blob: 48855012c3d1f28f43460dfe55dea7d301ce18fa [file] [log] [blame]
Brian Carlstrom7940e442013-07-12 13:46:57 -07001/*
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
Brian Carlstromfc0e3212013-07-17 14:40:12 -070017#ifndef ART_COMPILER_DEX_QUICK_MIR_TO_LIR_H_
18#define ART_COMPILER_DEX_QUICK_MIR_TO_LIR_H_
Brian Carlstrom7940e442013-07-12 13:46:57 -070019
20#include "invoke_type.h"
21#include "compiled_method.h"
22#include "dex/compiler_enums.h"
23#include "dex/compiler_ir.h"
Andreas Gampe4b537a82014-06-30 22:24:53 -070024#include "dex/reg_location.h"
Bill Buzbee00e1ec62014-02-27 23:44:13 +000025#include "dex/reg_storage.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -070026#include "dex/backend.h"
Vladimir Marko8dea81c2014-06-06 14:50:36 +010027#include "dex/quick/resource_mask.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -070028#include "driver/compiler_driver.h"
Andreas Gampe7cd26f32014-06-18 17:01:15 -070029#include "instruction_set.h"
Brian Carlstroma1ce1fe2014-02-24 23:23:58 -080030#include "leb128.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -070031#include "safe_map.h"
Vladimir Marko089142c2014-06-05 10:57:05 +010032#include "utils/array_ref.h"
Nicolas Geoffray818f2102014-02-18 16:43:35 +000033#include "utils/arena_allocator.h"
34#include "utils/growable_array.h"
Brian Carlstrom7940e442013-07-12 13:46:57 -070035
36namespace art {
37
buzbee0d829482013-10-11 15:24:55 -070038/*
39 * TODO: refactoring pass to move these (and other) typdefs towards usage style of runtime to
40 * add type safety (see runtime/offsets.h).
41 */
42typedef uint32_t DexOffset; // Dex offset in code units.
43typedef uint16_t NarrowDexOffset; // For use in structs, Dex offsets range from 0 .. 0xffff.
44typedef uint32_t CodeOffset; // Native code offset in bytes.
45
Brian Carlstrom7940e442013-07-12 13:46:57 -070046// Set to 1 to measure cost of suspend check.
47#define NO_SUSPEND 0
48
49#define IS_BINARY_OP (1ULL << kIsBinaryOp)
50#define IS_BRANCH (1ULL << kIsBranch)
51#define IS_IT (1ULL << kIsIT)
52#define IS_LOAD (1ULL << kMemLoad)
53#define IS_QUAD_OP (1ULL << kIsQuadOp)
54#define IS_QUIN_OP (1ULL << kIsQuinOp)
55#define IS_SEXTUPLE_OP (1ULL << kIsSextupleOp)
56#define IS_STORE (1ULL << kMemStore)
57#define IS_TERTIARY_OP (1ULL << kIsTertiaryOp)
58#define IS_UNARY_OP (1ULL << kIsUnaryOp)
59#define NEEDS_FIXUP (1ULL << kPCRelFixup)
60#define NO_OPERAND (1ULL << kNoOperand)
61#define REG_DEF0 (1ULL << kRegDef0)
62#define REG_DEF1 (1ULL << kRegDef1)
Razvan A Lupusoru99ad7232014-02-25 17:41:08 -080063#define REG_DEF2 (1ULL << kRegDef2)
Brian Carlstrom7940e442013-07-12 13:46:57 -070064#define REG_DEFA (1ULL << kRegDefA)
65#define REG_DEFD (1ULL << kRegDefD)
66#define REG_DEF_FPCS_LIST0 (1ULL << kRegDefFPCSList0)
67#define REG_DEF_FPCS_LIST2 (1ULL << kRegDefFPCSList2)
68#define REG_DEF_LIST0 (1ULL << kRegDefList0)
69#define REG_DEF_LIST1 (1ULL << kRegDefList1)
70#define REG_DEF_LR (1ULL << kRegDefLR)
71#define REG_DEF_SP (1ULL << kRegDefSP)
72#define REG_USE0 (1ULL << kRegUse0)
73#define REG_USE1 (1ULL << kRegUse1)
74#define REG_USE2 (1ULL << kRegUse2)
75#define REG_USE3 (1ULL << kRegUse3)
76#define REG_USE4 (1ULL << kRegUse4)
77#define REG_USEA (1ULL << kRegUseA)
78#define REG_USEC (1ULL << kRegUseC)
