 LoadWordDisp(TargetReg(kArg2),
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]836 mirror::ArtMethod::DexCacheStringsOffset().Int32Value(), TargetReg(kArg0));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]837 // Might call out to helper, which will return resolved string in kRet0
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]838 int r_tgt = CallHelperSetup(QUICK_ENTRYPOINT_OFFSET(pResolveString));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]839 LoadWordDisp(TargetReg(kArg0), offset_of_string, TargetReg(kRet0));
840 LoadConstant(TargetReg(kArg1), string_idx);
841 if (cu_->instruction_set == kThumb2) {
842 OpRegImm(kOpCmp, TargetReg(kRet0), 0); // Is resolved?
843 GenBarrier();
844 // For testing, always force through helper
845 if (!EXERCISE_SLOWEST_STRING_PATH) {
846 OpIT(kCondEq, "T");
847 }
848 OpRegCopy(TargetReg(kArg0), TargetReg(kArg2)); // .eq
849 LIR* call_inst = OpReg(kOpBlx, r_tgt); // .eq, helper(Method*, string_idx)
850 MarkSafepointPC(call_inst);
851 FreeTemp(r_tgt);
852 } else if (cu_->instruction_set == kMips) {
853 LIR* branch = OpCmpImmBranch(kCondNe, TargetReg(kRet0), 0, NULL);
854 OpRegCopy(TargetReg(kArg0), TargetReg(kArg2)); // .eq
855 LIR* call_inst = OpReg(kOpBlx, r_tgt);
856 MarkSafepointPC(call_inst);
857 FreeTemp(r_tgt);
858 LIR* target = NewLIR0(kPseudoTargetLabel);
859 branch->target = target;
860 } else {
861 DCHECK_EQ(cu_->instruction_set, kX86);
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]862 CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(pResolveString), TargetReg(kArg2),
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]863 TargetReg(kArg1), true);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]864 }
865 GenBarrier();
866 StoreValue(rl_dest, GetReturn(false));
867 } else {
868 RegLocation rl_method = LoadCurrMethod();
869 int res_reg = AllocTemp();
870 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
871 LoadWordDisp(rl_method.low_reg,
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]872 mirror::ArtMethod::DexCacheStringsOffset().Int32Value(), res_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]873 LoadWordDisp(res_reg, offset_of_string, rl_result.low_reg);
874 StoreValue(rl_dest, rl_result);
875 }
876}
877
878/*
879 * Let helper function take care of everything. Will
880 * call Class::NewInstanceFromCode(type_idx, method);
881 */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]882void Mir2Lir::GenNewInstance(uint32_t type_idx, RegLocation rl_dest) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]883 FlushAllRegs(); /* Everything to home location */
884 // alloc will always check for resolution, do we also need to verify
885 // access because the verifier was unable to?
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]886 ThreadOffset func_offset(-1);
Hiroshi Yamauchibe1ca552014-01-15 11:46:48 -0800[diff] [blame^]887 const DexFile* dex_file = cu_->dex_file;
888 CompilerDriver* driver = cu_->compiler_driver;
889 if (driver->CanAccessInstantiableTypeWithoutChecks(
890 cu_->method_idx, *dex_file, type_idx)) {
891 bool is_type_initialized;
892 bool use_direct_type_ptr;
893 uintptr_t direct_type_ptr;
894 if (kEmbedClassInCode &&
895 driver->CanEmbedTypeInCode(*dex_file, type_idx,
896 &is_type_initialized, &use_direct_type_ptr, &direct_type_ptr)) {
897 // The fast path.
898 if (!use_direct_type_ptr) {
899 // Use the literal pool and a PC-relative load from a data word.
900 LIR* data_target = ScanLiteralPool(class_literal_list_, type_idx, 0);
901 if (data_target == nullptr) {
902 data_target = AddWordData(&class_literal_list_, type_idx);
903 }
904 LIR* load_pc_rel = OpPcRelLoad(TargetReg(kArg0), data_target);
905 AppendLIR(load_pc_rel);
906 if (!is_type_initialized) {
907 func_offset = QUICK_ENTRYPOINT_OFFSET(pAllocObjectResolved);
908 CallRuntimeHelperRegMethod(func_offset, TargetReg(kArg0), true);
909 } else {
910 func_offset = QUICK_ENTRYPOINT_OFFSET(pAllocObjectInitialized);
911 CallRuntimeHelperRegMethod(func_offset, TargetReg(kArg0), true);
912 }
913 } else {
914 // Use the direct pointer.
915 if (!is_type_initialized) {
916 func_offset = QUICK_ENTRYPOINT_OFFSET(pAllocObjectResolved);
917 CallRuntimeHelperImmMethod(func_offset, direct_type_ptr, true);
918 } else {
919 func_offset = QUICK_ENTRYPOINT_OFFSET(pAllocObjectInitialized);
920 CallRuntimeHelperImmMethod(func_offset, direct_type_ptr, true);
921 }
922 }
923 } else {
924 // The slow path.
925 DCHECK_EQ(func_offset.Int32Value(), -1);
926 func_offset = QUICK_ENTRYPOINT_OFFSET(pAllocObject);
927 CallRuntimeHelperImmMethod(func_offset, type_idx, true);
928 }
929 DCHECK_NE(func_offset.Int32Value(), -1);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]930 } else {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]931 func_offset = QUICK_ENTRYPOINT_OFFSET(pAllocObjectWithAccessCheck);
Hiroshi Yamauchibe1ca552014-01-15 11:46:48 -0800[diff] [blame^]932 CallRuntimeHelperImmMethod(func_offset, type_idx, true);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]933 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]934 RegLocation rl_result = GetReturn(false);
935 StoreValue(rl_dest, rl_result);
936}
937
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]938void Mir2Lir::GenThrow(RegLocation rl_src) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]939 FlushAllRegs();
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]940 CallRuntimeHelperRegLocation(QUICK_ENTRYPOINT_OFFSET(pDeliverException), rl_src, true);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]941}
942
943// For final classes there are no sub-classes to check and so we can answer the instance-of
944// question with simple comparisons.
