Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / art / 43a364291dcdfe08e530e9568748359735dd7442 / . / src / compiler / codegen / arm / Thumb2 / Gen.cc
blob: c54a0a8d0a848f26291f1c7422a630583ff087a6 [file] [log] [blame]
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1/*
2 * Copyright (C) 2011 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/*
18 * This file contains codegen for the Thumb2 ISA and is intended to be
19 * includes by:
20 *
21 * Codegen-$(TARGET_ARCH_VARIANT).c
22 *
23 */
24
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]25#define SLOW_FIELD_PATH 0
26#define SLOW_INVOKE_PATH 0
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]27//#define EXERCISE_SLOWEST_FIELD_PATH
28
29std::string fieldNameFromIndex(const Method* method, uint32_t fieldIdx)
30{
31 art::ClassLinker* class_linker = art::Runtime::Current()->GetClassLinker();
32 const art::DexFile& dex_file = class_linker->FindDexFile(
33 method->GetDeclaringClass()->GetDexCache());
34 const art::DexFile::FieldId& field_id = dex_file.GetFieldId(fieldIdx);
Elliott Hughes2bb97f92011-09-11 15:43:37 -0700[diff] [blame]35 std::string class_name = dex_file.dexStringByTypeIdx(field_id.class_idx_);
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]36 std::string field_name = dex_file.dexStringById(field_id.name_idx_);
37 return class_name + "." + field_name;
38}
39
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]40/*
41 * Construct an s4 from two consecutive half-words of switch data.
42 * This needs to check endianness because the DEX optimizer only swaps
43 * half-words in instruction stream.
44 *
45 * "switchData" must be 32-bit aligned.
46 */
47#if __BYTE_ORDER == __LITTLE_ENDIAN
48static inline s4 s4FromSwitchData(const void* switchData) {
49 return *(s4*) switchData;
50}
51#else
52static inline s4 s4FromSwitchData(const void* switchData) {
53 u2* data = switchData;
54 return data[0] | (((s4) data[1]) << 16);
55}
56#endif
57
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]58/*
59 * If a helper routine might need to unwind, let it know the top
60 * of the managed stack.
61 */
62static ArmLIR* callUnwindableHelper(CompilationUnit* cUnit, int reg)
63{
64 // Starting point for managed traceback if we throw
65 storeWordDisp(cUnit, rSELF,
66 art::Thread::TopOfManagedStackOffset().Int32Value(), rSP);
67 return opReg(cUnit, kOpBlx, reg);
68}
69
70static ArmLIR* callNoUnwindHelper(CompilationUnit* cUnit, int reg)
71{
72 return opReg(cUnit, kOpBlx, reg);
73}
74
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]75/* Generate unconditional branch instructions */
76static ArmLIR* genUnconditionalBranch(CompilationUnit* cUnit, ArmLIR* target)
77{
78 ArmLIR* branch = opNone(cUnit, kOpUncondBr);
79 branch->generic.target = (LIR*) target;
80 return branch;
81}
82
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]83/*
84 * Generate a Thumb2 IT instruction, which can nullify up to
85 * four subsequent instructions based on a condition and its
86 * inverse. The condition applies to the first instruction, which
87 * is executed if the condition is met. The string "guide" consists
88 * of 0 to 3 chars, and applies to the 2nd through 4th instruction.
89 * A "T" means the instruction is executed if the condition is
90 * met, and an "E" means the instruction is executed if the condition
91 * is not met.
92 */
93static ArmLIR* genIT(CompilationUnit* cUnit, ArmConditionCode code,
94 const char* guide)
95{
96 int mask;
97 int condBit = code & 1;
98 int altBit = condBit ^ 1;
99 int mask3 = 0;
100 int mask2 = 0;
101 int mask1 = 0;
102
103 //Note: case fallthroughs intentional
104 switch(strlen(guide)) {
105 case 3:
106 mask1 = (guide[2] == 'T') ? condBit : altBit;
107 case 2:
108 mask2 = (guide[1] == 'T') ? condBit : altBit;
109 case 1:
110 mask3 = (guide[0] == 'T') ? condBit : altBit;
111 break;
112 case 0:
113 break;
114 default:
115 LOG(FATAL) << "OAT: bad case in genIT";
116 }
117 mask = (mask3 << 3) | (mask2 << 2) | (mask1 << 1) |
118 (1 << (3 - strlen(guide)));
119 return newLIR2(cUnit, kThumb2It, code, mask);
120}
121
122/*
123 * Insert a kArmPseudoCaseLabel at the beginning of the Dalvik
124 * offset vaddr. This label will be used to fix up the case
125 * branch table during the assembly phase. Be sure to set
126 * all resource flags on this to prevent code motion across
127 * target boundaries. KeyVal is just there for debugging.
128 */
129static ArmLIR* insertCaseLabel(CompilationUnit* cUnit, int vaddr, int keyVal)
130{
131 ArmLIR* lir;
132 for (lir = (ArmLIR*)cUnit->firstLIRInsn; lir; lir = NEXT_LIR(lir)) {
133 if ((lir->opcode == kArmPseudoDalvikByteCodeBoundary) &&
134 (lir->generic.dalvikOffset == vaddr)) {
135 ArmLIR* newLabel = (ArmLIR*)oatNew(sizeof(ArmLIR), true);
136 newLabel->generic.dalvikOffset = vaddr;
137 newLabel->opcode = kArmPseudoCaseLabel;
138 newLabel->operands[0] = keyVal;
139 oatInsertLIRAfter((LIR*)lir, (LIR*)newLabel);
140 return newLabel;
141 }
142 }
143 oatCodegenDump(cUnit);
144 LOG(FATAL) << "Error: didn't find vaddr 0x" << std::hex << vaddr;
145 return NULL; // Quiet gcc
146}
147
148static void markPackedCaseLabels(CompilationUnit* cUnit, SwitchTable *tabRec)
149{
150 const u2* table = tabRec->table;
151 int baseVaddr = tabRec->vaddr;
152 int *targets = (int*)&table[4];
153 int entries = table[1];
154 int lowKey = s4FromSwitchData(&table[2]);
155 for (int i = 0; i < entries; i++) {
156 tabRec->targets[i] = insertCaseLabel(cUnit, baseVaddr + targets[i],
157 i + lowKey);
158 }
159}
160
161static void markSparseCaseLabels(CompilationUnit* cUnit, SwitchTable *tabRec)
162{
163 const u2* table = tabRec->table;
164 int baseVaddr = tabRec->vaddr;
165 int entries = table[1];
166 int* keys = (int*)&table[2];
167 int* targets = &keys[entries];
168 for (int i = 0; i < entries; i++) {
169 tabRec->targets[i] = insertCaseLabel(cUnit, baseVaddr + targets[i],
170 keys[i]);
171 }
172}
173
174void oatProcessSwitchTables(CompilationUnit* cUnit)
175{
176 GrowableListIterator iterator;
177 oatGrowableListIteratorInit(&cUnit->switchTables, &iterator);
178 while (true) {
179 SwitchTable *tabRec = (SwitchTable *) oatGrowableListIteratorNext(
180 &iterator);
181 if (tabRec == NULL) break;
182 if (tabRec->table[0] == kPackedSwitchSignature)
183 markPackedCaseLabels(cUnit, tabRec);
184 else if (tabRec->table[0] == kSparseSwitchSignature)
185 markSparseCaseLabels(cUnit, tabRec);
186 else {
187 LOG(FATAL) << "Invalid switch table";
188 }
189 }
190}
191
192static void dumpSparseSwitchTable(const u2* table)
193 /*
194 * Sparse switch data format:
195 * ushort ident = 0x0200 magic value
196 * ushort size number of entries in the table; > 0
197 * int keys[size] keys, sorted low-to-high; 32-bit aligned
198 * int targets[size] branch targets, relative to switch opcode
199 *
200 * Total size is (2+size*4) 16-bit code units.
201 */
202{
203 u2 ident = table[0];
204 int entries = table[1];
205 int* keys = (int*)&table[2];
206 int* targets = &keys[entries];
207 LOG(INFO) << "Sparse switch table - ident:0x" << std::hex << ident <<
208 ", entries: " << std::dec << entries;
209 for (int i = 0; i < entries; i++) {
210 LOG(INFO) << " Key[" << keys[i] << "] -> 0x" << std::hex <<
211 targets[i];
212 }
213}
214
215static void dumpPackedSwitchTable(const u2* table)
216 /*
217 * Packed switch data format:
218 * ushort ident = 0x0100 magic value
219 * ushort size number of entries in the table
220 * int first_key first (and lowest) switch case value
221 * int targets[size] branch targets, relative to switch opcode
222 *
223 * Total size is (4+size*2) 16-bit code units.
224 */
225{
226 u2 ident = table[0];
227 int* targets = (int*)&table[4];
228 int entries = table[1];
229 int lowKey = s4FromSwitchData(&table[2]);
230 LOG(INFO) << "Packed switch table - ident:0x" << std::hex << ident <<
231 ", entries: " << std::dec << entries << ", lowKey: " << lowKey;
232 for (int i = 0; i < entries; i++) {
233 LOG(INFO) << " Key[" << (i + lowKey) << "] -> 0x" << std::hex <<
234 targets[i];
235 }
236}
237
238/*
239 * The sparse table in the literal pool is an array of <key,displacement>
240 * pairs. For each set, we'll load them as a pair using ldmia.
241 * This means that the register number of the temp we use for the key
242 * must be lower than the reg for the displacement.