79#define REG_USED (1ULL << kRegUseD)
Vladimir Marko70b797d2013-12-03 15:25:24 +000080#define REG_USEB (1ULL << kRegUseB)
Brian Carlstrom7940e442013-07-12 13:46:57 -070081#define REG_USE_FPCS_LIST0 (1ULL << kRegUseFPCSList0)
82#define REG_USE_FPCS_LIST2 (1ULL << kRegUseFPCSList2)
83#define REG_USE_LIST0 (1ULL << kRegUseList0)
84#define REG_USE_LIST1 (1ULL << kRegUseList1)
85#define REG_USE_LR (1ULL << kRegUseLR)
86#define REG_USE_PC (1ULL << kRegUsePC)
87#define REG_USE_SP (1ULL << kRegUseSP)
88#define SETS_CCODES (1ULL << kSetsCCodes)
89#define USES_CCODES (1ULL << kUsesCCodes)
Serguei Katkove90501d2014-03-12 15:56:54 +070090#define USE_FP_STACK (1ULL << kUseFpStack)
buzbee9da5c102014-03-28 12:59:18 -070091#define REG_USE_LO (1ULL << kUseLo)
92#define REG_USE_HI (1ULL << kUseHi)
93#define REG_DEF_LO (1ULL << kDefLo)
94#define REG_DEF_HI (1ULL << kDefHi)
Brian Carlstrom7940e442013-07-12 13:46:57 -070095
96// Common combo register usage patterns.
97#define REG_DEF01 (REG_DEF0 | REG_DEF1)
Matteo Franchine45fb9e2014-05-06 10:10:30 +010098#define REG_DEF012 (REG_DEF0 | REG_DEF1 | REG_DEF2)
Brian Carlstrom7940e442013-07-12 13:46:57 -070099#define REG_DEF01_USE2 (REG_DEF0 | REG_DEF1 | REG_USE2)
100#define REG_DEF0_USE01 (REG_DEF0 | REG_USE01)
101#define REG_DEF0_USE0 (REG_DEF0 | REG_USE0)
102#define REG_DEF0_USE12 (REG_DEF0 | REG_USE12)
Vladimir Marko3e5af822013-11-21 15:01:20 +0000103#define REG_DEF0_USE123 (REG_DEF0 | REG_USE123)
Brian Carlstrom7940e442013-07-12 13:46:57 -0700104#define REG_DEF0_USE1 (REG_DEF0 | REG_USE1)
105#define REG_DEF0_USE2 (REG_DEF0 | REG_USE2)
106#define REG_DEFAD_USEAD (REG_DEFAD_USEA | REG_USED)
107#define REG_DEFAD_USEA (REG_DEFA_USEA | REG_DEFD)
108#define REG_DEFA_USEA (REG_DEFA | REG_USEA)
109#define REG_USE012 (REG_USE01 | REG_USE2)
110#define REG_USE014 (REG_USE01 | REG_USE4)
111#define REG_USE01 (REG_USE0 | REG_USE1)
112#define REG_USE02 (REG_USE0 | REG_USE2)
113#define REG_USE12 (REG_USE1 | REG_USE2)
114#define REG_USE23 (REG_USE2 | REG_USE3)
Vladimir Marko3e5af822013-11-21 15:01:20 +0000115#define REG_USE123 (REG_USE1 | REG_USE2 | REG_USE3)
Brian Carlstrom7940e442013-07-12 13:46:57 -0700116
buzbee695d13a2014-04-19 13:32:20 -0700117// TODO: #includes need a cleanup
118#ifndef INVALID_SREG
119#define INVALID_SREG (-1)
120#endif
121
Brian Carlstrom7940e442013-07-12 13:46:57 -0700122struct BasicBlock;
123struct CallInfo;
124struct CompilationUnit;
Vladimir Marko5816ed42013-11-27 17:04:20 +0000125struct InlineMethod;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700126struct MIR;
buzbeeb48819d2013-09-14 16:15:25 -0700127struct LIR;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700128struct RegisterInfo;
Vladimir Marko5c96e6b2013-11-14 15:34:17 +0000129class DexFileMethodInliner;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700130class MIRGraph;
131class Mir2Lir;
132
133typedef int (*NextCallInsn)(CompilationUnit*, CallInfo*, int,
134 const MethodReference& target_method,
135 uint32_t method_idx, uintptr_t direct_code,
136 uintptr_t direct_method, InvokeType type);
137
138typedef std::vector<uint8_t> CodeBuffer;
139
buzbeeb48819d2013-09-14 16:15:25 -0700140struct UseDefMasks {
Vladimir Marko8dea81c2014-06-06 14:50:36 +0100141 const ResourceMask* use_mask; // Resource mask for use.