945void Mir2Lir::GenInstanceofFinal(bool use_declaring_class, uint32_t type_idx, RegLocation rl_dest,
946 RegLocation rl_src) {
947 RegLocation object = LoadValue(rl_src, kCoreReg);
948 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
949 int result_reg = rl_result.low_reg;
950 if (result_reg == object.low_reg) {
951 result_reg = AllocTypedTemp(false, kCoreReg);
952 }
953 LoadConstant(result_reg, 0); // assume false
954 LIR* null_branchover = OpCmpImmBranch(kCondEq, object.low_reg, 0, NULL);
955
956 int check_class = AllocTypedTemp(false, kCoreReg);
957 int object_class = AllocTypedTemp(false, kCoreReg);
958
959 LoadCurrMethodDirect(check_class);
960 if (use_declaring_class) {
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]961 LoadWordDisp(check_class, mirror::ArtMethod::DeclaringClassOffset().Int32Value(),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]962 check_class);
963 LoadWordDisp(object.low_reg, mirror::Object::ClassOffset().Int32Value(), object_class);
964 } else {
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]965 LoadWordDisp(check_class, mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]966 check_class);
967 LoadWordDisp(object.low_reg, mirror::Object::ClassOffset().Int32Value(), object_class);
968 int32_t offset_of_type =
969 mirror::Array::DataOffset(sizeof(mirror::Class*)).Int32Value() +
970 (sizeof(mirror::Class*) * type_idx);
971 LoadWordDisp(check_class, offset_of_type, check_class);
972 }
973
974 LIR* ne_branchover = NULL;
975 if (cu_->instruction_set == kThumb2) {
976 OpRegReg(kOpCmp, check_class, object_class); // Same?
977 OpIT(kCondEq, ""); // if-convert the test
978 LoadConstant(result_reg, 1); // .eq case - load true
979 } else {
980 ne_branchover = OpCmpBranch(kCondNe, check_class, object_class, NULL);
981 LoadConstant(result_reg, 1); // eq case - load true
982 }
983 LIR* target = NewLIR0(kPseudoTargetLabel);
984 null_branchover->target = target;
985 if (ne_branchover != NULL) {
986 ne_branchover->target = target;
987 }
988 FreeTemp(object_class);
989 FreeTemp(check_class);
990 if (IsTemp(result_reg)) {
991 OpRegCopy(rl_result.low_reg, result_reg);
992 FreeTemp(result_reg);
993 }
994 StoreValue(rl_dest, rl_result);
995}
996
997void Mir2Lir::GenInstanceofCallingHelper(bool needs_access_check, bool type_known_final,
998 bool type_known_abstract, bool use_declaring_class,
999 bool can_assume_type_is_in_dex_cache,
1000 uint32_t type_idx, RegLocation rl_dest,
1001 RegLocation rl_src) {
1002 FlushAllRegs();
1003 // May generate a call - use explicit registers
1004 LockCallTemps();
1005 LoadCurrMethodDirect(TargetReg(kArg1)); // kArg1 <= current Method*
1006 int class_reg = TargetReg(kArg2); // kArg2 will hold the Class*
1007 if (needs_access_check) {
1008 // Check we have access to type_idx and if not throw IllegalAccessError,
1009 // returns Class* in kArg0
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1010 CallRuntimeHelperImm(QUICK_ENTRYPOINT_OFFSET(pInitializeTypeAndVerifyAccess),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1011 type_idx, true);
1012 OpRegCopy(class_reg, TargetReg(kRet0)); // Align usage with fast path
1013 LoadValueDirectFixed(rl_src, TargetReg(kArg0)); // kArg0 <= ref
1014 } else if (use_declaring_class) {
1015 LoadValueDirectFixed(rl_src, TargetReg(kArg0)); // kArg0 <= ref
1016 LoadWordDisp(TargetReg(kArg1),
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]1017 mirror::ArtMethod::DeclaringClassOffset().Int32Value(), class_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1018 } else {
1019 // Load dex cache entry into class_reg (kArg2)
1020 LoadValueDirectFixed(rl_src, TargetReg(kArg0)); // kArg0 <= ref
1021 LoadWordDisp(TargetReg(kArg1),
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]1022 mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(), class_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1023 int32_t offset_of_type =
1024 mirror::Array::DataOffset(sizeof(mirror::Class*)).Int32Value() + (sizeof(mirror::Class*)
1025 * type_idx);
1026 LoadWordDisp(class_reg, offset_of_type, class_reg);
1027 if (!can_assume_type_is_in_dex_cache) {
1028 // Need to test presence of type in dex cache at runtime
1029 LIR* hop_branch = OpCmpImmBranch(kCondNe, class_reg, 0, NULL);
1030 // Not resolved
1031 // Call out to helper, which will return resolved type in kRet0
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1032 CallRuntimeHelperImm(QUICK_ENTRYPOINT_OFFSET(pInitializeType), type_idx, true);
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]1033 OpRegCopy(TargetReg(kArg2), TargetReg(kRet0)); // Align usage with fast path
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1034 LoadValueDirectFixed(rl_src, TargetReg(kArg0)); /* reload Ref */
1035 // Rejoin code paths
1036 LIR* hop_target = NewLIR0(kPseudoTargetLabel);
1037 hop_branch->target = hop_target;
1038 }
1039 }
1040 /* kArg0 is ref, kArg2 is class. If ref==null, use directly as bool result */
1041 RegLocation rl_result = GetReturn(false);
1042 if (cu_->instruction_set == kMips) {
1043 // On MIPS rArg0 != rl_result, place false in result if branch is taken.
1044 LoadConstant(rl_result.low_reg, 0);
1045 }
1046 LIR* branch1 = OpCmpImmBranch(kCondEq, TargetReg(kArg0), 0, NULL);
1047
1048 /* load object->klass_ */
1049 DCHECK_EQ(mirror::Object::ClassOffset().Int32Value(), 0);
1050 LoadWordDisp(TargetReg(kArg0), mirror::Object::ClassOffset().Int32Value(), TargetReg(kArg1));
1051 /* kArg0 is ref, kArg1 is ref->klass_, kArg2 is class */
1052 LIR* branchover = NULL;
1053 if (type_known_final) {
1054 // rl_result == ref == null == 0.
1055 if (cu_->instruction_set == kThumb2) {
1056 OpRegReg(kOpCmp, TargetReg(kArg1), TargetReg(kArg2)); // Same?
1057 OpIT(kCondEq, "E"); // if-convert the test
1058 LoadConstant(rl_result.low_reg, 1); // .eq case - load true
1059 LoadConstant(rl_result.low_reg, 0); // .ne case - load false
1060 } else {
1061 LoadConstant(rl_result.low_reg, 0); // ne case - load false
1062 branchover = OpCmpBranch(kCondNe, TargetReg(kArg1), TargetReg(kArg2), NULL);
1063 LoadConstant(rl_result.low_reg, 1); // eq case - load true
1064 }
1065 } else {
1066 if (cu_->instruction_set == kThumb2) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1067 int r_tgt = LoadHelper(QUICK_ENTRYPOINT_OFFSET(pInstanceofNonTrivial));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1068 if (!type_known_abstract) {
1069 /* Uses conditional nullification */
1070 OpRegReg(kOpCmp, TargetReg(kArg1), TargetReg(kArg2)); // Same?
1071 OpIT(kCondEq, "EE"); // if-convert the test
1072 LoadConstant(TargetReg(kArg0), 1); // .eq case - load true
1073 }
1074 OpRegCopy(TargetReg(kArg0), TargetReg(kArg2)); // .ne case - arg0 <= class
1075 OpReg(kOpBlx, r_tgt); // .ne case: helper(class, ref->class)
1076 FreeTemp(r_tgt);
1077 } else {
1078 if (!type_known_abstract) {
1079 /* Uses branchovers */
1080 LoadConstant(rl_result.low_reg, 1); // assume true
1081 branchover = OpCmpBranch(kCondEq, TargetReg(kArg1), TargetReg(kArg2), NULL);
1082 }
1083 if (cu_->instruction_set != kX86) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1084 int r_tgt = LoadHelper(QUICK_ENTRYPOINT_OFFSET(pInstanceofNonTrivial));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1085 OpRegCopy(TargetReg(kArg0), TargetReg(kArg2)); // .ne case - arg0 <= class
1086 OpReg(kOpBlx, r_tgt); // .ne case: helper(class, ref->class)
1087 FreeTemp(r_tgt);
1088 } else {
1089 OpRegCopy(TargetReg(kArg0), TargetReg(kArg2));
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1090 OpThreadMem(kOpBlx, QUICK_ENTRYPOINT_OFFSET(pInstanceofNonTrivial));
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1091 }
1092 }
1093 }
1094 // TODO: only clobber when type isn't final?