243 *
244 * The test loop will look something like:
245 *
246 * adr rBase, <table>
247 * ldr rVal, [rSP, vRegOff]
248 * mov rIdx, #tableSize
249 * lp:
250 * ldmia rBase!, {rKey, rDisp}
251 * sub rIdx, #1
252 * cmp rVal, rKey
253 * ifeq
254 * add rPC, rDisp ; This is the branch from which we compute displacement
255 * cbnz rIdx, lp
256 */
257static void genSparseSwitch(CompilationUnit* cUnit, MIR* mir,
258 RegLocation rlSrc)
259{
260 const u2* table = cUnit->insns + mir->offset + mir->dalvikInsn.vB;
261 if (cUnit->printMe) {
262 dumpSparseSwitchTable(table);
263 }
264 // Add the table to the list - we'll process it later
265 SwitchTable *tabRec = (SwitchTable *)oatNew(sizeof(SwitchTable),
266 true);
267 tabRec->table = table;
268 tabRec->vaddr = mir->offset;
269 int size = table[1];
270 tabRec->targets = (ArmLIR* *)oatNew(size * sizeof(ArmLIR*), true);
271 oatInsertGrowableList(&cUnit->switchTables, (intptr_t)tabRec);
272
273 // Get the switch value
274 rlSrc = loadValue(cUnit, rlSrc, kCoreReg);
275 int rBase = oatAllocTemp(cUnit);
276 /* Allocate key and disp temps */
277 int rKey = oatAllocTemp(cUnit);
278 int rDisp = oatAllocTemp(cUnit);
279 // Make sure rKey's register number is less than rDisp's number for ldmia
280 if (rKey > rDisp) {
281 int tmp = rDisp;
282 rDisp = rKey;
283 rKey = tmp;
284 }
285 // Materialize a pointer to the switch table
286 newLIR3(cUnit, kThumb2AdrST, rBase, 0, (intptr_t)tabRec);
287 // Set up rIdx
288 int rIdx = oatAllocTemp(cUnit);
289 loadConstant(cUnit, rIdx, size);
290 // Establish loop branch target
291 ArmLIR* target = newLIR0(cUnit, kArmPseudoTargetLabel);
292 target->defMask = ENCODE_ALL;
293 // Load next key/disp
294 newLIR2(cUnit, kThumb2LdmiaWB, rBase, (1 << rKey) | (1 << rDisp));
295 opRegReg(cUnit, kOpCmp, rKey, rlSrc.lowReg);
296 // Go if match. NOTE: No instruction set switch here - must stay Thumb2
297 genIT(cUnit, kArmCondEq, "");
298 ArmLIR* switchBranch = newLIR1(cUnit, kThumb2AddPCR, rDisp);
299 tabRec->bxInst = switchBranch;
300 // Needs to use setflags encoding here
301 newLIR3(cUnit, kThumb2SubsRRI12, rIdx, rIdx, 1);
302 ArmLIR* branch = opCondBranch(cUnit, kArmCondNe);
303 branch->generic.target = (LIR*)target;
304}
305
306
307static void genPackedSwitch(CompilationUnit* cUnit, MIR* mir,
308 RegLocation rlSrc)
309{
310 const u2* table = cUnit->insns + mir->offset + mir->dalvikInsn.vB;
311 if (cUnit->printMe) {
312 dumpPackedSwitchTable(table);
313 }
314 // Add the table to the list - we'll process it later
315 SwitchTable *tabRec = (SwitchTable *)oatNew(sizeof(SwitchTable),
316 true);
317 tabRec->table = table;
318 tabRec->vaddr = mir->offset;
319 int size = table[1];
320 tabRec->targets = (ArmLIR* *)oatNew(size * sizeof(ArmLIR*), true);
321 oatInsertGrowableList(&cUnit->switchTables, (intptr_t)tabRec);
322
323 // Get the switch value
324 rlSrc = loadValue(cUnit, rlSrc, kCoreReg);
325 int tableBase = oatAllocTemp(cUnit);
326 // Materialize a pointer to the switch table
327 newLIR3(cUnit, kThumb2AdrST, tableBase, 0, (intptr_t)tabRec);
328 int lowKey = s4FromSwitchData(&table[2]);
329 int keyReg;
330 // Remove the bias, if necessary
331 if (lowKey == 0) {
332 keyReg = rlSrc.lowReg;
333 } else {
334 keyReg = oatAllocTemp(cUnit);
335 opRegRegImm(cUnit, kOpSub, keyReg, rlSrc.lowReg, lowKey);
336 }
337 // Bounds check - if < 0 or >= size continue following switch
338 opRegImm(cUnit, kOpCmp, keyReg, size-1);
339 ArmLIR* branchOver = opCondBranch(cUnit, kArmCondHi);
340
341 // Load the displacement from the switch table
342 int dispReg = oatAllocTemp(cUnit);
343 loadBaseIndexed(cUnit, tableBase, keyReg, dispReg, 2, kWord);
344
345 // ..and go! NOTE: No instruction set switch here - must stay Thumb2
346 ArmLIR* switchBranch = newLIR1(cUnit, kThumb2AddPCR, dispReg);
347 tabRec->bxInst = switchBranch;
348
349 /* branchOver target here */
350 ArmLIR* target = newLIR0(cUnit, kArmPseudoTargetLabel);
351 target->defMask = ENCODE_ALL;
352 branchOver->generic.target = (LIR*)target;
353}
354
355/*
356 * Array data table format:
357 * ushort ident = 0x0300 magic value
358 * ushort width width of each element in the table
359 * uint size number of elements in the table
360 * ubyte data[size*width] table of data values (may contain a single-byte
361 * padding at the end)
362 *
363 * Total size is 4+(width * size + 1)/2 16-bit code units.
364 */
365static void genFillArrayData(CompilationUnit* cUnit, MIR* mir,
366 RegLocation rlSrc)
367{
368 const u2* table = cUnit->insns + mir->offset + mir->dalvikInsn.vB;
369 // Add the table to the list - we'll process it later
370 FillArrayData *tabRec = (FillArrayData *)
371 oatNew(sizeof(FillArrayData), true);
372 tabRec->table = table;
373 tabRec->vaddr = mir->offset;
374 u2 width = tabRec->table[1];
375 u4 size = tabRec->table[2] | (((u4)tabRec->table[3]) << 16);
376 tabRec->size = (size * width) + 8;
377
378 oatInsertGrowableList(&cUnit->fillArrayData, (intptr_t)tabRec);
379
380 // Making a call - use explicit registers
381 oatFlushAllRegs(cUnit); /* Everything to home location */
382 loadValueDirectFixed(cUnit, rlSrc, r0);
383 loadWordDisp(cUnit, rSELF,
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]384 OFFSETOF_MEMBER(Thread, pHandleFillArrayDataFromCode), rLR);
buzbeee6d61962011-08-27 11:58:19 -0700[diff] [blame]385 // Materialize a pointer to the fill data image
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]386 newLIR3(cUnit, kThumb2AdrST, r1, 0, (intptr_t)tabRec);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]387 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]388 oatClobberCallRegs(cUnit);
389}
390
391/*
392 * Mark garbage collection card. Skip if the value we're storing is null.
393 */
394static void markGCCard(CompilationUnit* cUnit, int valReg, int tgtAddrReg)
395{
Elliott Hughes5ee7a8b2011-09-13 16:40:07 -0700[diff] [blame]396#ifdef CONCURRENT_GARBAGE_COLLECTOR
buzbee0d966cf2011-09-08 17:34:58 -0700[diff] [blame]397 // TODO: re-enable when concurrent collector is active
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]398 int regCardBase = oatAllocTemp(cUnit);
399 int regCardNo = oatAllocTemp(cUnit);
400 ArmLIR* branchOver = genCmpImmBranch(cUnit, kArmCondEq, valReg, 0);
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]401 loadWordDisp(cUnit, rSELF, Thread::CardTableOffset().Int32Value(),
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]402 regCardBase);
403 opRegRegImm(cUnit, kOpLsr, regCardNo, tgtAddrReg, GC_CARD_SHIFT);
404 storeBaseIndexed(cUnit, regCardBase, regCardNo, regCardBase, 0,
405 kUnsignedByte);
406 ArmLIR* target = newLIR0(cUnit, kArmPseudoTargetLabel);
407 target->defMask = ENCODE_ALL;
408 branchOver->generic.target = (LIR*)target;
409 oatFreeTemp(cUnit, regCardBase);
410 oatFreeTemp(cUnit, regCardNo);
Elliott Hughes0f4c41d2011-09-04 14:58:03 -0700[diff] [blame]411#endif
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]412}
413
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]414/*
415 * Helper function for Iget/put when field not resolved at compile time.
416 * Will trash call temps and return with the field offset in r0.
417 */
418static void getFieldOffset(CompilationUnit* cUnit, MIR* mir)
419{
420 int fieldIdx = mir->dalvikInsn.vC;
421 LOG(INFO) << "Field " << fieldNameFromIndex(cUnit->method, fieldIdx)
422 << " unresolved at compile time";
423 oatLockCallTemps(cUnit); // Explicit register usage
424 loadCurrMethodDirect(cUnit, r1); // arg1 <= Method*
425 loadWordDisp(cUnit, r1,
426 Method::DexCacheResolvedFieldsOffset().Int32Value(), r0);
427 loadWordDisp(cUnit, r0, art::Array::DataOffset().Int32Value() +
428 sizeof(int32_t*)* fieldIdx, r0);
429 /*
430 * For testing, omit the test for run-time resolution. This will
431 * force all accesses to go through the runtime resolution path.
432 */
433#ifndef EXERCISE_SLOWEST_FIELD_PATH
434 ArmLIR* branchOver = genCmpImmBranch(cUnit, kArmCondNe, r0, 0);
435#endif
436 // Resolve
437 loadWordDisp(cUnit, rSELF,
438 OFFSETOF_MEMBER(Thread, pFindFieldFromCode), rLR);
439 loadConstant(cUnit, r0, fieldIdx);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]440 callUnwindableHelper(cUnit, rLR); // resolveTypeFromCode(idx, method)
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]441 ArmLIR* target = newLIR0(cUnit, kArmPseudoTargetLabel);
442 target->defMask = ENCODE_ALL;
443#ifndef EXERCISE_SLOWEST_FIELD_PATH
444 branchOver->generic.target = (LIR*)target;
445#endif
446 // Free temps (except for r0)
447 oatFreeTemp(cUnit, r1);
448 oatFreeTemp(cUnit, r2);
449 oatFreeTemp(cUnit, r3);
450 loadWordDisp(cUnit, r0, art::Field::OffsetOffset().Int32Value(), r0);
451}
452
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]453static void genIGet(CompilationUnit* cUnit, MIR* mir, OpSize size,
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]454 RegLocation rlDest, RegLocation rlObj)
455{
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]456 Field* fieldPtr = cUnit->method->GetDeclaringClass()->GetDexCache()->
457 GetResolvedField(mir->dalvikInsn.vC);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]458 RegLocation rlResult;
459 RegisterClass regClass = oatRegClassBySize(size);
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]460 if (SLOW_FIELD_PATH || fieldPtr == NULL) {
461 getFieldOffset(cUnit, mir);
462 // Field offset in r0
463 rlObj = loadValue(cUnit, rlObj, kCoreReg);
464 rlResult = oatEvalLoc(cUnit, rlDest, regClass, true);
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]465 genNullCheck(cUnit, rlObj.sRegLow, rlObj.lowReg, mir);/* null object? */
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]466 loadBaseIndexed(cUnit, rlObj.lowReg, r0, rlResult.lowReg, 0, size);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]467 oatGenMemBarrier(cUnit, kSY);
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]468 storeValue(cUnit, rlDest, rlResult);
469 } else {
470#if ANDROID_SMP != 0
Elliott Hughes1d3f1142011-09-13 12:00:00 -0700[diff] [blame]471 bool isVolatile = fieldPtr->IsVolatile();
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]472#else
473 bool isVolatile = false;
474#endif
475 int fieldOffset = fieldPtr->GetOffset().Int32Value();
476 rlObj = loadValue(cUnit, rlObj, kCoreReg);
477 rlResult = oatEvalLoc(cUnit, rlDest, regClass, true);
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]478 genNullCheck(cUnit, rlObj.sRegLow, rlObj.lowReg, mir);/* null object? */
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]479 loadBaseDisp(cUnit, mir, rlObj.lowReg, fieldOffset, rlResult.lowReg,
480 size, rlObj.sRegLow);
481 if (isVolatile) {
482 oatGenMemBarrier(cUnit, kSY);
483 }
484 storeValue(cUnit, rlDest, rlResult);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]485 }
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]486}
487
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]488static void genIPut(CompilationUnit* cUnit, MIR* mir, OpSize size,
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]489 RegLocation rlSrc, RegLocation rlObj, bool isObject)
490{
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]491 Field* fieldPtr = cUnit->method->GetDeclaringClass()->GetDexCache()->
492 GetResolvedField(mir->dalvikInsn.vC);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]493 RegisterClass regClass = oatRegClassBySize(size);
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]494 if (SLOW_FIELD_PATH || fieldPtr == NULL) {
495 getFieldOffset(cUnit, mir);
496 // Field offset in r0
497 rlObj = loadValue(cUnit, rlObj, kCoreReg);
498 rlSrc = loadValue(cUnit, rlSrc, regClass);
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]499 genNullCheck(cUnit, rlObj.sRegLow, rlObj.lowReg, mir);/* null object? */
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]500 oatGenMemBarrier(cUnit, kSY);
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]501 storeBaseIndexed(cUnit, rlObj.lowReg, r0, rlSrc.lowReg, 0, size);
502 } else {
503#if ANDROID_SMP != 0
Elliott Hughes1d3f1142011-09-13 12:00:00 -0700[diff] [blame]504 bool isVolatile = fieldPtr->IsVolatile();
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]505#else
506 bool isVolatile = false;
507#endif
508 int fieldOffset = fieldPtr->GetOffset().Int32Value();
509 rlObj = loadValue(cUnit, rlObj, kCoreReg);
510 rlSrc = loadValue(cUnit, rlSrc, regClass);
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]511 genNullCheck(cUnit, rlObj.sRegLow, rlObj.lowReg, mir);/* null obj? */