142 const ResourceMask* def_mask; // Resource mask for def.
buzbeeb48819d2013-09-14 16:15:25 -0700143};
144
145struct AssemblyInfo {
146 LIR* pcrel_next; // Chain of LIR nodes needing pc relative fixups.
buzbeeb48819d2013-09-14 16:15:25 -0700147};
Brian Carlstrom7940e442013-07-12 13:46:57 -0700148
149struct LIR {
buzbee0d829482013-10-11 15:24:55 -0700150 CodeOffset offset; // Offset of this instruction.
151 NarrowDexOffset dalvik_offset; // Offset of Dalvik opcode in code units (16-bit words).
buzbeeb48819d2013-09-14 16:15:25 -0700152 int16_t opcode;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700153 LIR* next;
154 LIR* prev;
155 LIR* target;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700156 struct {
buzbeeb48819d2013-09-14 16:15:25 -0700157 unsigned int alias_info:17; // For Dalvik register disambiguation.
158 bool is_nop:1; // LIR is optimized away.
159 unsigned int size:4; // Note: size of encoded instruction is in bytes.
160 bool use_def_invalid:1; // If true, masks should not be used.
161 unsigned int generation:1; // Used to track visitation state during fixup pass.
162 unsigned int fixup:8; // Fixup kind.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700163 } flags;
buzbeeb48819d2013-09-14 16:15:25 -0700164 union {
buzbee0d829482013-10-11 15:24:55 -0700165 UseDefMasks m; // Use & Def masks used during optimization.
Vladimir Marko306f0172014-01-07 18:21:20 +0000166 AssemblyInfo a; // Instruction info used during assembly phase.
buzbeeb48819d2013-09-14 16:15:25 -0700167 } u;
buzbee0d829482013-10-11 15:24:55 -0700168 int32_t operands[5]; // [0..4] = [dest, src1, src2, extra, extra2].
Brian Carlstrom7940e442013-07-12 13:46:57 -0700169};
170
171// Target-specific initialization.
172Mir2Lir* ArmCodeGenerator(CompilationUnit* const cu, MIRGraph* const mir_graph,
173 ArenaAllocator* const arena);
Matteo Franchine45fb9e2014-05-06 10:10:30 +0100174Mir2Lir* Arm64CodeGenerator(CompilationUnit* const cu, MIRGraph* const mir_graph,
175 ArenaAllocator* const arena);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700176Mir2Lir* MipsCodeGenerator(CompilationUnit* const cu, MIRGraph* const mir_graph,
177 ArenaAllocator* const arena);
178Mir2Lir* X86CodeGenerator(CompilationUnit* const cu, MIRGraph* const mir_graph,
179 ArenaAllocator* const arena);
180
181// Utility macros to traverse the LIR list.
182#define NEXT_LIR(lir) (lir->next)
183#define PREV_LIR(lir) (lir->prev)
184
185// Defines for alias_info (tracks Dalvik register references).