Vladimir Marko31c2aac2013-12-09 16:31:19 +0000[diff] [blame]1095 ClobberCallerSave();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1096 /* branch targets here */
1097 LIR* target = NewLIR0(kPseudoTargetLabel);
1098 StoreValue(rl_dest, rl_result);
1099 branch1->target = target;
1100 if (branchover != NULL) {
1101 branchover->target = target;
1102 }
1103}
1104
1105void Mir2Lir::GenInstanceof(uint32_t type_idx, RegLocation rl_dest, RegLocation rl_src) {
1106 bool type_known_final, type_known_abstract, use_declaring_class;
1107 bool needs_access_check = !cu_->compiler_driver->CanAccessTypeWithoutChecks(cu_->method_idx,
1108 *cu_->dex_file,
1109 type_idx,
1110 &type_known_final,
1111 &type_known_abstract,
1112 &use_declaring_class);
1113 bool can_assume_type_is_in_dex_cache = !needs_access_check &&
1114 cu_->compiler_driver->CanAssumeTypeIsPresentInDexCache(*cu_->dex_file, type_idx);
1115
1116 if ((use_declaring_class || can_assume_type_is_in_dex_cache) && type_known_final) {
1117 GenInstanceofFinal(use_declaring_class, type_idx, rl_dest, rl_src);
1118 } else {
1119 GenInstanceofCallingHelper(needs_access_check, type_known_final, type_known_abstract,
1120 use_declaring_class, can_assume_type_is_in_dex_cache,
1121 type_idx, rl_dest, rl_src);
1122 }
1123}
1124
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1125void Mir2Lir::GenCheckCast(uint32_t insn_idx, uint32_t type_idx, RegLocation rl_src) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1126 bool type_known_final, type_known_abstract, use_declaring_class;
1127 bool needs_access_check = !cu_->compiler_driver->CanAccessTypeWithoutChecks(cu_->method_idx,
1128 *cu_->dex_file,
1129 type_idx,
1130 &type_known_final,
1131 &type_known_abstract,
1132 &use_declaring_class);
1133 // Note: currently type_known_final is unused, as optimizing will only improve the performance
1134 // of the exception throw path.
1135 DexCompilationUnit* cu = mir_graph_->GetCurrentDexCompilationUnit();
1136 const MethodReference mr(cu->GetDexFile(), cu->GetDexMethodIndex());
1137 if (!needs_access_check && cu_->compiler_driver->IsSafeCast(mr, insn_idx)) {
1138 // Verifier type analysis proved this check cast would never cause an exception.
1139 return;
1140 }
1141 FlushAllRegs();
1142 // May generate a call - use explicit registers
1143 LockCallTemps();
1144 LoadCurrMethodDirect(TargetReg(kArg1)); // kArg1 <= current Method*
1145 int class_reg = TargetReg(kArg2); // kArg2 will hold the Class*
1146 if (needs_access_check) {
1147 // Check we have access to type_idx and if not throw IllegalAccessError,
1148 // returns Class* in kRet0
1149 // InitializeTypeAndVerifyAccess(idx, method)
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1150 CallRuntimeHelperImmReg(QUICK_ENTRYPOINT_OFFSET(pInitializeTypeAndVerifyAccess),
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1151 type_idx, TargetReg(kArg1), true);
1152 OpRegCopy(class_reg, TargetReg(kRet0)); // Align usage with fast path
1153 } else if (use_declaring_class) {
1154 LoadWordDisp(TargetReg(kArg1),
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]1155 mirror::ArtMethod::DeclaringClassOffset().Int32Value(), class_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1156 } else {
1157 // Load dex cache entry into class_reg (kArg2)
1158 LoadWordDisp(TargetReg(kArg1),
Brian Carlstromea46f952013-07-30 01:26:50 -0700[diff] [blame]1159 mirror::ArtMethod::DexCacheResolvedTypesOffset().Int32Value(), class_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1160 int32_t offset_of_type =
1161 mirror::Array::DataOffset(sizeof(mirror::Class*)).Int32Value() +
1162 (sizeof(mirror::Class*) * type_idx);
1163 LoadWordDisp(class_reg, offset_of_type, class_reg);
1164 if (!cu_->compiler_driver->CanAssumeTypeIsPresentInDexCache(*cu_->dex_file, type_idx)) {
1165 // Need to test presence of type in dex cache at runtime
1166 LIR* hop_branch = OpCmpImmBranch(kCondNe, class_reg, 0, NULL);
1167 // Not resolved
1168 // Call out to helper, which will return resolved type in kArg0
1169 // InitializeTypeFromCode(idx, method)
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1170 CallRuntimeHelperImmReg(QUICK_ENTRYPOINT_OFFSET(pInitializeType), type_idx,
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1171 TargetReg(kArg1), true);
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700[diff] [blame]1172 OpRegCopy(class_reg, TargetReg(kRet0)); // Align usage with fast path
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1173 // Rejoin code paths
1174 LIR* hop_target = NewLIR0(kPseudoTargetLabel);
1175 hop_branch->target = hop_target;
1176 }
1177 }
1178 // At this point, class_reg (kArg2) has class
1179 LoadValueDirectFixed(rl_src, TargetReg(kArg0)); // kArg0 <= ref
1180 /* Null is OK - continue */
1181 LIR* branch1 = OpCmpImmBranch(kCondEq, TargetReg(kArg0), 0, NULL);
1182 /* load object->klass_ */
1183 DCHECK_EQ(mirror::Object::ClassOffset().Int32Value(), 0);
1184 LoadWordDisp(TargetReg(kArg0), mirror::Object::ClassOffset().Int32Value(), TargetReg(kArg1));
1185 /* kArg1 now contains object->klass_ */
1186 LIR* branch2 = NULL;
1187 if (!type_known_abstract) {
1188 branch2 = OpCmpBranch(kCondEq, TargetReg(kArg1), class_reg, NULL);
1189 }
Ian Rogersa9a82542013-10-04 11:17:26 -0700[diff] [blame]1190 CallRuntimeHelperRegReg(QUICK_ENTRYPOINT_OFFSET(pCheckCast), TargetReg(kArg2),
1191 TargetReg(kArg1), true);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1192 /* branch target here */
1193 LIR* target = NewLIR0(kPseudoTargetLabel);
1194 branch1->target = target;
1195 if (branch2 != NULL) {
1196 branch2->target = target;
1197 }
1198}
1199
1200void Mir2Lir::GenLong3Addr(OpKind first_op, OpKind second_op, RegLocation rl_dest,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1201 RegLocation rl_src1, RegLocation rl_src2) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1202 RegLocation rl_result;
1203 if (cu_->instruction_set == kThumb2) {
1204 /*
1205 * NOTE: This is the one place in the code in which we might have
1206 * as many as six live temporary registers. There are 5 in the normal
1207 * set for Arm. Until we have spill capabilities, temporarily add
1208 * lr to the temp set. It is safe to do this locally, but note that
1209 * lr is used explicitly elsewhere in the code generator and cannot
1210 * normally be used as a general temp register.