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]512
513 if (isVolatile) {
514 oatGenMemBarrier(cUnit, kSY);
515 }
516 storeBaseDisp(cUnit, rlObj.lowReg, fieldOffset, rlSrc.lowReg, size);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]517 }
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]518 if (isObject) {
519 /* NOTE: marking card based on object head */
520 markGCCard(cUnit, rlSrc.lowReg, rlObj.lowReg);
521 }
522}
523
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]524static void genIGetWide(CompilationUnit* cUnit, MIR* mir, RegLocation rlDest,
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]525 RegLocation rlObj)
526{
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]527 Field* fieldPtr = cUnit->method->GetDeclaringClass()->GetDexCache()->
528 GetResolvedField(mir->dalvikInsn.vC);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]529 RegLocation rlResult;
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]530 if (fieldPtr == NULL) {
531 getFieldOffset(cUnit, mir);
532 // Field offset in r0
533 rlObj = loadValue(cUnit, rlObj, kCoreReg);
534 rlResult = oatEvalLoc(cUnit, rlDest, kAnyReg, true);
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]535 genNullCheck(cUnit, rlObj.sRegLow, rlObj.lowReg, mir);/* null obj? */
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]536 opRegReg(cUnit, kOpAdd, r0, rlObj.lowReg);
537 loadPair(cUnit, r0, rlResult.lowReg, rlResult.highReg);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]538 oatGenMemBarrier(cUnit, kSY);
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]539 storeValue(cUnit, rlDest, rlResult);
540 } else {
541#if ANDROID_SMP != 0
Elliott Hughes1d3f1142011-09-13 12:00:00 -0700[diff] [blame]542 bool isVolatile = fieldPtr->IsVolatile();
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]543#else
544 bool isVolatile = false;
545#endif
546 int fieldOffset = fieldPtr->GetOffset().Int32Value();
547 rlObj = loadValue(cUnit, rlObj, kCoreReg);
548 int regPtr = oatAllocTemp(cUnit);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]549
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]550 assert(rlDest.wide);
551
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]552 genNullCheck(cUnit, rlObj.sRegLow, rlObj.lowReg, mir);/* null obj? */
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]553 opRegRegImm(cUnit, kOpAdd, regPtr, rlObj.lowReg, fieldOffset);
554 rlResult = oatEvalLoc(cUnit, rlDest, kAnyReg, true);
555
556 loadPair(cUnit, regPtr, rlResult.lowReg, rlResult.highReg);
557
558 if (isVolatile) {
559 oatGenMemBarrier(cUnit, kSY);
560 }
561
562 oatFreeTemp(cUnit, regPtr);
563 storeValueWide(cUnit, rlDest, rlResult);
564 }
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]565}
566
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]567static void genIPutWide(CompilationUnit* cUnit, MIR* mir, RegLocation rlSrc,
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]568 RegLocation rlObj)
569{
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]570 Field* fieldPtr = cUnit->method->GetDeclaringClass()->GetDexCache()->
571 GetResolvedField(mir->dalvikInsn.vC);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]572 if (fieldPtr == NULL) {
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]573 getFieldOffset(cUnit, mir);
574 // Field offset in r0
575 rlObj = loadValue(cUnit, rlObj, kCoreReg);
576 rlSrc = loadValueWide(cUnit, rlSrc, kAnyReg);
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]577 genNullCheck(cUnit, rlObj.sRegLow, rlObj.lowReg, mir);/* null obj? */
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]578 opRegReg(cUnit, kOpAdd, r0, rlObj.lowReg);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]579 oatGenMemBarrier(cUnit, kSY);
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]580 storePair(cUnit, r0, rlSrc.lowReg, rlSrc.highReg);
581 } else {
582#if ANDROID_SMP != 0
Elliott Hughes1d3f1142011-09-13 12:00:00 -0700[diff] [blame]583 bool isVolatile = fieldPtr->IsVolatile();
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]584#else
585 bool isVolatile = false;
586#endif
587 int fieldOffset = fieldPtr->GetOffset().Int32Value();
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]588
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]589 rlObj = loadValue(cUnit, rlObj, kCoreReg);
590 int regPtr;
591 rlSrc = loadValueWide(cUnit, rlSrc, kAnyReg);
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]592 genNullCheck(cUnit, rlObj.sRegLow, rlObj.lowReg, mir);/* null obj? */
buzbee34cd9e52011-09-08 14:31:52 -0700[diff] [blame]593 regPtr = oatAllocTemp(cUnit);
594 opRegRegImm(cUnit, kOpAdd, regPtr, rlObj.lowReg, fieldOffset);
595
596 if (isVolatile) {
597 oatGenMemBarrier(cUnit, kSY);
598 }
599 storePair(cUnit, regPtr, rlSrc.lowReg, rlSrc.highReg);
600
601 oatFreeTemp(cUnit, regPtr);
602 }
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]603}
604
605static void genConstClass(CompilationUnit* cUnit, MIR* mir,
606 RegLocation rlDest, RegLocation rlSrc)
607{
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]608 art::Class* classPtr = cUnit->method->GetDexCacheResolvedTypes()->
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]609 Get(mir->dalvikInsn.vB);
610 int mReg = loadCurrMethod(cUnit);
611 int resReg = oatAllocTemp(cUnit);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]612 RegLocation rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]613 loadWordDisp(cUnit, mReg, Method::DexCacheResolvedTypesOffset().Int32Value(),
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]614 resReg);
615 loadWordDisp(cUnit, resReg, Array::DataOffset().Int32Value() +
616 (sizeof(String*) * mir->dalvikInsn.vB), rlResult.lowReg);
617 if (classPtr != NULL) {
618 // Fast path, we're done - just store result
619 storeValue(cUnit, rlDest, rlResult);
620 } else {
621 // Slow path. Must test at runtime
622 ArmLIR* branch1 = genCmpImmBranch(cUnit, kArmCondEq, rlResult.lowReg,
623 0);
624 // Resolved, store and hop over following code
625 storeValue(cUnit, rlDest, rlResult);
626 ArmLIR* branch2 = genUnconditionalBranch(cUnit,0);
627 // TUNING: move slow path to end & remove unconditional branch
628 ArmLIR* target1 = newLIR0(cUnit, kArmPseudoTargetLabel);
629 target1->defMask = ENCODE_ALL;
630 // Call out to helper, which will return resolved type in r0
631 loadWordDisp(cUnit, rSELF,
632 OFFSETOF_MEMBER(Thread, pInitializeTypeFromCode), rLR);
633 genRegCopy(cUnit, r1, mReg);
634 loadConstant(cUnit, r0, mir->dalvikInsn.vB);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]635 callUnwindableHelper(cUnit, rLR);
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]636 oatClobberCallRegs(cUnit);
637 RegLocation rlResult = oatGetReturn(cUnit);
638 storeValue(cUnit, rlDest, rlResult);
639 // Rejoin code paths
640 ArmLIR* target2 = newLIR0(cUnit, kArmPseudoTargetLabel);
641 target2->defMask = ENCODE_ALL;
642 branch1->generic.target = (LIR*)target1;
643 branch2->generic.target = (LIR*)target2;
644 }
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]645}
646
647static void genConstString(CompilationUnit* cUnit, MIR* mir,
648 RegLocation rlDest, RegLocation rlSrc)
649{
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]650 /* All strings should be available at compile time */
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]651 const art::String* str = cUnit->method->GetDexCacheStrings()->
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]652 Get(mir->dalvikInsn.vB);
653 DCHECK(str != NULL);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]654
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]655 int mReg = loadCurrMethod(cUnit);
656 int resReg = oatAllocTemp(cUnit);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]657 RegLocation rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]658 loadWordDisp(cUnit, mReg, Method::DexCacheStringsOffset().Int32Value(),
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]659 resReg);
660 loadWordDisp(cUnit, resReg, Array::DataOffset().Int32Value() +
661 (sizeof(String*) * mir->dalvikInsn.vB), rlResult.lowReg);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]662 storeValue(cUnit, rlDest, rlResult);
663}
664
buzbeedfd3d702011-08-28 12:56:51 -0700[diff] [blame]665/*
666 * Let helper function take care of everything. Will
667 * call Class::NewInstanceFromCode(type_idx, method);
668 */
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]669static void genNewInstance(CompilationUnit* cUnit, MIR* mir,
670 RegLocation rlDest)
671{
buzbeedfd3d702011-08-28 12:56:51 -0700[diff] [blame]672 oatFlushAllRegs(cUnit); /* Everything to home location */
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]673 loadWordDisp(cUnit, rSELF,
Brian Carlstrom1f870082011-08-23 16:02:11 -0700[diff] [blame]674 OFFSETOF_MEMBER(Thread, pAllocObjectFromCode), rLR);
buzbeedfd3d702011-08-28 12:56:51 -0700[diff] [blame]675 loadCurrMethodDirect(cUnit, r1); // arg1 <= Method*
676 loadConstant(cUnit, r0, mir->dalvikInsn.vB); // arg0 <- type_id
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]677 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]678 oatClobberCallRegs(cUnit);
679 RegLocation rlResult = oatGetReturn(cUnit);
680 storeValue(cUnit, rlDest, rlResult);
681}
682
683void genThrow(CompilationUnit* cUnit, MIR* mir, RegLocation rlSrc)
684{
685 loadWordDisp(cUnit, rSELF,
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]686 OFFSETOF_MEMBER(Thread, pThrowException), rLR);
687 loadValueDirectFixed(cUnit, rlSrc, r1); // Get exception object
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]688 genRegCopy(cUnit, r0, rSELF);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]689 callUnwindableHelper(cUnit, rLR); // artThrowException(thread, exception);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]690}
691
692static void genInstanceof(CompilationUnit* cUnit, MIR* mir, RegLocation rlDest,
693 RegLocation rlSrc)
694{
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]695 // May generate a call - use explicit registers
696 oatLockCallTemps(cUnit);
697 art::Class* classPtr = cUnit->method->GetDexCacheResolvedTypes()->
698 Get(mir->dalvikInsn.vC);
699 int classReg = r2; // Fixed usage
700 loadCurrMethodDirect(cUnit, r1); // r1 <= current Method*
701 loadWordDisp(cUnit, r1, Method::DexCacheResolvedTypesOffset().Int32Value(),
702 classReg);
703 loadWordDisp(cUnit, classReg, Array::DataOffset().Int32Value() +
704 (sizeof(String*) * mir->dalvikInsn.vC), classReg);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]705 if (classPtr == NULL) {
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]706 // Generate a runtime test
707 ArmLIR* hopBranch = genCmpImmBranch(cUnit, kArmCondNe, classReg, 0);
708 // Not resolved
709 // Call out to helper, which will return resolved type in r0
710 loadWordDisp(cUnit, rSELF,
711 OFFSETOF_MEMBER(Thread, pInitializeTypeFromCode), rLR);
712 loadConstant(cUnit, r0, mir->dalvikInsn.vC);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]713 callUnwindableHelper(cUnit, rLR); // resolveTypeFromCode(idx, method)
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]714 genRegCopy(cUnit, r2, r0); // Align usage with fast path
715 // Rejoin code paths
716 ArmLIR* hopTarget = newLIR0(cUnit, kArmPseudoTargetLabel);
717 hopTarget->defMask = ENCODE_ALL;
718 hopBranch->generic.target = (LIR*)hopTarget;
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]719 }
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]720 // At this point, r2 has class
721 loadValueDirectFixed(cUnit, rlSrc, r3); /* Ref */
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]722 /* When taken r0 has NULL which can be used for store directly */
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]723 ArmLIR* branch1 = genCmpImmBranch(cUnit, kArmCondEq, r3, 0);
724 /* load object->clazz */
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]725 assert(Object::ClassOffset().Int32Value() == 0);
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]726 loadWordDisp(cUnit, r3, Object::ClassOffset().Int32Value(), r1);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]727 /* r1 now contains object->clazz */
728 loadWordDisp(cUnit, rSELF,
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]729 OFFSETOF_MEMBER(Thread, pInstanceofNonTrivialFromCode), rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]730 loadConstant(cUnit, r0, 1); /* Assume true */