186#define DECODE_ALIAS_INFO_REG(X) (X & 0xffff)
buzbeeb48819d2013-09-14 16:15:25 -0700187#define DECODE_ALIAS_INFO_WIDE_FLAG (0x10000)
Brian Carlstrom7940e442013-07-12 13:46:57 -0700188#define DECODE_ALIAS_INFO_WIDE(X) ((X & DECODE_ALIAS_INFO_WIDE_FLAG) ? 1 : 0)
189#define ENCODE_ALIAS_INFO(REG, ISWIDE) (REG | (ISWIDE ? DECODE_ALIAS_INFO_WIDE_FLAG : 0))
190
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -0800191#define ENCODE_REG_PAIR(low_reg, high_reg) ((low_reg & 0xff) | ((high_reg & 0xff) << 8))
192#define DECODE_REG_PAIR(both_regs, low_reg, high_reg) \
193 do { \
194 low_reg = both_regs & 0xff; \
195 high_reg = (both_regs >> 8) & 0xff; \
196 } while (false)
197
buzbeeb5860fb2014-06-21 15:31:01 -0700198// Mask to denote sreg as the start of a 64-bit item. Must not interfere with low 16 bits.
199#define STARTING_WIDE_SREG 0x10000
buzbeec729a6b2013-09-14 16:04:31 -0700200
Brian Carlstrom7934ac22013-07-26 10:54:15 -0700201// TODO: replace these macros
Brian Carlstrom7940e442013-07-12 13:46:57 -0700202#define SLOW_FIELD_PATH (cu_->enable_debug & (1 << kDebugSlowFieldPath))
203#define SLOW_INVOKE_PATH (cu_->enable_debug & (1 << kDebugSlowInvokePath))
204#define SLOW_STRING_PATH (cu_->enable_debug & (1 << kDebugSlowStringPath))
205#define SLOW_TYPE_PATH (cu_->enable_debug & (1 << kDebugSlowTypePath))
206#define EXERCISE_SLOWEST_STRING_PATH (cu_->enable_debug & (1 << kDebugSlowestStringPath))
Brian Carlstrom7940e442013-07-12 13:46:57 -0700207
Andreas Gampe7cd26f32014-06-18 17:01:15 -0700208// Size of a frame that we definitely consider large. Anything larger than this should
209// definitely get a stack overflow check.
210static constexpr size_t kLargeFrameSize = 2 * KB;
211
212// Size of a frame that should be small. Anything leaf method smaller than this should run
213// without a stack overflow check.
214// The constant is from experience with frameworks code.
215static constexpr size_t kSmallFrameSize = 1 * KB;
216
217// Determine whether a frame is small or large, used in the decision on whether to elide a
218// stack overflow check on method entry.
219//
220// A frame is considered large when it's either above kLargeFrameSize, or a quarter of the
221// overflow-usable stack space.
222static constexpr bool IsLargeFrame(size_t size, InstructionSet isa) {
223 return size >= kLargeFrameSize || size >= GetStackOverflowReservedBytes(isa) / 4;
224}
225
226// We want to ensure that on all systems kSmallFrameSize will lead to false in IsLargeFrame.
227COMPILE_ASSERT(!IsLargeFrame(kSmallFrameSize, kArm),
228 kSmallFrameSize_is_not_a_small_frame_arm);
229COMPILE_ASSERT(!IsLargeFrame(kSmallFrameSize, kArm64),
230 kSmallFrameSize_is_not_a_small_frame_arm64);
231COMPILE_ASSERT(!IsLargeFrame(kSmallFrameSize, kMips),
232 kSmallFrameSize_is_not_a_small_frame_mips);
233COMPILE_ASSERT(!IsLargeFrame(kSmallFrameSize, kX86),
234 kSmallFrameSize_is_not_a_small_frame_x86);
235COMPILE_ASSERT(!IsLargeFrame(kSmallFrameSize, kX86_64),
236 kSmallFrameSize_is_not_a_small_frame_x64_64);
237
Brian Carlstrom7940e442013-07-12 13:46:57 -0700238class Mir2Lir : public Backend {
Brian Carlstrom7940e442013-07-12 13:46:57 -0700239 public:
Andreas Gampe4b537a82014-06-30 22:24:53 -0700240 static constexpr bool kFailOnSizeError = true && kIsDebugBuild;
241 static constexpr bool kReportSizeError = true && kIsDebugBuild;
242
buzbee0d829482013-10-11 15:24:55 -0700243 /*
244 * Auxiliary information describing the location of data embedded in the Dalvik
245 * byte code stream.
246 */
247 struct EmbeddedData {
248 CodeOffset offset; // Code offset of data block.
249 const uint16_t* table; // Original dex data.