1211 */
1212 MarkTemp(TargetReg(kLr)); // Add lr to the temp pool
1213 FreeTemp(TargetReg(kLr)); // and make it available
1214 }
1215 rl_src1 = LoadValueWide(rl_src1, kCoreReg);
1216 rl_src2 = LoadValueWide(rl_src2, kCoreReg);
1217 rl_result = EvalLoc(rl_dest, kCoreReg, true);
1218 // The longs may overlap - use intermediate temp if so
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1219 if ((rl_result.low_reg == rl_src1.high_reg) || (rl_result.low_reg == rl_src2.high_reg)) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1220 int t_reg = AllocTemp();
1221 OpRegRegReg(first_op, t_reg, rl_src1.low_reg, rl_src2.low_reg);
1222 OpRegRegReg(second_op, rl_result.high_reg, rl_src1.high_reg, rl_src2.high_reg);
1223 OpRegCopy(rl_result.low_reg, t_reg);
1224 FreeTemp(t_reg);
1225 } else {
1226 OpRegRegReg(first_op, rl_result.low_reg, rl_src1.low_reg, rl_src2.low_reg);
1227 OpRegRegReg(second_op, rl_result.high_reg, rl_src1.high_reg,
1228 rl_src2.high_reg);
1229 }
1230 /*
1231 * NOTE: If rl_dest refers to a frame variable in a large frame, the
1232 * following StoreValueWide might need to allocate a temp register.
1233 * To further work around the lack of a spill capability, explicitly
1234 * free any temps from rl_src1 & rl_src2 that aren't still live in rl_result.
1235 * Remove when spill is functional.
1236 */
1237 FreeRegLocTemps(rl_result, rl_src1);
1238 FreeRegLocTemps(rl_result, rl_src2);
1239 StoreValueWide(rl_dest, rl_result);
1240 if (cu_->instruction_set == kThumb2) {
1241 Clobber(TargetReg(kLr));
1242 UnmarkTemp(TargetReg(kLr)); // Remove lr from the temp pool
1243 }
1244}
1245
1246
1247void Mir2Lir::GenShiftOpLong(Instruction::Code opcode, RegLocation rl_dest,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1248 RegLocation rl_src1, RegLocation rl_shift) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1249 ThreadOffset func_offset(-1);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1250
1251 switch (opcode) {
1252 case Instruction::SHL_LONG:
1253 case Instruction::SHL_LONG_2ADDR:
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1254 func_offset = QUICK_ENTRYPOINT_OFFSET(pShlLong);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1255 break;
1256 case Instruction::SHR_LONG:
1257 case Instruction::SHR_LONG_2ADDR:
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1258 func_offset = QUICK_ENTRYPOINT_OFFSET(pShrLong);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1259 break;
1260 case Instruction::USHR_LONG:
1261 case Instruction::USHR_LONG_2ADDR:
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1262 func_offset = QUICK_ENTRYPOINT_OFFSET(pUshrLong);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1263 break;
1264 default:
1265 LOG(FATAL) << "Unexpected case";
1266 }
1267 FlushAllRegs(); /* Send everything to home location */
1268 CallRuntimeHelperRegLocationRegLocation(func_offset, rl_src1, rl_shift, false);
1269 RegLocation rl_result = GetReturnWide(false);
1270 StoreValueWide(rl_dest, rl_result);
1271}
1272
1273
1274void Mir2Lir::GenArithOpInt(Instruction::Code opcode, RegLocation rl_dest,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1275 RegLocation rl_src1, RegLocation rl_src2) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1276 OpKind op = kOpBkpt;
1277 bool is_div_rem = false;
1278 bool check_zero = false;
1279 bool unary = false;
1280 RegLocation rl_result;
1281 bool shift_op = false;
1282 switch (opcode) {
1283 case Instruction::NEG_INT:
1284 op = kOpNeg;
1285 unary = true;
1286 break;
1287 case Instruction::NOT_INT:
1288 op = kOpMvn;
1289 unary = true;
1290 break;
1291 case Instruction::ADD_INT:
1292 case Instruction::ADD_INT_2ADDR:
1293 op = kOpAdd;
1294 break;
1295 case Instruction::SUB_INT:
1296 case Instruction::SUB_INT_2ADDR:
1297 op = kOpSub;
1298 break;
1299 case Instruction::MUL_INT:
1300 case Instruction::MUL_INT_2ADDR:
1301 op = kOpMul;
1302 break;
1303 case Instruction::DIV_INT:
1304 case Instruction::DIV_INT_2ADDR:
1305 check_zero = true;
1306 op = kOpDiv;
1307 is_div_rem = true;
1308 break;
1309 /* NOTE: returns in kArg1 */
1310 case Instruction::REM_INT:
1311 case Instruction::REM_INT_2ADDR:
1312 check_zero = true;
1313 op = kOpRem;
1314 is_div_rem = true;
1315 break;
1316 case Instruction::AND_INT:
1317 case Instruction::AND_INT_2ADDR:
1318 op = kOpAnd;
1319 break;
1320 case Instruction::OR_INT:
1321 case Instruction::OR_INT_2ADDR:
1322 op = kOpOr;
1323 break;
1324 case Instruction::XOR_INT:
1325 case Instruction::XOR_INT_2ADDR:
1326 op = kOpXor;
1327 break;
1328 case Instruction::SHL_INT:
1329 case Instruction::SHL_INT_2ADDR:
1330 shift_op = true;
1331 op = kOpLsl;
1332 break;
1333 case Instruction::SHR_INT:
1334 case Instruction::SHR_INT_2ADDR:
1335 shift_op = true;
1336 op = kOpAsr;
1337 break;
1338 case Instruction::USHR_INT:
1339 case Instruction::USHR_INT_2ADDR:
1340 shift_op = true;
1341 op = kOpLsr;
1342 break;
1343 default:
1344 LOG(FATAL) << "Invalid word arith op: " << opcode;
1345 }
1346 if (!is_div_rem) {
1347 if (unary) {
1348 rl_src1 = LoadValue(rl_src1, kCoreReg);
1349 rl_result = EvalLoc(rl_dest, kCoreReg, true);
1350 OpRegReg(op, rl_result.low_reg, rl_src1.low_reg);
1351 } else {
1352 if (shift_op) {
1353 int t_reg = INVALID_REG;
1354 if (cu_->instruction_set == kX86) {
1355 // X86 doesn't require masking and must use ECX