731 opRegReg(cUnit, kOpCmp, r1, r2);
732 ArmLIR* branch2 = opCondBranch(cUnit, kArmCondEq);
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]733 genRegCopy(cUnit, r0, r3);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]734 genRegCopy(cUnit, r1, r2);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]735 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]736 oatClobberCallRegs(cUnit);
737 /* branch target here */
738 ArmLIR* target = newLIR0(cUnit, kArmPseudoTargetLabel);
739 target->defMask = ENCODE_ALL;
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]740 RegLocation rlResult = oatGetReturn(cUnit);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]741 storeValue(cUnit, rlDest, rlResult);
742 branch1->generic.target = (LIR*)target;
743 branch2->generic.target = (LIR*)target;
744}
745
746static void genCheckCast(CompilationUnit* cUnit, MIR* mir, RegLocation rlSrc)
747{
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]748 // May generate a call - use explicit registers
749 oatLockCallTemps(cUnit);
750 art::Class* classPtr = cUnit->method->GetDexCacheResolvedTypes()->
751 Get(mir->dalvikInsn.vB);
752 int classReg = r2; // Fixed usage
753 loadCurrMethodDirect(cUnit, r1); // r1 <= current Method*
754 loadWordDisp(cUnit, r1, Method::DexCacheResolvedTypesOffset().Int32Value(),
755 classReg);
756 loadWordDisp(cUnit, classReg, Array::DataOffset().Int32Value() +
757 (sizeof(String*) * mir->dalvikInsn.vB), classReg);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]758 if (classPtr == NULL) {
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]759 // Generate a runtime test
760 ArmLIR* hopBranch = genCmpImmBranch(cUnit, kArmCondNe, classReg, 0);
761 // Not resolved
762 // Call out to helper, which will return resolved type in r0
763 loadWordDisp(cUnit, rSELF,
764 OFFSETOF_MEMBER(Thread, pInitializeTypeFromCode), rLR);
765 loadConstant(cUnit, r0, mir->dalvikInsn.vB);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]766 callUnwindableHelper(cUnit, rLR); // resolveTypeFromCode(idx, method)
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]767 genRegCopy(cUnit, r2, r0); // Align usage with fast path
768 // Rejoin code paths
769 ArmLIR* hopTarget = newLIR0(cUnit, kArmPseudoTargetLabel);
770 hopTarget->defMask = ENCODE_ALL;
771 hopBranch->generic.target = (LIR*)hopTarget;
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]772 }
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]773 // At this point, r2 has class
774 loadValueDirectFixed(cUnit, rlSrc, r0); /* Ref */
775 /* Null is OK - continue */
776 ArmLIR* branch1 = genCmpImmBranch(cUnit, kArmCondEq, r0, 0);
777 /* load object->clazz */
778 assert(Object::ClassOffset().Int32Value() == 0);
779 loadWordDisp(cUnit, r0, Object::ClassOffset().Int32Value(), r1);
780 /* r1 now contains object->clazz */
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]781 loadWordDisp(cUnit, rSELF,
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]782 OFFSETOF_MEMBER(Thread, pCheckCastFromCode), rLR);
783 opRegReg(cUnit, kOpCmp, r1, r2);
784 ArmLIR* branch2 = opCondBranch(cUnit, kArmCondEq); /* If equal, trivial yes */
785 genRegCopy(cUnit, r0, r1);
786 genRegCopy(cUnit, r1, r2);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]787 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]788 oatClobberCallRegs(cUnit);
buzbee2a475e72011-09-07 17:19:17 -0700[diff] [blame]789 /* branch target here */
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]790 ArmLIR* target = newLIR0(cUnit, kArmPseudoTargetLabel);
791 target->defMask = ENCODE_ALL;
792 branch1->generic.target = (LIR*)target;
793 branch2->generic.target = (LIR*)target;
794}
795
796static void genNegFloat(CompilationUnit* cUnit, RegLocation rlDest,
797 RegLocation rlSrc)
798{
799 RegLocation rlResult;
800 rlSrc = loadValue(cUnit, rlSrc, kFPReg);
801 rlResult = oatEvalLoc(cUnit, rlDest, kFPReg, true);
802 newLIR2(cUnit, kThumb2Vnegs, rlResult.lowReg, rlSrc.lowReg);
803 storeValue(cUnit, rlDest, rlResult);
804}
805
806static void genNegDouble(CompilationUnit* cUnit, RegLocation rlDest,
807 RegLocation rlSrc)
808{
809 RegLocation rlResult;
810 rlSrc = loadValueWide(cUnit, rlSrc, kFPReg);
811 rlResult = oatEvalLoc(cUnit, rlDest, kFPReg, true);
812 newLIR2(cUnit, kThumb2Vnegd, S2D(rlResult.lowReg, rlResult.highReg),
813 S2D(rlSrc.lowReg, rlSrc.highReg));
814 storeValueWide(cUnit, rlDest, rlResult);
815}
816
buzbee439c4fa2011-08-27 15:59:07 -0700[diff] [blame]817static void freeRegLocTemps(CompilationUnit* cUnit, RegLocation rlKeep,
818 RegLocation rlFree)
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]819{
buzbee439c4fa2011-08-27 15:59:07 -0700[diff] [blame]820 if ((rlFree.lowReg != rlKeep.lowReg) && (rlFree.lowReg != rlKeep.highReg))
821 oatFreeTemp(cUnit, rlFree.lowReg);
822 if ((rlFree.highReg != rlKeep.lowReg) && (rlFree.highReg != rlKeep.highReg))
823 oatFreeTemp(cUnit, rlFree.lowReg);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]824}
825
826static void genLong3Addr(CompilationUnit* cUnit, MIR* mir, OpKind firstOp,
827 OpKind secondOp, RegLocation rlDest,
828 RegLocation rlSrc1, RegLocation rlSrc2)
829{
buzbee9e0f9b02011-08-24 15:32:46 -0700[diff] [blame]830 /*
831 * NOTE: This is the one place in the code in which we might have
832 * as many as six live temporary registers. There are 5 in the normal
833 * set for Arm. Until we have spill capabilities, temporarily add
834 * lr to the temp set. It is safe to do this locally, but note that
835 * lr is used explicitly elsewhere in the code generator and cannot
836 * normally be used as a general temp register.
837 */
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]838 RegLocation rlResult;
buzbee9e0f9b02011-08-24 15:32:46 -0700[diff] [blame]839 oatMarkTemp(cUnit, rLR); // Add lr to the temp pool
840 oatFreeTemp(cUnit, rLR); // and make it available
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]841 rlSrc1 = loadValueWide(cUnit, rlSrc1, kCoreReg);
842 rlSrc2 = loadValueWide(cUnit, rlSrc2, kCoreReg);
843 rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
844 opRegRegReg(cUnit, firstOp, rlResult.lowReg, rlSrc1.lowReg, rlSrc2.lowReg);
845 opRegRegReg(cUnit, secondOp, rlResult.highReg, rlSrc1.highReg,
846 rlSrc2.highReg);
buzbee439c4fa2011-08-27 15:59:07 -0700[diff] [blame]847 /*
848 * NOTE: If rlDest refers to a frame variable in a large frame, the
849 * following storeValueWide might need to allocate a temp register.
850 * To further work around the lack of a spill capability, explicitly
851 * free any temps from rlSrc1 & rlSrc2 that aren't still live in rlResult.
852 * Remove when spill is functional.
853 */
854 freeRegLocTemps(cUnit, rlResult, rlSrc1);
855 freeRegLocTemps(cUnit, rlResult, rlSrc2);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]856 storeValueWide(cUnit, rlDest, rlResult);
buzbee9e0f9b02011-08-24 15:32:46 -0700[diff] [blame]857 oatClobber(cUnit, rLR);
858 oatUnmarkTemp(cUnit, rLR); // Remove lr from the temp pool
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]859}
860
861void oatInitializeRegAlloc(CompilationUnit* cUnit)
862{
863 int numRegs = sizeof(coreRegs)/sizeof(*coreRegs);
864 int numReserved = sizeof(reservedRegs)/sizeof(*reservedRegs);
865 int numTemps = sizeof(coreTemps)/sizeof(*coreTemps);
866 int numFPRegs = sizeof(fpRegs)/sizeof(*fpRegs);
867 int numFPTemps = sizeof(fpTemps)/sizeof(*fpTemps);
868 RegisterPool *pool = (RegisterPool *)oatNew(sizeof(*pool), true);
869 cUnit->regPool = pool;
870 pool->numCoreRegs = numRegs;
871 pool->coreRegs = (RegisterInfo *)
872 oatNew(numRegs * sizeof(*cUnit->regPool->coreRegs), true);
873 pool->numFPRegs = numFPRegs;
874 pool->FPRegs = (RegisterInfo *)
875 oatNew(numFPRegs * sizeof(*cUnit->regPool->FPRegs), true);
876 oatInitPool(pool->coreRegs, coreRegs, pool->numCoreRegs);
877 oatInitPool(pool->FPRegs, fpRegs, pool->numFPRegs);
878 // Keep special registers from being allocated
879 for (int i = 0; i < numReserved; i++) {
880 oatMarkInUse(cUnit, reservedRegs[i]);
881 }
882 // Mark temp regs - all others not in use can be used for promotion
883 for (int i = 0; i < numTemps; i++) {
884 oatMarkTemp(cUnit, coreTemps[i]);
885 }
886 for (int i = 0; i < numFPTemps; i++) {
887 oatMarkTemp(cUnit, fpTemps[i]);
888 }
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]889}
890
891/*
892 * Handle simple case (thin lock) inline. If it's complicated, bail
893 * out to the heavyweight lock/unlock routines. We'll use dedicated
894 * registers here in order to be in the right position in case we
895 * to bail to dvm[Lock/Unlock]Object(self, object)
896 *
897 * r0 -> self pointer [arg0 for dvm[Lock/Unlock]Object
898 * r1 -> object [arg1 for dvm[Lock/Unlock]Object
899 * r2 -> intial contents of object->lock, later result of strex
900 * r3 -> self->threadId
901 * r12 -> allow to be used by utilities as general temp
902 *
903 * The result of the strex is 0 if we acquire the lock.
904 *
905 * See comments in Sync.c for the layout of the lock word.
906 * Of particular interest to this code is the test for the
907 * simple case - which we handle inline. For monitor enter, the
908 * simple case is thin lock, held by no-one. For monitor exit,
909 * the simple case is thin lock, held by the unlocking thread with
910 * a recurse count of 0.
911 *
912 * A minor complication is that there is a field in the lock word
913 * unrelated to locking: the hash state. This field must be ignored, but
914 * preserved.
915 *
916 */
917static void genMonitorEnter(CompilationUnit* cUnit, MIR* mir,
918 RegLocation rlSrc)
919{
920 ArmLIR* target;
921 ArmLIR* hopTarget;
922 ArmLIR* branch;
923 ArmLIR* hopBranch;
924
925 oatFlushAllRegs(cUnit);
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]926 assert(art::Monitor::kLwShapeThin == 0);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]927 loadValueDirectFixed(cUnit, rlSrc, r1); // Get obj
buzbee2e748f32011-08-29 21:02:19 -0700[diff] [blame]928 oatLockCallTemps(cUnit); // Prepare for explicit register usage
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]929 genNullCheck(cUnit, rlSrc.sRegLow, r1, mir);
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]930 loadWordDisp(cUnit, rSELF, Thread::IdOffset().Int32Value(), r3);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]931 newLIR3(cUnit, kThumb2Ldrex, r2, r1,
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]932 Object::MonitorOffset().Int32Value() >> 2); // Get object->lock
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]933 // Align owner
934 opRegImm(cUnit, kOpLsl, r3, art::Monitor::kLwLockOwnerShift);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]935 // Is lock unheld on lock or held by us (==threadId) on unlock?
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]936 newLIR4(cUnit, kThumb2Bfi, r3, r2, 0, art::Monitor::kLwLockOwnerShift
937 - 1);
938 newLIR3(cUnit, kThumb2Bfc, r2, art::Monitor::kLwHashStateShift,
939 art::Monitor::kLwLockOwnerShift - 1);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]940 hopBranch = newLIR2(cUnit, kThumb2Cbnz, r2, 0);
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]941 newLIR4(cUnit, kThumb2Strex, r2, r3, r1,
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]942 Object::MonitorOffset().Int32Value() >> 2);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]943 oatGenMemBarrier(cUnit, kSY);
944 branch = newLIR2(cUnit, kThumb2Cbz, r2, 0);
945
946 hopTarget = newLIR0(cUnit, kArmPseudoTargetLabel);
947 hopTarget->defMask = ENCODE_ALL;
948 hopBranch->generic.target = (LIR*)hopTarget;
949
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]950 // Go expensive route - artLockObjectFromCode(self, obj);
951 loadWordDisp(cUnit, rSELF, OFFSETOF_MEMBER(Thread, pLockObjectFromCode),
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]952 rLR);
953 genRegCopy(cUnit, r0, rSELF);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]954 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]955
956 // Resume here
957 target = newLIR0(cUnit, kArmPseudoTargetLabel);
958 target->defMask = ENCODE_ALL;
959 branch->generic.target = (LIR*)target;
960}
961
962/*
963 * For monitor unlock, we don't have to use ldrex/strex. Once
964 * we've determined that the lock is thin and that we own it with
965 * a zero recursion count, it's safe to punch it back to the
966 * initial, unlock thin state with a store word.