250 DexOffset vaddr; // Dalvik offset of parent opcode.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700251 };
252
buzbee0d829482013-10-11 15:24:55 -0700253 struct FillArrayData : EmbeddedData {
254 int32_t size;
255 };
256
257 struct SwitchTable : EmbeddedData {
258 LIR* anchor; // Reference instruction for relative offsets.
259 LIR** targets; // Array of case targets.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700260 };
261
262 /* Static register use counts */
263 struct RefCounts {
264 int count;
265 int s_reg;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700266 };
267
268 /*
buzbee091cc402014-03-31 10:14:40 -0700269 * Data structure tracking the mapping detween a Dalvik value (32 or 64 bits)
270 * and native register storage. The primary purpose is to reuse previuosly
271 * loaded values, if possible, and otherwise to keep the value in register
272 * storage as long as possible.
273 *
274 * NOTE 1: wide_value refers to the width of the Dalvik value contained in
275 * this register (or pair). For example, a 64-bit register containing a 32-bit
276 * Dalvik value would have wide_value==false even though the storage container itself
277 * is wide. Similarly, a 32-bit register containing half of a 64-bit Dalvik value
278 * would have wide_value==true (and additionally would have its partner field set to the
279 * other half whose wide_value field would also be true.
280 *
281 * NOTE 2: In the case of a register pair, you can determine which of the partners
282 * is the low half by looking at the s_reg names. The high s_reg will equal low_sreg + 1.
283 *
284 * NOTE 3: In the case of a 64-bit register holding a Dalvik wide value, wide_value
285 * will be true and partner==self. s_reg refers to the low-order word of the Dalvik
286 * value, and the s_reg of the high word is implied (s_reg + 1).
287 *
288 * NOTE 4: The reg and is_temp fields should always be correct. If is_temp is false no
289 * other fields have meaning. [perhaps not true, wide should work for promoted regs?]
290 * If is_temp==true and live==false, no other fields have
291 * meaning. If is_temp==true and live==true, wide_value, partner, dirty, s_reg, def_start
292 * and def_end describe the relationship between the temp register/register pair and
293 * the Dalvik value[s] described by s_reg/s_reg+1.
294 *
295 * The fields used_storage, master_storage and storage_mask are used to track allocation
296 * in light of potential aliasing. For example, consider Arm's d2, which overlaps s4 & s5.
297 * d2's storage mask would be 0x00000003, the two low-order bits denoting 64 bits of
298 * storage use. For s4, it would be 0x0000001; for s5 0x00000002. These values should not
299 * change once initialized. The "used_storage" field tracks current allocation status.
300 * Although each record contains this field, only the field from the largest member of
301 * an aliased group is used. In our case, it would be d2's. The master_storage pointer
302 * of d2, s4 and s5 would all point to d2's used_storage field. Each bit in a used_storage
303 * represents 32 bits of storage. d2's used_storage would be initialized to 0xfffffffc.
304 * Then, if we wanted to determine whether s4 could be allocated, we would "and"
305 * s4's storage_mask with s4's *master_storage. If the result is zero, s4 is free and
306 * to allocate: *master_storage |= storage_mask. To free, *master_storage &= ~storage_mask.
307 *
308 * For an X86 vector register example, storage_mask would be:
309 * 0x00000001 for 32-bit view of xmm1
310 * 0x00000003 for 64-bit view of xmm1
311 * 0x0000000f for 128-bit view of xmm1
312 * 0x000000ff for 256-bit view of ymm1 // future expansion, if needed
313 * 0x0000ffff for 512-bit view of ymm1 // future expansion, if needed
314 * 0xffffffff for 1024-bit view of ymm1 // future expansion, if needed
315 *
buzbee30adc732014-05-09 15:10:18 -0700316 * The "liveness" of a register is handled in a similar way. The liveness_ storage is
317 * held in the widest member of an aliased set. Note, though, that for a temp register to
318 * reused as live, it must both be marked live and the associated SReg() must match the
319 * desired s_reg. This gets a little complicated when dealing with aliased registers. All
320 * members of an aliased set will share the same liveness flags, but each will individually
321 * maintain s_reg_. In this way we can know that at least one member of an
322 * aliased set is live, but will only fully match on the appropriate alias view. For example,
323 * if Arm d1 is live as a double and has s_reg_ set to Dalvik v8 (which also implies v9
324 * because it is wide), its aliases s2 and s3 will show as live, but will have
325 * s_reg_ == INVALID_SREG. An attempt to later AllocLiveReg() of v9 with a single-precision
326 * view will fail because although s3's liveness bit is set, its s_reg_ will not match v9.