1356 t_reg = TargetReg(kCount); // rCX
1357 LoadValueDirectFixed(rl_src2, t_reg);
1358 } else {
1359 rl_src2 = LoadValue(rl_src2, kCoreReg);
1360 t_reg = AllocTemp();
1361 OpRegRegImm(kOpAnd, t_reg, rl_src2.low_reg, 31);
1362 }
1363 rl_src1 = LoadValue(rl_src1, kCoreReg);
1364 rl_result = EvalLoc(rl_dest, kCoreReg, true);
1365 OpRegRegReg(op, rl_result.low_reg, rl_src1.low_reg, t_reg);
1366 FreeTemp(t_reg);
1367 } else {
1368 rl_src1 = LoadValue(rl_src1, kCoreReg);
1369 rl_src2 = LoadValue(rl_src2, kCoreReg);
1370 rl_result = EvalLoc(rl_dest, kCoreReg, true);
1371 OpRegRegReg(op, rl_result.low_reg, rl_src1.low_reg, rl_src2.low_reg);
1372 }
1373 }
1374 StoreValue(rl_dest, rl_result);
1375 } else {
Dave Allison70202782013-10-22 17:52:19 -0700[diff] [blame]1376 bool done = false; // Set to true if we happen to find a way to use a real instruction.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1377 if (cu_->instruction_set == kMips) {
1378 rl_src1 = LoadValue(rl_src1, kCoreReg);
1379 rl_src2 = LoadValue(rl_src2, kCoreReg);
1380 if (check_zero) {
1381 GenImmedCheck(kCondEq, rl_src2.low_reg, 0, kThrowDivZero);
1382 }
1383 rl_result = GenDivRem(rl_dest, rl_src1.low_reg, rl_src2.low_reg, op == kOpDiv);
Dave Allison70202782013-10-22 17:52:19 -0700[diff] [blame]1384 done = true;
1385 } else if (cu_->instruction_set == kThumb2) {
1386 if (cu_->GetInstructionSetFeatures().HasDivideInstruction()) {
1387 // Use ARM SDIV instruction for division. For remainder we also need to
1388 // calculate using a MUL and subtract.
1389 rl_src1 = LoadValue(rl_src1, kCoreReg);
1390 rl_src2 = LoadValue(rl_src2, kCoreReg);
1391 if (check_zero) {
1392 GenImmedCheck(kCondEq, rl_src2.low_reg, 0, kThrowDivZero);
1393 }
1394 rl_result = GenDivRem(rl_dest, rl_src1.low_reg, rl_src2.low_reg, op == kOpDiv);
1395 done = true;
1396 }
1397 }
1398
1399 // If we haven't already generated the code use the callout function.
1400 if (!done) {
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1401 ThreadOffset func_offset = QUICK_ENTRYPOINT_OFFSET(pIdivmod);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1402 FlushAllRegs(); /* Send everything to home location */
1403 LoadValueDirectFixed(rl_src2, TargetReg(kArg1));
1404 int r_tgt = CallHelperSetup(func_offset);
1405 LoadValueDirectFixed(rl_src1, TargetReg(kArg0));
1406 if (check_zero) {
1407 GenImmedCheck(kCondEq, TargetReg(kArg1), 0, kThrowDivZero);
1408 }
Dave Allison70202782013-10-22 17:52:19 -0700[diff] [blame]1409 // NOTE: callout here is not a safepoint.
Brian Carlstromdf629502013-07-17 22:39:56 -0700[diff] [blame]1410 CallHelper(r_tgt, func_offset, false /* not a safepoint */);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1411 if (op == kOpDiv)
1412 rl_result = GetReturn(false);
1413 else
1414 rl_result = GetReturnAlt();
1415 }
1416 StoreValue(rl_dest, rl_result);
1417 }
1418}
1419
1420/*
1421 * The following are the first-level codegen routines that analyze the format
1422 * of each bytecode then either dispatch special purpose codegen routines
1423 * or produce corresponding Thumb instructions directly.
1424 */
1425
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1426static bool IsPowerOfTwo(int x) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1427 return (x & (x - 1)) == 0;
1428}
1429
1430// Returns true if no more than two bits are set in 'x'.
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1431static bool IsPopCountLE2(unsigned int x) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1432 x &= x - 1;
1433 return (x & (x - 1)) == 0;
1434}
1435
1436// Returns the index of the lowest set bit in 'x'.
buzbee0d829482013-10-11 15:24:55 -0700[diff] [blame]1437static int32_t LowestSetBit(uint32_t x) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1438 int bit_posn = 0;
1439 while ((x & 0xf) == 0) {
1440 bit_posn += 4;
1441 x >>= 4;
1442 }
1443 while ((x & 1) == 0) {
1444 bit_posn++;
1445 x >>= 1;
1446 }
1447 return bit_posn;
1448}
1449
1450// Returns true if it added instructions to 'cu' to divide 'rl_src' by 'lit'
1451// and store the result in 'rl_dest'.
buzbee11b63d12013-08-27 07:34:17 -0700[diff] [blame]1452bool Mir2Lir::HandleEasyDivRem(Instruction::Code dalvik_opcode, bool is_div,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1453 RegLocation rl_src, RegLocation rl_dest, int lit) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1454 if ((lit < 2) || ((cu_->instruction_set != kThumb2) && !IsPowerOfTwo(lit))) {
1455 return false;
1456 }
1457 // No divide instruction for Arm, so check for more special cases
1458 if ((cu_->instruction_set == kThumb2) && !IsPowerOfTwo(lit)) {
buzbee11b63d12013-08-27 07:34:17 -0700[diff] [blame]1459 return SmallLiteralDivRem(dalvik_opcode, is_div, rl_src, rl_dest, lit);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1460 }
1461 int k = LowestSetBit(lit);
1462 if (k >= 30) {
1463 // Avoid special cases.
1464 return false;
1465 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1466 rl_src = LoadValue(rl_src, kCoreReg);
1467 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
buzbee11b63d12013-08-27 07:34:17 -0700[diff] [blame]1468 if (is_div) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1469 int t_reg = AllocTemp();
1470 if (lit == 2) {
1471 // Division by 2 is by far the most common division by constant.