967 */
968static void genMonitorExit(CompilationUnit* cUnit, MIR* mir,
969 RegLocation rlSrc)
970{
971 ArmLIR* target;
972 ArmLIR* branch;
973 ArmLIR* hopTarget;
974 ArmLIR* hopBranch;
975
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]976 assert(art::Monitor::kLwShapeThin == 0);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]977 oatFlushAllRegs(cUnit);
978 loadValueDirectFixed(cUnit, rlSrc, r1); // Get obj
buzbee2e748f32011-08-29 21:02:19 -0700[diff] [blame]979 oatLockCallTemps(cUnit); // Prepare for explicit register usage
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]980 genNullCheck(cUnit, rlSrc.sRegLow, r1, mir);
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]981 loadWordDisp(cUnit, r1, Object::MonitorOffset().Int32Value(), r2); // Get lock
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]982 loadWordDisp(cUnit, rSELF, Thread::IdOffset().Int32Value(), r3);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]983 // Is lock unheld on lock or held by us (==threadId) on unlock?
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]984 opRegRegImm(cUnit, kOpAnd, r12, r2, (art::Monitor::kLwHashStateMask <<
985 art::Monitor::kLwHashStateShift));
986 // Align owner
987 opRegImm(cUnit, kOpLsl, r3, art::Monitor::kLwLockOwnerShift);
988 newLIR3(cUnit, kThumb2Bfc, r2, art::Monitor::kLwHashStateShift,
989 art::Monitor::kLwLockOwnerShift - 1);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]990 opRegReg(cUnit, kOpSub, r2, r3);
991 hopBranch = opCondBranch(cUnit, kArmCondNe);
992 oatGenMemBarrier(cUnit, kSY);
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]993 storeWordDisp(cUnit, r1, Object::MonitorOffset().Int32Value(), r12);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]994 branch = opNone(cUnit, kOpUncondBr);
995
996 hopTarget = newLIR0(cUnit, kArmPseudoTargetLabel);
997 hopTarget->defMask = ENCODE_ALL;
998 hopBranch->generic.target = (LIR*)hopTarget;
999
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]1000 // Go expensive route - UnlockObjectFromCode(self, obj);
1001 loadWordDisp(cUnit, rSELF, OFFSETOF_MEMBER(Thread, pUnlockObjectFromCode),
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1002 rLR);
1003 genRegCopy(cUnit, r0, rSELF);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1004 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1005
1006 // Resume here
1007 target = newLIR0(cUnit, kArmPseudoTargetLabel);
1008 target->defMask = ENCODE_ALL;
1009 branch->generic.target = (LIR*)target;
1010}
1011
1012/*
1013 * 64-bit 3way compare function.
1014 * mov rX, #-1
1015 * cmp op1hi, op2hi
1016 * blt done
1017 * bgt flip
1018 * sub rX, op1lo, op2lo (treat as unsigned)
1019 * beq done
1020 * ite hi
1021 * mov(hi) rX, #-1
1022 * mov(!hi) rX, #1
1023 * flip:
1024 * neg rX
1025 * done:
1026 */
1027static void genCmpLong(CompilationUnit* cUnit, MIR* mir,
1028 RegLocation rlDest, RegLocation rlSrc1,
1029 RegLocation rlSrc2)
1030{
1031 RegLocation rlTemp = LOC_C_RETURN; // Just using as template, will change
1032 ArmLIR* target1;
1033 ArmLIR* target2;
1034 rlSrc1 = loadValueWide(cUnit, rlSrc1, kCoreReg);
1035 rlSrc2 = loadValueWide(cUnit, rlSrc2, kCoreReg);
1036 rlTemp.lowReg = oatAllocTemp(cUnit);
1037 loadConstant(cUnit, rlTemp.lowReg, -1);
1038 opRegReg(cUnit, kOpCmp, rlSrc1.highReg, rlSrc2.highReg);
1039 ArmLIR* branch1 = opCondBranch(cUnit, kArmCondLt);
1040 ArmLIR* branch2 = opCondBranch(cUnit, kArmCondGt);
1041 opRegRegReg(cUnit, kOpSub, rlTemp.lowReg, rlSrc1.lowReg, rlSrc2.lowReg);
1042 ArmLIR* branch3 = opCondBranch(cUnit, kArmCondEq);
1043
1044 genIT(cUnit, kArmCondHi, "E");
1045 newLIR2(cUnit, kThumb2MovImmShift, rlTemp.lowReg, modifiedImmediate(-1));
1046 loadConstant(cUnit, rlTemp.lowReg, 1);
1047 genBarrier(cUnit);
1048
1049 target2 = newLIR0(cUnit, kArmPseudoTargetLabel);
1050 target2->defMask = -1;
1051 opRegReg(cUnit, kOpNeg, rlTemp.lowReg, rlTemp.lowReg);
1052
1053 target1 = newLIR0(cUnit, kArmPseudoTargetLabel);
1054 target1->defMask = -1;
1055
1056 storeValue(cUnit, rlDest, rlTemp);
1057
1058 branch1->generic.target = (LIR*)target1;
1059 branch2->generic.target = (LIR*)target2;
1060 branch3->generic.target = branch1->generic.target;
1061}
1062
1063static void genMultiplyByTwoBitMultiplier(CompilationUnit* cUnit,
1064 RegLocation rlSrc, RegLocation rlResult, int lit,
1065 int firstBit, int secondBit)
1066{
1067 opRegRegRegShift(cUnit, kOpAdd, rlResult.lowReg, rlSrc.lowReg, rlSrc.lowReg,
1068 encodeShift(kArmLsl, secondBit - firstBit));
1069 if (firstBit != 0) {
1070 opRegRegImm(cUnit, kOpLsl, rlResult.lowReg, rlResult.lowReg, firstBit);
1071 }
1072}
1073
1074static bool genConversionCall(CompilationUnit* cUnit, MIR* mir, int funcOffset,
1075 int srcSize, int tgtSize)
1076{
1077 /*
1078 * Don't optimize the register usage since it calls out to support
1079 * functions
1080 */
1081 RegLocation rlSrc;
1082 RegLocation rlDest;
1083 oatFlushAllRegs(cUnit); /* Send everything to home location */
1084 loadWordDisp(cUnit, rSELF, funcOffset, rLR);
1085 if (srcSize == 1) {
1086 rlSrc = oatGetSrc(cUnit, mir, 0);
1087 loadValueDirectFixed(cUnit, rlSrc, r0);
1088 } else {
1089 rlSrc = oatGetSrcWide(cUnit, mir, 0, 1);
1090 loadValueDirectWideFixed(cUnit, rlSrc, r0, r1);
1091 }
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1092 callNoUnwindHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1093 oatClobberCallRegs(cUnit);
1094 if (tgtSize == 1) {
1095 RegLocation rlResult;
1096 rlDest = oatGetDest(cUnit, mir, 0);
1097 rlResult = oatGetReturn(cUnit);
1098 storeValue(cUnit, rlDest, rlResult);
1099 } else {
1100 RegLocation rlResult;
1101 rlDest = oatGetDestWide(cUnit, mir, 0, 1);
1102 rlResult = oatGetReturnWide(cUnit);
1103 storeValueWide(cUnit, rlDest, rlResult);
1104 }
1105 return false;
1106}
1107
1108static bool genArithOpFloatPortable(CompilationUnit* cUnit, MIR* mir,
1109 RegLocation rlDest, RegLocation rlSrc1,
1110 RegLocation rlSrc2)
1111{
1112 RegLocation rlResult;
1113 int funcOffset;
1114
1115 switch (mir->dalvikInsn.opcode) {
1116 case OP_ADD_FLOAT_2ADDR:
1117 case OP_ADD_FLOAT:
1118 funcOffset = OFFSETOF_MEMBER(Thread, pFadd);
1119 break;
1120 case OP_SUB_FLOAT_2ADDR:
1121 case OP_SUB_FLOAT:
1122 funcOffset = OFFSETOF_MEMBER(Thread, pFsub);
1123 break;
1124 case OP_DIV_FLOAT_2ADDR:
1125 case OP_DIV_FLOAT:
1126 funcOffset = OFFSETOF_MEMBER(Thread, pFdiv);
1127 break;
1128 case OP_MUL_FLOAT_2ADDR:
1129 case OP_MUL_FLOAT:
1130 funcOffset = OFFSETOF_MEMBER(Thread, pFmul);
1131 break;
1132 case OP_REM_FLOAT_2ADDR:
1133 case OP_REM_FLOAT:
1134 funcOffset = OFFSETOF_MEMBER(Thread, pFmodf);
1135 break;
1136 case OP_NEG_FLOAT: {
1137 genNegFloat(cUnit, rlDest, rlSrc1);
1138 return false;
1139 }
1140 default:
1141 return true;
1142 }
1143 oatFlushAllRegs(cUnit); /* Send everything to home location */
1144 loadWordDisp(cUnit, rSELF, funcOffset, rLR);
1145 loadValueDirectFixed(cUnit, rlSrc1, r0);
1146 loadValueDirectFixed(cUnit, rlSrc2, r1);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1147 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1148 oatClobberCallRegs(cUnit);
1149 rlResult = oatGetReturn(cUnit);
1150 storeValue(cUnit, rlDest, rlResult);
1151 return false;
1152}
1153
1154static bool genArithOpDoublePortable(CompilationUnit* cUnit, MIR* mir,
1155 RegLocation rlDest, RegLocation rlSrc1,
1156 RegLocation rlSrc2)
1157{
1158 RegLocation rlResult;
1159 int funcOffset;
1160
1161 switch (mir->dalvikInsn.opcode) {
1162 case OP_ADD_DOUBLE_2ADDR:
1163 case OP_ADD_DOUBLE:
1164 funcOffset = OFFSETOF_MEMBER(Thread, pDadd);
1165 break;
1166 case OP_SUB_DOUBLE_2ADDR:
1167 case OP_SUB_DOUBLE:
1168 funcOffset = OFFSETOF_MEMBER(Thread, pDsub);
1169 break;
1170 case OP_DIV_DOUBLE_2ADDR:
1171 case OP_DIV_DOUBLE:
1172 funcOffset = OFFSETOF_MEMBER(Thread, pDdiv);
1173 break;
1174 case OP_MUL_DOUBLE_2ADDR:
1175 case OP_MUL_DOUBLE:
1176 funcOffset = OFFSETOF_MEMBER(Thread, pDmul);
1177 break;
1178 case OP_REM_DOUBLE_2ADDR:
1179 case OP_REM_DOUBLE:
1180 funcOffset = OFFSETOF_MEMBER(Thread, pFmod);
1181 break;
1182 case OP_NEG_DOUBLE: {
1183 genNegDouble(cUnit, rlDest, rlSrc1);
1184 return false;
1185 }
1186 default:
1187 return true;
1188 }
1189 oatFlushAllRegs(cUnit); /* Send everything to home location */
1190 loadWordDisp(cUnit, rSELF, funcOffset, rLR);
1191 loadValueDirectWideFixed(cUnit, rlSrc1, r0, r1);
1192 loadValueDirectWideFixed(cUnit, rlSrc2, r2, r3);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1193 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1194 oatClobberCallRegs(cUnit);
1195 rlResult = oatGetReturnWide(cUnit);
1196 storeValueWide(cUnit, rlDest, rlResult);
1197 return false;
1198}
1199
1200static bool genConversionPortable(CompilationUnit* cUnit, MIR* mir)
1201{
1202 Opcode opcode = mir->dalvikInsn.opcode;
1203
1204 switch (opcode) {
1205 case OP_INT_TO_FLOAT:
1206 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread, pI2f),
1207 1, 1);
1208 case OP_FLOAT_TO_INT:
1209 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread, pF2iz),
1210 1, 1);
1211 case OP_DOUBLE_TO_FLOAT:
1212 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread, pD2f),
1213 2, 1);
1214 case OP_FLOAT_TO_DOUBLE:
1215 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread, pF2d),
1216 1, 2);
1217 case OP_INT_TO_DOUBLE:
1218 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread, pI2d),
1219 1, 2);
1220 case OP_DOUBLE_TO_INT:
1221 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread, pD2iz),
1222 2, 1);
1223 case OP_FLOAT_TO_LONG:
1224 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread,
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]1225 pF2l), 1, 2);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1226 case OP_LONG_TO_FLOAT:
1227 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread, pL2f),
1228 2, 1);
1229 case OP_DOUBLE_TO_LONG:
1230 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread,
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]1231 pD2l), 2, 2);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1232 case OP_LONG_TO_DOUBLE:
1233 return genConversionCall(cUnit, mir, OFFSETOF_MEMBER(Thread, pL2d),
1234 2, 2);
1235 default:
1236 return true;
1237 }
1238 return false;
1239}
1240
1241/* Generate conditional branch instructions */
1242static ArmLIR* genConditionalBranch(CompilationUnit* cUnit,
1243 ArmConditionCode cond,
1244 ArmLIR* target)
1245{
1246 ArmLIR* branch = opCondBranch(cUnit, cond);
1247 branch->generic.target = (LIR*) target;
1248 return branch;
1249}
1250
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1251/*
1252 * Generate array store
1253 *
1254 */
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]1255static void genArrayObjPut(CompilationUnit* cUnit, MIR* mir,
1256 RegLocation rlArray, RegLocation rlIndex,
1257 RegLocation rlSrc, int scale)
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1258{
1259 RegisterClass regClass = oatRegClassBySize(kWord);
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]1260 int lenOffset = Array::LengthOffset().Int32Value();
1261 int dataOffset = Array::DataOffset().Int32Value();
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1262
1263 /* Make sure it's a legal object Put. Use direct regs at first */
1264 loadValueDirectFixed(cUnit, rlArray, r1);
1265 loadValueDirectFixed(cUnit, rlSrc, r0);
1266
1267 /* null array object? */
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]1268 genNullCheck(cUnit, rlArray.sRegLow, r1, mir);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1269 loadWordDisp(cUnit, rSELF,
buzbee1b4c8592011-08-31 10:43:51 -0700[diff] [blame]1270 OFFSETOF_MEMBER(Thread, pCanPutArrayElementFromCode), rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1271 /* Get the array's clazz */
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]1272 loadWordDisp(cUnit, r1, Object::ClassOffset().Int32Value(), r1);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1273 /* Get the object's clazz */
Ian Rogers0cfe1fb2011-08-26 03:29:44 -0700[diff] [blame]1274 loadWordDisp(cUnit, r0, Object::ClassOffset().Int32Value(), r0);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1275 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1276 oatClobberCallRegs(cUnit);
1277
1278 // Now, redo loadValues in case they didn't survive the call
1279
1280 int regPtr;
1281 rlArray = loadValue(cUnit, rlArray, kCoreReg);
1282 rlIndex = loadValue(cUnit, rlIndex, kCoreReg);
1283
1284 if (oatIsTemp(cUnit, rlArray.lowReg)) {
1285 oatClobber(cUnit, rlArray.lowReg);
1286 regPtr = rlArray.lowReg;
1287 } else {
1288 regPtr = oatAllocTemp(cUnit);
1289 genRegCopy(cUnit, regPtr, rlArray.lowReg);
1290 }
1291
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]1292 if (!(mir->optimizationFlags & MIR_IGNORE_RANGE_CHECK)) {
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1293 int regLen = oatAllocTemp(cUnit);
1294 //NOTE: max live temps(4) here.
1295 /* Get len */
1296 loadWordDisp(cUnit, rlArray.lowReg, lenOffset, regLen);
1297 /* regPtr -> array data */
1298 opRegImm(cUnit, kOpAdd, regPtr, dataOffset);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1299 genRegRegCheck(cUnit, kArmCondCs, rlIndex.lowReg, regLen, mir,
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]1300 kArmThrowArrayBounds);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1301 oatFreeTemp(cUnit, regLen);
1302 } else {
1303 /* regPtr -> array data */
1304 opRegImm(cUnit, kOpAdd, regPtr, dataOffset);
1305 }
1306 /* at this point, regPtr points to array, 2 live temps */
1307 rlSrc = loadValue(cUnit, rlSrc, regClass);
1308 storeBaseIndexed(cUnit, regPtr, rlIndex.lowReg, rlSrc.lowReg,
1309 scale, kWord);
1310}
1311
1312/*
1313 * Generate array load
1314 */
1315static void genArrayGet(CompilationUnit* cUnit, MIR* mir, OpSize size,
1316 RegLocation rlArray, RegLocation rlIndex,
1317 RegLocation rlDest, int scale)
1318{
1319 RegisterClass regClass = oatRegClassBySize(size);
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]1320 int lenOffset = Array::LengthOffset().Int32Value();
1321 int dataOffset = Array::DataOffset().Int32Value();
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1322 RegLocation rlResult;
1323 rlArray = loadValue(cUnit, rlArray, kCoreReg);
1324 rlIndex = loadValue(cUnit, rlIndex, kCoreReg);
1325 int regPtr;
1326
1327 /* null object? */
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]1328 genNullCheck(cUnit, rlArray.sRegLow, rlArray.lowReg, mir);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1329
1330 regPtr = oatAllocTemp(cUnit);
1331
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]1332 if (!(mir->optimizationFlags & MIR_IGNORE_RANGE_CHECK)) {
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1333 int regLen = oatAllocTemp(cUnit);
1334 /* Get len */
1335 loadWordDisp(cUnit, rlArray.lowReg, lenOffset, regLen);
1336 /* regPtr -> array data */
1337 opRegRegImm(cUnit, kOpAdd, regPtr, rlArray.lowReg, dataOffset);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1338 genRegRegCheck(cUnit, kArmCondCs, rlIndex.lowReg, regLen, mir,
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]1339 kArmThrowArrayBounds);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1340 oatFreeTemp(cUnit, regLen);
1341 } else {
1342 /* regPtr -> array data */
1343 opRegRegImm(cUnit, kOpAdd, regPtr, rlArray.lowReg, dataOffset);
1344 }
buzbeee9a72f62011-09-04 17:59:07 -0700[diff] [blame]1345 oatFreeTemp(cUnit, rlArray.lowReg);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1346 if ((size == kLong) || (size == kDouble)) {
1347 if (scale) {
1348 int rNewIndex = oatAllocTemp(cUnit);
1349 opRegRegImm(cUnit, kOpLsl, rNewIndex, rlIndex.lowReg, scale);
1350 opRegReg(cUnit, kOpAdd, regPtr, rNewIndex);
1351 oatFreeTemp(cUnit, rNewIndex);
1352 } else {
1353 opRegReg(cUnit, kOpAdd, regPtr, rlIndex.lowReg);
1354 }
buzbeee9a72f62011-09-04 17:59:07 -0700[diff] [blame]1355 oatFreeTemp(cUnit, rlIndex.lowReg);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1356 rlResult = oatEvalLoc(cUnit, rlDest, regClass, true);
1357
1358 loadPair(cUnit, regPtr, rlResult.lowReg, rlResult.highReg);
1359
1360 oatFreeTemp(cUnit, regPtr);
1361 storeValueWide(cUnit, rlDest, rlResult);
1362 } else {
1363 rlResult = oatEvalLoc(cUnit, rlDest, regClass, true);
1364
1365 loadBaseIndexed(cUnit, regPtr, rlIndex.lowReg, rlResult.lowReg,
1366 scale, size);
1367
1368 oatFreeTemp(cUnit, regPtr);
1369 storeValue(cUnit, rlDest, rlResult);
1370 }
1371}
1372
1373/*
1374 * Generate array store
1375 *
1376 */
1377static void genArrayPut(CompilationUnit* cUnit, MIR* mir, OpSize size,
1378 RegLocation rlArray, RegLocation rlIndex,
1379 RegLocation rlSrc, int scale)
1380{
1381 RegisterClass regClass = oatRegClassBySize(size);
buzbeec143c552011-08-20 17:38:58 -0700[diff] [blame]1382 int lenOffset = Array::LengthOffset().Int32Value();
1383 int dataOffset = Array::DataOffset().Int32Value();
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1384
1385 int regPtr;
1386 rlArray = loadValue(cUnit, rlArray, kCoreReg);
1387 rlIndex = loadValue(cUnit, rlIndex, kCoreReg);
1388
1389 if (oatIsTemp(cUnit, rlArray.lowReg)) {
1390 oatClobber(cUnit, rlArray.lowReg);
1391 regPtr = rlArray.lowReg;
1392 } else {
1393 regPtr = oatAllocTemp(cUnit);
1394 genRegCopy(cUnit, regPtr, rlArray.lowReg);
1395 }
1396
1397 /* null object? */
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]1398 genNullCheck(cUnit, rlArray.sRegLow, rlArray.lowReg, mir);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1399
buzbee43a36422011-09-14 14:00:13 -0700[diff] [blame^]1400 if (!(mir->optimizationFlags & MIR_IGNORE_RANGE_CHECK)) {
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1401 int regLen = oatAllocTemp(cUnit);
1402 //NOTE: max live temps(4) here.