1472 OpRegRegImm(kOpLsr, t_reg, rl_src.low_reg, 32 - k);
1473 OpRegRegReg(kOpAdd, t_reg, t_reg, rl_src.low_reg);
1474 OpRegRegImm(kOpAsr, rl_result.low_reg, t_reg, k);
1475 } else {
1476 OpRegRegImm(kOpAsr, t_reg, rl_src.low_reg, 31);
1477 OpRegRegImm(kOpLsr, t_reg, t_reg, 32 - k);
1478 OpRegRegReg(kOpAdd, t_reg, t_reg, rl_src.low_reg);
1479 OpRegRegImm(kOpAsr, rl_result.low_reg, t_reg, k);
1480 }
1481 } else {
1482 int t_reg1 = AllocTemp();
1483 int t_reg2 = AllocTemp();
1484 if (lit == 2) {
1485 OpRegRegImm(kOpLsr, t_reg1, rl_src.low_reg, 32 - k);
1486 OpRegRegReg(kOpAdd, t_reg2, t_reg1, rl_src.low_reg);
1487 OpRegRegImm(kOpAnd, t_reg2, t_reg2, lit -1);
1488 OpRegRegReg(kOpSub, rl_result.low_reg, t_reg2, t_reg1);
1489 } else {
1490 OpRegRegImm(kOpAsr, t_reg1, rl_src.low_reg, 31);
1491 OpRegRegImm(kOpLsr, t_reg1, t_reg1, 32 - k);
1492 OpRegRegReg(kOpAdd, t_reg2, t_reg1, rl_src.low_reg);
1493 OpRegRegImm(kOpAnd, t_reg2, t_reg2, lit - 1);
1494 OpRegRegReg(kOpSub, rl_result.low_reg, t_reg2, t_reg1);
1495 }
1496 }
1497 StoreValue(rl_dest, rl_result);
1498 return true;
1499}
1500
1501// Returns true if it added instructions to 'cu' to multiply 'rl_src' by 'lit'
1502// and store the result in 'rl_dest'.
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1503bool Mir2Lir::HandleEasyMultiply(RegLocation rl_src, RegLocation rl_dest, int lit) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1504 // Can we simplify this multiplication?
1505 bool power_of_two = false;
1506 bool pop_count_le2 = false;
1507 bool power_of_two_minus_one = false;
1508 if (lit < 2) {
1509 // Avoid special cases.
1510 return false;
1511 } else if (IsPowerOfTwo(lit)) {
1512 power_of_two = true;
1513 } else if (IsPopCountLE2(lit)) {
1514 pop_count_le2 = true;
1515 } else if (IsPowerOfTwo(lit + 1)) {
1516 power_of_two_minus_one = true;
1517 } else {
1518 return false;
1519 }
1520 rl_src = LoadValue(rl_src, kCoreReg);
1521 RegLocation rl_result = EvalLoc(rl_dest, kCoreReg, true);
1522 if (power_of_two) {
1523 // Shift.
1524 OpRegRegImm(kOpLsl, rl_result.low_reg, rl_src.low_reg, LowestSetBit(lit));
1525 } else if (pop_count_le2) {
1526 // Shift and add and shift.
1527 int first_bit = LowestSetBit(lit);
1528 int second_bit = LowestSetBit(lit ^ (1 << first_bit));
1529 GenMultiplyByTwoBitMultiplier(rl_src, rl_result, lit, first_bit, second_bit);
1530 } else {
1531 // Reverse subtract: (src << (shift + 1)) - src.
1532 DCHECK(power_of_two_minus_one);
1533 // TUNING: rsb dst, src, src lsl#LowestSetBit(lit + 1)
1534 int t_reg = AllocTemp();
1535 OpRegRegImm(kOpLsl, t_reg, rl_src.low_reg, LowestSetBit(lit + 1));
1536 OpRegRegReg(kOpSub, rl_result.low_reg, t_reg, rl_src.low_reg);
1537 }
1538 StoreValue(rl_dest, rl_result);
1539 return true;
1540}
1541
1542void Mir2Lir::GenArithOpIntLit(Instruction::Code opcode, RegLocation rl_dest, RegLocation rl_src,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1543 int lit) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1544 RegLocation rl_result;
1545 OpKind op = static_cast<OpKind>(0); /* Make gcc happy */
1546 int shift_op = false;
1547 bool is_div = false;
1548
1549 switch (opcode) {
1550 case Instruction::RSUB_INT_LIT8:
1551 case Instruction::RSUB_INT: {
1552 rl_src = LoadValue(rl_src, kCoreReg);
1553 rl_result = EvalLoc(rl_dest, kCoreReg, true);
1554 if (cu_->instruction_set == kThumb2) {
1555 OpRegRegImm(kOpRsub, rl_result.low_reg, rl_src.low_reg, lit);
1556 } else {
1557 OpRegReg(kOpNeg, rl_result.low_reg, rl_src.low_reg);
1558 OpRegImm(kOpAdd, rl_result.low_reg, lit);
1559 }
1560 StoreValue(rl_dest, rl_result);
1561 return;
1562 }
1563
1564 case Instruction::SUB_INT:
1565 case Instruction::SUB_INT_2ADDR:
1566 lit = -lit;
1567 // Intended fallthrough
1568 case Instruction::ADD_INT:
1569 case Instruction::ADD_INT_2ADDR:
1570 case Instruction::ADD_INT_LIT8:
1571 case Instruction::ADD_INT_LIT16:
1572 op = kOpAdd;
1573 break;
1574 case Instruction::MUL_INT:
1575 case Instruction::MUL_INT_2ADDR:
1576 case Instruction::MUL_INT_LIT8:
1577 case Instruction::MUL_INT_LIT16: {
1578 if (HandleEasyMultiply(rl_src, rl_dest, lit)) {
1579 return;
1580 }
1581 op = kOpMul;
1582 break;
1583 }
1584 case Instruction::AND_INT:
1585 case Instruction::AND_INT_2ADDR:
1586 case Instruction::AND_INT_LIT8:
1587 case Instruction::AND_INT_LIT16:
1588 op = kOpAnd;
1589 break;
1590 case Instruction::OR_INT:
1591 case Instruction::OR_INT_2ADDR:
1592 case Instruction::OR_INT_LIT8:
1593 case Instruction::OR_INT_LIT16:
1594 op = kOpOr;
1595 break;
1596 case Instruction::XOR_INT:
1597 case Instruction::XOR_INT_2ADDR:
1598 case Instruction::XOR_INT_LIT8:
1599 case Instruction::XOR_INT_LIT16:
1600 op = kOpXor;
1601 break;
1602 case Instruction::SHL_INT_LIT8:
1603 case Instruction::SHL_INT:
1604 case Instruction::SHL_INT_2ADDR:
1605 lit &= 31;
1606 shift_op = true;
1607 op = kOpLsl;
1608 break;
1609 case Instruction::SHR_INT_LIT8:
1610 case Instruction::SHR_INT:
1611 case Instruction::SHR_INT_2ADDR:
1612 lit &= 31;
1613 shift_op = true;
1614 op = kOpAsr;
1615 break;
1616 case Instruction::USHR_INT_LIT8:
1617 case Instruction::USHR_INT:
1618 case Instruction::USHR_INT_2ADDR:
1619 lit &= 31;
1620 shift_op = true;
1621 op = kOpLsr;
1622 break;
1623
1624 case Instruction::DIV_INT:
1625 case Instruction::DIV_INT_2ADDR:
1626 case Instruction::DIV_INT_LIT8:
1627 case Instruction::DIV_INT_LIT16:
1628 case Instruction::REM_INT:
1629 case Instruction::REM_INT_2ADDR:
1630 case Instruction::REM_INT_LIT8:
1631 case Instruction::REM_INT_LIT16: {
1632 if (lit == 0) {
1633 GenImmedCheck(kCondAl, 0, 0, kThrowDivZero);
1634 return;
1635 }
buzbee11b63d12013-08-27 07:34:17 -0700[diff] [blame]1636 if ((opcode == Instruction::DIV_INT) ||
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1637 (opcode == Instruction::DIV_INT_2ADDR) ||
buzbee11b63d12013-08-27 07:34:17 -0700[diff] [blame]1638 (opcode == Instruction::DIV_INT_LIT8) ||
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1639 (opcode == Instruction::DIV_INT_LIT16)) {
1640 is_div = true;
1641 } else {
1642 is_div = false;
1643 }
buzbee11b63d12013-08-27 07:34:17 -0700[diff] [blame]1644 if (HandleEasyDivRem(opcode, is_div, rl_src, rl_dest, lit)) {
1645 return;
1646 }
Dave Allison70202782013-10-22 17:52:19 -0700[diff] [blame]1647
1648 bool done = false;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1649 if (cu_->instruction_set == kMips) {
1650 rl_src = LoadValue(rl_src, kCoreReg);
1651 rl_result = GenDivRemLit(rl_dest, rl_src.low_reg, lit, is_div);
Dave Allison70202782013-10-22 17:52:19 -0700[diff] [blame]1652 done = true;
1653 } else if (cu_->instruction_set == kThumb2) {
1654 if (cu_->GetInstructionSetFeatures().HasDivideInstruction()) {
1655 // Use ARM SDIV instruction for division. For remainder we also need to
1656 // calculate using a MUL and subtract.