1403 /* Get len */
1404 loadWordDisp(cUnit, rlArray.lowReg, lenOffset, regLen);
1405 /* regPtr -> array data */
1406 opRegImm(cUnit, kOpAdd, regPtr, dataOffset);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1407 genRegRegCheck(cUnit, kArmCondCs, rlIndex.lowReg, regLen, mir,
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]1408 kArmThrowArrayBounds);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1409 oatFreeTemp(cUnit, regLen);
1410 } else {
1411 /* regPtr -> array data */
1412 opRegImm(cUnit, kOpAdd, regPtr, dataOffset);
1413 }
1414 /* at this point, regPtr points to array, 2 live temps */
1415 if ((size == kLong) || (size == kDouble)) {
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]1416 //TUNING: specific wide routine that can handle fp regs
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1417 if (scale) {
1418 int rNewIndex = oatAllocTemp(cUnit);
1419 opRegRegImm(cUnit, kOpLsl, rNewIndex, rlIndex.lowReg, scale);
1420 opRegReg(cUnit, kOpAdd, regPtr, rNewIndex);
1421 oatFreeTemp(cUnit, rNewIndex);
1422 } else {
1423 opRegReg(cUnit, kOpAdd, regPtr, rlIndex.lowReg);
1424 }
1425 rlSrc = loadValueWide(cUnit, rlSrc, regClass);
1426
1427 storePair(cUnit, regPtr, rlSrc.lowReg, rlSrc.highReg);
1428
1429 oatFreeTemp(cUnit, regPtr);
1430 } else {
1431 rlSrc = loadValue(cUnit, rlSrc, regClass);
1432
1433 storeBaseIndexed(cUnit, regPtr, rlIndex.lowReg, rlSrc.lowReg,
1434 scale, size);
1435 }
1436}
1437
1438static bool genShiftOpLong(CompilationUnit* cUnit, MIR* mir,
1439 RegLocation rlDest, RegLocation rlSrc1,
1440 RegLocation rlShift)
1441{
buzbee54330722011-08-23 16:46:55 -0700[diff] [blame]1442 int funcOffset;
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1443
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1444 switch( mir->dalvikInsn.opcode) {
1445 case OP_SHL_LONG:
1446 case OP_SHL_LONG_2ADDR:
buzbee54330722011-08-23 16:46:55 -0700[diff] [blame]1447 funcOffset = OFFSETOF_MEMBER(Thread, pShlLong);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1448 break;
1449 case OP_SHR_LONG:
1450 case OP_SHR_LONG_2ADDR:
buzbee54330722011-08-23 16:46:55 -0700[diff] [blame]1451 funcOffset = OFFSETOF_MEMBER(Thread, pShrLong);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1452 break;
1453 case OP_USHR_LONG:
1454 case OP_USHR_LONG_2ADDR:
buzbee54330722011-08-23 16:46:55 -0700[diff] [blame]1455 funcOffset = OFFSETOF_MEMBER(Thread, pUshrLong);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1456 break;
1457 default:
buzbee54330722011-08-23 16:46:55 -0700[diff] [blame]1458 LOG(FATAL) << "Unexpected case";
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1459 return true;
1460 }
buzbee54330722011-08-23 16:46:55 -0700[diff] [blame]1461 oatFlushAllRegs(cUnit); /* Send everything to home location */
1462 loadWordDisp(cUnit, rSELF, funcOffset, rLR);
1463 loadValueDirectWideFixed(cUnit, rlSrc1, r0, r1);
1464 loadValueDirect(cUnit, rlShift, r2);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1465 callNoUnwindHelper(cUnit, rLR);
buzbee54330722011-08-23 16:46:55 -0700[diff] [blame]1466 oatClobberCallRegs(cUnit);
1467 RegLocation rlResult = oatGetReturnWide(cUnit);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1468 storeValueWide(cUnit, rlDest, rlResult);
1469 return false;
1470}
1471
1472static bool genArithOpLong(CompilationUnit* cUnit, MIR* mir,
1473 RegLocation rlDest, RegLocation rlSrc1,
1474 RegLocation rlSrc2)
1475{
1476 RegLocation rlResult;
1477 OpKind firstOp = kOpBkpt;
1478 OpKind secondOp = kOpBkpt;
1479 bool callOut = false;
1480 int funcOffset;
1481 int retReg = r0;
1482
1483 switch (mir->dalvikInsn.opcode) {
1484 case OP_NOT_LONG:
1485 rlSrc2 = loadValueWide(cUnit, rlSrc2, kCoreReg);
1486 rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1487 opRegReg(cUnit, kOpMvn, rlResult.lowReg, rlSrc2.lowReg);
1488 opRegReg(cUnit, kOpMvn, rlResult.highReg, rlSrc2.highReg);
1489 storeValueWide(cUnit, rlDest, rlResult);
1490 return false;
1491 break;
1492 case OP_ADD_LONG:
1493 case OP_ADD_LONG_2ADDR:
1494 firstOp = kOpAdd;
1495 secondOp = kOpAdc;
1496 break;
1497 case OP_SUB_LONG:
1498 case OP_SUB_LONG_2ADDR:
1499 firstOp = kOpSub;
1500 secondOp = kOpSbc;
1501 break;
1502 case OP_MUL_LONG:
1503 case OP_MUL_LONG_2ADDR:
buzbee439c4fa2011-08-27 15:59:07 -0700[diff] [blame]1504 callOut = true;
1505 retReg = r0;
1506 funcOffset = OFFSETOF_MEMBER(Thread, pLmul);
1507 break;
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1508 case OP_DIV_LONG:
1509 case OP_DIV_LONG_2ADDR:
1510 callOut = true;
1511 retReg = r0;
1512 funcOffset = OFFSETOF_MEMBER(Thread, pLdivmod);
1513 break;
1514 /* NOTE - result is in r2/r3 instead of r0/r1 */
1515 case OP_REM_LONG:
1516 case OP_REM_LONG_2ADDR:
1517 callOut = true;
1518 funcOffset = OFFSETOF_MEMBER(Thread, pLdivmod);
1519 retReg = r2;
1520 break;
1521 case OP_AND_LONG_2ADDR:
1522 case OP_AND_LONG:
1523 firstOp = kOpAnd;
1524 secondOp = kOpAnd;
1525 break;
1526 case OP_OR_LONG:
1527 case OP_OR_LONG_2ADDR:
1528 firstOp = kOpOr;
1529 secondOp = kOpOr;
1530 break;
1531 case OP_XOR_LONG:
1532 case OP_XOR_LONG_2ADDR:
1533 firstOp = kOpXor;
1534 secondOp = kOpXor;
1535 break;
1536 case OP_NEG_LONG: {
1537 //TUNING: can improve this using Thumb2 code
1538 int tReg = oatAllocTemp(cUnit);
1539 rlSrc2 = loadValueWide(cUnit, rlSrc2, kCoreReg);
1540 rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1541 loadConstantNoClobber(cUnit, tReg, 0);
1542 opRegRegReg(cUnit, kOpSub, rlResult.lowReg,
1543 tReg, rlSrc2.lowReg);
1544 opRegReg(cUnit, kOpSbc, tReg, rlSrc2.highReg);
1545 genRegCopy(cUnit, rlResult.highReg, tReg);
1546 storeValueWide(cUnit, rlDest, rlResult);
1547 return false;
1548 }
1549 default:
1550 LOG(FATAL) << "Invalid long arith op";
1551 }
1552 if (!callOut) {
1553 genLong3Addr(cUnit, mir, firstOp, secondOp, rlDest, rlSrc1, rlSrc2);
1554 } else {
1555 // Adjust return regs in to handle case of rem returning r2/r3
1556 oatFlushAllRegs(cUnit); /* Send everything to home location */
1557 loadWordDisp(cUnit, rSELF, funcOffset, rLR);
1558 loadValueDirectWideFixed(cUnit, rlSrc1, r0, r1);
1559 loadValueDirectWideFixed(cUnit, rlSrc2, r2, r3);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1560 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1561 oatClobberCallRegs(cUnit);
1562 if (retReg == r0)
1563 rlResult = oatGetReturnWide(cUnit);
1564 else
1565 rlResult = oatGetReturnWideAlt(cUnit);
1566 storeValueWide(cUnit, rlDest, rlResult);
1567 }
1568 return false;
1569}
1570
1571static bool genArithOpInt(CompilationUnit* cUnit, MIR* mir,
1572 RegLocation rlDest, RegLocation rlSrc1,
1573 RegLocation rlSrc2)
1574{
1575 OpKind op = kOpBkpt;
1576 bool callOut = false;
1577 bool checkZero = false;
1578 bool unary = false;
1579 int retReg = r0;
1580 int funcOffset;
1581 RegLocation rlResult;
1582 bool shiftOp = false;
1583
1584 switch (mir->dalvikInsn.opcode) {
1585 case OP_NEG_INT:
1586 op = kOpNeg;
1587 unary = true;
1588 break;
1589 case OP_NOT_INT:
1590 op = kOpMvn;
1591 unary = true;
1592 break;
1593 case OP_ADD_INT:
1594 case OP_ADD_INT_2ADDR:
1595 op = kOpAdd;
1596 break;
1597 case OP_SUB_INT:
1598 case OP_SUB_INT_2ADDR:
1599 op = kOpSub;
1600 break;
1601 case OP_MUL_INT:
1602 case OP_MUL_INT_2ADDR:
1603 op = kOpMul;
1604 break;
1605 case OP_DIV_INT:
1606 case OP_DIV_INT_2ADDR:
1607 callOut = true;
1608 checkZero = true;
1609 funcOffset = OFFSETOF_MEMBER(Thread, pIdiv);
1610 retReg = r0;
1611 break;
1612 /* NOTE: returns in r1 */
1613 case OP_REM_INT:
1614 case OP_REM_INT_2ADDR:
1615 callOut = true;
1616 checkZero = true;
1617 funcOffset = OFFSETOF_MEMBER(Thread, pIdivmod);
1618 retReg = r1;
1619 break;
1620 case OP_AND_INT:
1621 case OP_AND_INT_2ADDR:
1622 op = kOpAnd;
1623 break;
1624 case OP_OR_INT:
1625 case OP_OR_INT_2ADDR:
1626 op = kOpOr;
1627 break;
1628 case OP_XOR_INT:
1629 case OP_XOR_INT_2ADDR:
1630 op = kOpXor;
1631 break;
1632 case OP_SHL_INT:
1633 case OP_SHL_INT_2ADDR:
1634 shiftOp = true;
1635 op = kOpLsl;
1636 break;
1637 case OP_SHR_INT:
1638 case OP_SHR_INT_2ADDR:
1639 shiftOp = true;
1640 op = kOpAsr;
1641 break;
1642 case OP_USHR_INT:
1643 case OP_USHR_INT_2ADDR:
1644 shiftOp = true;
1645 op = kOpLsr;
1646 break;
1647 default:
1648 LOG(FATAL) << "Invalid word arith op: " <<
1649 (int)mir->dalvikInsn.opcode;
1650 }
1651 if (!callOut) {
1652 rlSrc1 = loadValue(cUnit, rlSrc1, kCoreReg);
1653 if (unary) {
1654 rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1655 opRegReg(cUnit, op, rlResult.lowReg,
1656 rlSrc1.lowReg);
1657 } else {
1658 rlSrc2 = loadValue(cUnit, rlSrc2, kCoreReg);
1659 if (shiftOp) {
1660 int tReg = oatAllocTemp(cUnit);
1661 opRegRegImm(cUnit, kOpAnd, tReg, rlSrc2.lowReg, 31);
1662 rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1663 opRegRegReg(cUnit, op, rlResult.lowReg,
1664 rlSrc1.lowReg, tReg);
1665 oatFreeTemp(cUnit, tReg);
1666 } else {
1667 rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1668 opRegRegReg(cUnit, op, rlResult.lowReg,
1669 rlSrc1.lowReg, rlSrc2.lowReg);
1670 }
1671 }
1672 storeValue(cUnit, rlDest, rlResult);
1673 } else {
1674 RegLocation rlResult;
1675 oatFlushAllRegs(cUnit); /* Send everything to home location */
1676 loadValueDirectFixed(cUnit, rlSrc2, r1);
1677 loadWordDisp(cUnit, rSELF, funcOffset, rLR);
1678 loadValueDirectFixed(cUnit, rlSrc1, r0);
1679 if (checkZero) {
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]1680 genImmedCheck(cUnit, kArmCondEq, r1, 0, mir, kArmThrowDivZero);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1681 }
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1682 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1683 oatClobberCallRegs(cUnit);
1684 if (retReg == r0)
1685 rlResult = oatGetReturn(cUnit);
1686 else
1687 rlResult = oatGetReturnAlt(cUnit);
1688 storeValue(cUnit, rlDest, rlResult);
1689 }
1690 return false;
1691}
1692
buzbee0d966cf2011-09-08 17:34:58 -0700[diff] [blame]1693/* Check for pending suspend request. */
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1694static void genSuspendPoll(CompilationUnit* cUnit, MIR* mir)
1695{
buzbee0d966cf2011-09-08 17:34:58 -0700[diff] [blame]1696 oatLockCallTemps(cUnit); // Explicit register usage
1697 int rSuspendCount = r1;
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1698 ArmLIR* ld;
buzbee0d966cf2011-09-08 17:34:58 -0700[diff] [blame]1699 ld = loadWordDisp(cUnit, rSELF,
1700 art::Thread::SuspendCountOffset().Int32Value(), rSuspendCount);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1701 setMemRefType(ld, true /* isLoad */, kMustNotAlias);
buzbee0d966cf2011-09-08 17:34:58 -0700[diff] [blame]1702 loadWordDisp(cUnit, rSELF,
1703 OFFSETOF_MEMBER(Thread, pCheckSuspendFromCode), rLR);
1704 genRegCopy(cUnit, r0, rSELF);
1705 opRegImm(cUnit, kOpCmp, rSuspendCount, 0);
1706 genIT(cUnit, kArmCondNe, "");
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1707 callUnwindableHelper(cUnit, rLR); // CheckSuspendFromCode(self)
buzbee0d966cf2011-09-08 17:34:58 -0700[diff] [blame]1708 oatFreeCallTemps(cUnit);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1709}
1710
1711/*
1712 * The following are the first-level codegen routines that analyze the format
1713 * of each bytecode then either dispatch special purpose codegen routines
1714 * or produce corresponding Thumb instructions directly.
1715 */
1716
1717static bool isPowerOfTwo(int x)
1718{
1719 return (x & (x - 1)) == 0;
1720}
1721
1722// Returns true if no more than two bits are set in 'x'.
1723static bool isPopCountLE2(unsigned int x)
1724{
1725 x &= x - 1;
1726 return (x & (x - 1)) == 0;
1727}
1728
1729// Returns the index of the lowest set bit in 'x'.