1657 rl_src = LoadValue(rl_src, kCoreReg);
1658 rl_result = GenDivRemLit(rl_dest, rl_src.low_reg, lit, is_div);
1659 done = true;
1660 }
1661 }
1662
1663 if (!done) {
1664 FlushAllRegs(); /* Everything to home location. */
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1665 LoadValueDirectFixed(rl_src, TargetReg(kArg0));
1666 Clobber(TargetReg(kArg0));
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1667 ThreadOffset func_offset = QUICK_ENTRYPOINT_OFFSET(pIdivmod);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1668 CallRuntimeHelperRegImm(func_offset, TargetReg(kArg0), lit, false);
1669 if (is_div)
1670 rl_result = GetReturn(false);
1671 else
1672 rl_result = GetReturnAlt();
1673 }
1674 StoreValue(rl_dest, rl_result);
1675 return;
1676 }
1677 default:
1678 LOG(FATAL) << "Unexpected opcode " << opcode;
1679 }
1680 rl_src = LoadValue(rl_src, kCoreReg);
1681 rl_result = EvalLoc(rl_dest, kCoreReg, true);
Dave Allison70202782013-10-22 17:52:19 -0700[diff] [blame]1682 // Avoid shifts by literal 0 - no support in Thumb. Change to copy.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1683 if (shift_op && (lit == 0)) {
1684 OpRegCopy(rl_result.low_reg, rl_src.low_reg);
1685 } else {
1686 OpRegRegImm(op, rl_result.low_reg, rl_src.low_reg, lit);
1687 }
1688 StoreValue(rl_dest, rl_result);
1689}
1690
1691void Mir2Lir::GenArithOpLong(Instruction::Code opcode, RegLocation rl_dest,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1692 RegLocation rl_src1, RegLocation rl_src2) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1693 RegLocation rl_result;
1694 OpKind first_op = kOpBkpt;
1695 OpKind second_op = kOpBkpt;
1696 bool call_out = false;
1697 bool check_zero = false;
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1698 ThreadOffset func_offset(-1);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1699 int ret_reg = TargetReg(kRet0);
1700
1701 switch (opcode) {
1702 case Instruction::NOT_LONG:
1703 rl_src2 = LoadValueWide(rl_src2, kCoreReg);
1704 rl_result = EvalLoc(rl_dest, kCoreReg, true);
1705 // Check for destructive overlap
1706 if (rl_result.low_reg == rl_src2.high_reg) {
1707 int t_reg = AllocTemp();
1708 OpRegCopy(t_reg, rl_src2.high_reg);
1709 OpRegReg(kOpMvn, rl_result.low_reg, rl_src2.low_reg);
1710 OpRegReg(kOpMvn, rl_result.high_reg, t_reg);
1711 FreeTemp(t_reg);
1712 } else {
1713 OpRegReg(kOpMvn, rl_result.low_reg, rl_src2.low_reg);
1714 OpRegReg(kOpMvn, rl_result.high_reg, rl_src2.high_reg);
1715 }
1716 StoreValueWide(rl_dest, rl_result);
1717 return;
1718 case Instruction::ADD_LONG:
1719 case Instruction::ADD_LONG_2ADDR:
1720 if (cu_->instruction_set != kThumb2) {
1721 GenAddLong(rl_dest, rl_src1, rl_src2);
1722 return;
1723 }
1724 first_op = kOpAdd;
1725 second_op = kOpAdc;
1726 break;
1727 case Instruction::SUB_LONG:
1728 case Instruction::SUB_LONG_2ADDR:
1729 if (cu_->instruction_set != kThumb2) {
1730 GenSubLong(rl_dest, rl_src1, rl_src2);
1731 return;
1732 }
1733 first_op = kOpSub;
1734 second_op = kOpSbc;
1735 break;
1736 case Instruction::MUL_LONG:
1737 case Instruction::MUL_LONG_2ADDR:
1738 if (cu_->instruction_set == kThumb2) {
1739 GenMulLong(rl_dest, rl_src1, rl_src2);
1740 return;
1741 } else {
1742 call_out = true;
1743 ret_reg = TargetReg(kRet0);
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1744 func_offset = QUICK_ENTRYPOINT_OFFSET(pLmul);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1745 }
1746 break;
1747 case Instruction::DIV_LONG:
1748 case Instruction::DIV_LONG_2ADDR:
1749 call_out = true;
1750 check_zero = true;
1751 ret_reg = TargetReg(kRet0);
Ian Rogers7655f292013-07-29 11:07:13 -0700[diff] [blame]1752 func_offset = QUICK_ENTRYPOINT_OFFSET(pLdiv);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1753 break;
1754 case Instruction::REM_LONG:
1755 case Instruction::REM_LONG_2ADDR:
1756 call_out = true;
1757 check_zero = true;
Ian Rogersa9a82542013-10-04 11:17:26 -0700[diff] [blame]1758 func_offset = QUICK_ENTRYPOINT_OFFSET(pLmod);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1759 /* NOTE - for Arm, result is in kArg2/kArg3 instead of kRet0/kRet1 */
1760 ret_reg = (cu_->instruction_set == kThumb2) ? TargetReg(kArg2) : TargetReg(kRet0);
1761 break;
1762 case Instruction::AND_LONG_2ADDR:
1763 case Instruction::AND_LONG:
1764 if (cu_->instruction_set == kX86) {
1765 return GenAndLong(rl_dest, rl_src1, rl_src2);
1766 }
1767 first_op = kOpAnd;
1768 second_op = kOpAnd;
1769 break;
1770 case Instruction::OR_LONG:
1771 case Instruction::OR_LONG_2ADDR:
1772 if (cu_->instruction_set == kX86) {
1773 GenOrLong(rl_dest, rl_src1, rl_src2);
1774 return;
1775 }
1776 first_op = kOpOr;
1777 second_op = kOpOr;
1778 break;
1779 case Instruction::XOR_LONG:
1780 case Instruction::XOR_LONG_2ADDR:
1781 if (cu_->instruction_set == kX86) {
1782 GenXorLong(rl_dest, rl_src1, rl_src2);
1783 return;
1784 }
1785 first_op = kOpXor;
1786 second_op = kOpXor;
1787 break;
1788 case Instruction::NEG_LONG: {
1789 GenNegLong(rl_dest, rl_src2);
1790 return;
1791 }
1792 default:
1793 LOG(FATAL) << "Invalid long arith op";
1794 }
1795 if (!call_out) {
1796 GenLong3Addr(first_op, second_op, rl_dest, rl_src1, rl_src2);
1797 } else {
1798 FlushAllRegs(); /* Send everything to home location */
1799 if (check_zero) {
1800 LoadValueDirectWideFixed(rl_src2, TargetReg(kArg2), TargetReg(kArg3));
1801 int r_tgt = CallHelperSetup(func_offset);
1802 GenDivZeroCheck(TargetReg(kArg2), TargetReg(kArg3));
1803 LoadValueDirectWideFixed(rl_src1, TargetReg(kArg0), TargetReg(kArg1));
1804 // NOTE: callout here is not a safepoint
1805 CallHelper(r_tgt, func_offset, false /* not safepoint */);
1806 } else {
1807 CallRuntimeHelperRegLocationRegLocation(func_offset, rl_src1, rl_src2, false);
1808 }
1809 // Adjust return regs in to handle case of rem returning kArg2/kArg3
1810 if (ret_reg == TargetReg(kRet0))
1811 rl_result = GetReturnWide(false);
1812 else
1813 rl_result = GetReturnWideAlt();
1814 StoreValueWide(rl_dest, rl_result);
1815 }
1816}
1817
Ian Rogers848871b2013-08-05 10:56:33 -0700[diff] [blame]1818void Mir2Lir::GenConversionCall(ThreadOffset func_offset,
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1819 RegLocation rl_dest, RegLocation rl_src) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1820 /*
1821 * Don't optimize the register usage since it calls out to support
1822 * functions
1823 */
1824 FlushAllRegs(); /* Send everything to home location */
1825 if (rl_src.wide) {
1826 LoadValueDirectWideFixed(rl_src, rl_src.fp ? TargetReg(kFArg0) : TargetReg(kArg0),
1827 rl_src.fp ? TargetReg(kFArg1) : TargetReg(kArg1));
1828 } else {
1829 LoadValueDirectFixed(rl_src, rl_src.fp ? TargetReg(kFArg0) : TargetReg(kArg0));
1830 }
1831 CallRuntimeHelperRegLocation(func_offset, rl_src, false);
1832 if (rl_dest.wide) {
1833 RegLocation rl_result;
1834 rl_result = GetReturnWide(rl_dest.fp);
1835 StoreValueWide(rl_dest, rl_result);
1836 } else {
1837 RegLocation rl_result;
1838 rl_result = GetReturn(rl_dest.fp);
1839 StoreValue(rl_dest, rl_result);
1840 }
1841}
1842
1843/* Check if we need to check for pending suspend request */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1844void Mir2Lir::GenSuspendTest(int opt_flags) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1845 if (NO_SUSPEND || (opt_flags & MIR_IGNORE_SUSPEND_CHECK)) {
1846 return;
1847 }
1848 FlushAllRegs();
1849 LIR* branch = OpTestSuspend(NULL);
1850 LIR* ret_lab = NewLIR0(kPseudoTargetLabel);
buzbee0d829482013-10-11 15:24:55 -0700[diff] [blame]1851 LIR* target = RawLIR(current_dalvik_offset_, kPseudoSuspendTarget, WrapPointer(ret_lab),
1852 current_dalvik_offset_);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1853 branch->target = target;
1854 suspend_launchpads_.Insert(target);
1855}
1856
1857/* Check if we need to check for pending suspend request */
Brian Carlstrom2ce745c2013-07-17 17:44:30 -0700[diff] [blame]1858void Mir2Lir::GenSuspendTestAndBranch(int opt_flags, LIR* target) {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1859 if (NO_SUSPEND || (opt_flags & MIR_IGNORE_SUSPEND_CHECK)) {
1860 OpUnconditionalBranch(target);
1861 return;
1862 }
1863 OpTestSuspend(target);
1864 LIR* launch_pad =
buzbee0d829482013-10-11 15:24:55 -0700[diff] [blame]1865 RawLIR(current_dalvik_offset_, kPseudoSuspendTarget, WrapPointer(target),
1866 current_dalvik_offset_);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1867 FlushAllRegs();
1868 OpUnconditionalBranch(launch_pad);
1869 suspend_launchpads_.Insert(launch_pad);
1870}
1871
Ian Rogersd9c4fc92013-10-01 19:45:43 -0700[diff] [blame]1872/* Call out to helper assembly routine that will null check obj and then lock it. */
1873void Mir2Lir::GenMonitorEnter(int opt_flags, RegLocation rl_src) {
1874 FlushAllRegs();
1875 CallRuntimeHelperRegLocation(QUICK_ENTRYPOINT_OFFSET(pLockObject), rl_src, true);
1876}
1877
1878/* Call out to helper assembly routine that will null check obj and then unlock it. */
1879void Mir2Lir::GenMonitorExit(int opt_flags, RegLocation rl_src) {
1880 FlushAllRegs();
1881 CallRuntimeHelperRegLocation(QUICK_ENTRYPOINT_OFFSET(pUnlockObject), rl_src, true);
1882}
1883
Bill Buzbeed61ba4b2014-01-13 21:44:01 +0000[diff] [blame]1884/* Generic code for generating a wide constant into a VR. */
1885void Mir2Lir::GenConstWide(RegLocation rl_dest, int64_t value) {
1886 RegLocation rl_result = EvalLoc(rl_dest, kAnyReg, true);
1887 LoadConstantWide(rl_result.low_reg, rl_result.high_reg, value);
1888 StoreValueWide(rl_dest, rl_result);
1889}
1890
Brian Carlstrom7940e442013-07-12 13:46:57 -0700[diff] [blame]1891} // namespace art