1730static int lowestSetBit(unsigned int x) {
1731 int bit_posn = 0;
1732 while ((x & 0xf) == 0) {
1733 bit_posn += 4;
1734 x >>= 4;
1735 }
1736 while ((x & 1) == 0) {
1737 bit_posn++;
1738 x >>= 1;
1739 }
1740 return bit_posn;
1741}
1742
1743// Returns true if it added instructions to 'cUnit' to divide 'rlSrc' by 'lit'
1744// and store the result in 'rlDest'.
1745static bool handleEasyDivide(CompilationUnit* cUnit, Opcode dalvikOpcode,
1746 RegLocation rlSrc, RegLocation rlDest, int lit)
1747{
1748 if (lit < 2 || !isPowerOfTwo(lit)) {
1749 return false;
1750 }
1751 int k = lowestSetBit(lit);
1752 if (k >= 30) {
1753 // Avoid special cases.
1754 return false;
1755 }
1756 bool div = (dalvikOpcode == OP_DIV_INT_LIT8 ||
1757 dalvikOpcode == OP_DIV_INT_LIT16);
1758 rlSrc = loadValue(cUnit, rlSrc, kCoreReg);
1759 RegLocation rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1760 if (div) {
1761 int tReg = oatAllocTemp(cUnit);
1762 if (lit == 2) {
1763 // Division by 2 is by far the most common division by constant.
1764 opRegRegImm(cUnit, kOpLsr, tReg, rlSrc.lowReg, 32 - k);
1765 opRegRegReg(cUnit, kOpAdd, tReg, tReg, rlSrc.lowReg);
1766 opRegRegImm(cUnit, kOpAsr, rlResult.lowReg, tReg, k);
1767 } else {
1768 opRegRegImm(cUnit, kOpAsr, tReg, rlSrc.lowReg, 31);
1769 opRegRegImm(cUnit, kOpLsr, tReg, tReg, 32 - k);
1770 opRegRegReg(cUnit, kOpAdd, tReg, tReg, rlSrc.lowReg);
1771 opRegRegImm(cUnit, kOpAsr, rlResult.lowReg, tReg, k);
1772 }
1773 } else {
1774 int cReg = oatAllocTemp(cUnit);
1775 loadConstant(cUnit, cReg, lit - 1);
1776 int tReg1 = oatAllocTemp(cUnit);
1777 int tReg2 = oatAllocTemp(cUnit);
1778 if (lit == 2) {
1779 opRegRegImm(cUnit, kOpLsr, tReg1, rlSrc.lowReg, 32 - k);
1780 opRegRegReg(cUnit, kOpAdd, tReg2, tReg1, rlSrc.lowReg);
1781 opRegRegReg(cUnit, kOpAnd, tReg2, tReg2, cReg);
1782 opRegRegReg(cUnit, kOpSub, rlResult.lowReg, tReg2, tReg1);
1783 } else {
1784 opRegRegImm(cUnit, kOpAsr, tReg1, rlSrc.lowReg, 31);
1785 opRegRegImm(cUnit, kOpLsr, tReg1, tReg1, 32 - k);
1786 opRegRegReg(cUnit, kOpAdd, tReg2, tReg1, rlSrc.lowReg);
1787 opRegRegReg(cUnit, kOpAnd, tReg2, tReg2, cReg);
1788 opRegRegReg(cUnit, kOpSub, rlResult.lowReg, tReg2, tReg1);
1789 }
1790 }
1791 storeValue(cUnit, rlDest, rlResult);
1792 return true;
1793}
1794
1795// Returns true if it added instructions to 'cUnit' to multiply 'rlSrc' by 'lit'
1796// and store the result in 'rlDest'.
1797static bool handleEasyMultiply(CompilationUnit* cUnit,
1798 RegLocation rlSrc, RegLocation rlDest, int lit)
1799{
1800 // Can we simplify this multiplication?
1801 bool powerOfTwo = false;
1802 bool popCountLE2 = false;
1803 bool powerOfTwoMinusOne = false;
1804 if (lit < 2) {
1805 // Avoid special cases.
1806 return false;
1807 } else if (isPowerOfTwo(lit)) {
1808 powerOfTwo = true;
1809 } else if (isPopCountLE2(lit)) {
1810 popCountLE2 = true;
1811 } else if (isPowerOfTwo(lit + 1)) {
1812 powerOfTwoMinusOne = true;
1813 } else {
1814 return false;
1815 }
1816 rlSrc = loadValue(cUnit, rlSrc, kCoreReg);
1817 RegLocation rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1818 if (powerOfTwo) {
1819 // Shift.
1820 opRegRegImm(cUnit, kOpLsl, rlResult.lowReg, rlSrc.lowReg,
1821 lowestSetBit(lit));
1822 } else if (popCountLE2) {
1823 // Shift and add and shift.
1824 int firstBit = lowestSetBit(lit);
1825 int secondBit = lowestSetBit(lit ^ (1 << firstBit));
1826 genMultiplyByTwoBitMultiplier(cUnit, rlSrc, rlResult, lit,
1827 firstBit, secondBit);
1828 } else {
1829 // Reverse subtract: (src << (shift + 1)) - src.
1830 assert(powerOfTwoMinusOne);
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]1831 // TUNING: rsb dst, src, src lsl#lowestSetBit(lit + 1)
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1832 int tReg = oatAllocTemp(cUnit);
1833 opRegRegImm(cUnit, kOpLsl, tReg, rlSrc.lowReg, lowestSetBit(lit + 1));
1834 opRegRegReg(cUnit, kOpSub, rlResult.lowReg, tReg, rlSrc.lowReg);
1835 }
1836 storeValue(cUnit, rlDest, rlResult);
1837 return true;
1838}
1839
1840static bool genArithOpIntLit(CompilationUnit* cUnit, MIR* mir,
1841 RegLocation rlDest, RegLocation rlSrc,
1842 int lit)
1843{
1844 Opcode dalvikOpcode = mir->dalvikInsn.opcode;
1845 RegLocation rlResult;
1846 OpKind op = (OpKind)0; /* Make gcc happy */
1847 int shiftOp = false;
1848 bool isDiv = false;
1849 int funcOffset;
1850
1851 switch (dalvikOpcode) {
1852 case OP_RSUB_INT_LIT8:
1853 case OP_RSUB_INT: {
1854 int tReg;
1855 //TUNING: add support for use of Arm rsub op
1856 rlSrc = loadValue(cUnit, rlSrc, kCoreReg);
1857 tReg = oatAllocTemp(cUnit);
1858 loadConstant(cUnit, tReg, lit);
1859 rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1860 opRegRegReg(cUnit, kOpSub, rlResult.lowReg,
1861 tReg, rlSrc.lowReg);
1862 storeValue(cUnit, rlDest, rlResult);
1863 return false;
1864 break;
1865 }
1866
1867 case OP_ADD_INT_LIT8:
1868 case OP_ADD_INT_LIT16:
1869 op = kOpAdd;
1870 break;
1871 case OP_MUL_INT_LIT8:
1872 case OP_MUL_INT_LIT16: {
1873 if (handleEasyMultiply(cUnit, rlSrc, rlDest, lit)) {
1874 return false;
1875 }
1876 op = kOpMul;
1877 break;
1878 }
1879 case OP_AND_INT_LIT8:
1880 case OP_AND_INT_LIT16:
1881 op = kOpAnd;
1882 break;
1883 case OP_OR_INT_LIT8:
1884 case OP_OR_INT_LIT16:
1885 op = kOpOr;
1886 break;
1887 case OP_XOR_INT_LIT8:
1888 case OP_XOR_INT_LIT16:
1889 op = kOpXor;
1890 break;
1891 case OP_SHL_INT_LIT8:
1892 lit &= 31;
1893 shiftOp = true;
1894 op = kOpLsl;
1895 break;
1896 case OP_SHR_INT_LIT8:
1897 lit &= 31;
1898 shiftOp = true;
1899 op = kOpAsr;
1900 break;
1901 case OP_USHR_INT_LIT8:
1902 lit &= 31;
1903 shiftOp = true;
1904 op = kOpLsr;
1905 break;
1906
1907 case OP_DIV_INT_LIT8:
1908 case OP_DIV_INT_LIT16:
1909 case OP_REM_INT_LIT8:
1910 case OP_REM_INT_LIT16:
1911 if (lit == 0) {
buzbee5ade1d22011-09-09 14:44:52 -0700[diff] [blame]1912 genImmedCheck(cUnit, kArmCondAl, 0, 0, mir, kArmThrowDivZero);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1913 return false;
1914 }
1915 if (handleEasyDivide(cUnit, dalvikOpcode, rlSrc, rlDest, lit)) {
1916 return false;
1917 }
1918 oatFlushAllRegs(cUnit); /* Everything to home location */
1919 loadValueDirectFixed(cUnit, rlSrc, r0);
1920 oatClobber(cUnit, r0);
1921 if ((dalvikOpcode == OP_DIV_INT_LIT8) ||
1922 (dalvikOpcode == OP_DIV_INT_LIT16)) {
1923 funcOffset = OFFSETOF_MEMBER(Thread, pIdiv);
1924 isDiv = true;
1925 } else {
1926 funcOffset = OFFSETOF_MEMBER(Thread, pIdivmod);
1927 isDiv = false;
1928 }
1929 loadWordDisp(cUnit, rSELF, funcOffset, rLR);
1930 loadConstant(cUnit, r1, lit);
buzbeeec5adf32011-09-11 15:25:43 -0700[diff] [blame]1931 callUnwindableHelper(cUnit, rLR);
buzbee67bf8852011-08-17 17:51:35 -0700[diff] [blame]1932 oatClobberCallRegs(cUnit);
1933 if (isDiv)
1934 rlResult = oatGetReturn(cUnit);
1935 else
1936 rlResult = oatGetReturnAlt(cUnit);
1937 storeValue(cUnit, rlDest, rlResult);
1938 return false;
1939 break;
1940 default:
1941 return true;
1942 }
1943 rlSrc = loadValue(cUnit, rlSrc, kCoreReg);
1944 rlResult = oatEvalLoc(cUnit, rlDest, kCoreReg, true);
1945 // Avoid shifts by literal 0 - no support in Thumb. Change to copy
1946 if (shiftOp && (lit == 0)) {
1947 genRegCopy(cUnit, rlResult.lowReg, rlSrc.lowReg);
1948 } else {
1949 opRegRegImm(cUnit, op, rlResult.lowReg, rlSrc.lowReg, lit);
1950 }
1951 storeValue(cUnit, rlDest, rlResult);
1952 return false;
1953}
1954
1955/* Architectural-specific debugging helpers go here */
1956void oatArchDump(void)
1957{
1958 /* Print compiled opcode in this VM instance */
1959 int i, start, streak;
1960 char buf[1024];
1961
1962 streak = i = 0;
1963 buf[0] = 0;
1964 while (opcodeCoverage[i] == 0 && i < kNumPackedOpcodes) {
1965 i++;
1966 }
1967 if (i == kNumPackedOpcodes) {
1968 return;
1969 }
1970 for (start = i++, streak = 1; i < kNumPackedOpcodes; i++) {
1971 if (opcodeCoverage[i]) {
1972 streak++;
1973 } else {
1974 if (streak == 1) {
1975 sprintf(buf+strlen(buf), "%x,", start);
1976 } else {
1977 sprintf(buf+strlen(buf), "%x-%x,", start, start + streak - 1);
1978 }
1979 streak = 0;
1980 while (opcodeCoverage[i] == 0 && i < kNumPackedOpcodes) {
1981 i++;
1982 }
1983 if (i < kNumPackedOpcodes) {
1984 streak = 1;
1985 start = i;
1986 }
1987 }
1988 }
1989 if (streak) {
1990 if (streak == 1) {
1991 sprintf(buf+strlen(buf), "%x", start);
1992 } else {
1993 sprintf(buf+strlen(buf), "%x-%x", start, start + streak - 1);
1994 }
1995 }
1996 if (strlen(buf)) {
1997 LOG(INFO) << "dalvik.vm.oat.op = " << buf;
1998 }
1999}