327 * This will cause all members of the aliased set to be clobbered and AllocLiveReg() will
328 * report that v9 is currently not live as a single (which is what we want).
329 *
buzbee091cc402014-03-31 10:14:40 -0700330 * NOTE: the x86 usage is still somewhat in flux. There are competing notions of how
331 * to treat xmm registers:
332 * 1. Treat them all as 128-bits wide, but denote how much data used via bytes field.
333 * o This more closely matches reality, but means you'd need to be able to get
334 * to the associated RegisterInfo struct to figure out how it's being used.
335 * o This is how 64-bit core registers will be used - always 64 bits, but the
336 * "bytes" field will be 4 for 32-bit usage and 8 for 64-bit usage.
337 * 2. View the xmm registers based on contents.
338 * o A single in a xmm2 register would be k32BitVector, while a double in xmm2 would
339 * be a k64BitVector.
340 * o Note that the two uses above would be considered distinct registers (but with
341 * the aliasing mechanism, we could detect interference).
342 * o This is how aliased double and single float registers will be handled on
343 * Arm and MIPS.
344 * Working plan is, for all targets, to follow mechanism 1 for 64-bit core registers, and
345 * mechanism 2 for aliased float registers and x86 vector registers.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700346 */
buzbee091cc402014-03-31 10:14:40 -0700347 class RegisterInfo {
348 public:
Vladimir Marko8dea81c2014-06-06 14:50:36 +0100349 RegisterInfo(RegStorage r, const ResourceMask& mask = kEncodeAll);
buzbee091cc402014-03-31 10:14:40 -0700350 ~RegisterInfo() {}
351 static void* operator new(size_t size, ArenaAllocator* arena) {
352 return arena->Alloc(size, kArenaAllocRegAlloc);
353 }
354
buzbee85089dd2014-05-25 15:10:52 -0700355 static const uint32_t k32SoloStorageMask = 0x00000001;
356 static const uint32_t kLowSingleStorageMask = 0x00000001;
357 static const uint32_t kHighSingleStorageMask = 0x00000002;
358 static const uint32_t k64SoloStorageMask = 0x00000003;
359 static const uint32_t k128SoloStorageMask = 0x0000000f;
360 static const uint32_t k256SoloStorageMask = 0x000000ff;
361 static const uint32_t k512SoloStorageMask = 0x0000ffff;
362 static const uint32_t k1024SoloStorageMask = 0xffffffff;
363
buzbee091cc402014-03-31 10:14:40 -0700364 bool InUse() { return (storage_mask_ & master_->used_storage_) != 0; }
365 void MarkInUse() { master_->used_storage_ |= storage_mask_; }
366 void MarkFree() { master_->used_storage_ &= ~storage_mask_; }
buzbeeba574512014-05-12 15:13:16 -0700367 // No part of the containing storage is live in this view.
368 bool IsDead() { return (master_->liveness_ & storage_mask_) == 0; }
369 // Liveness of this view matches. Note: not equivalent to !IsDead().
buzbee30adc732014-05-09 15:10:18 -0700370 bool IsLive() { return (master_->liveness_ & storage_mask_) == storage_mask_; }
buzbee082833c2014-05-17 23:16:26 -0700371 void MarkLive(int s_reg) {
372 // TODO: Anything useful to assert here?
373 s_reg_ = s_reg;
374 master_->liveness_ |= storage_mask_;
375 }
buzbee30adc732014-05-09 15:10:18 -0700376 void MarkDead() {
buzbee082833c2014-05-17 23:16:26 -0700377 if (SReg() != INVALID_SREG) {
378 s_reg_ = INVALID_SREG;
379 master_->liveness_ &= ~storage_mask_;
380 ResetDefBody();
381 }
buzbee30adc732014-05-09 15:10:18 -0700382 }
buzbee091cc402014-03-31 10:14:40 -0700383 RegStorage GetReg() { return reg_; }
384 void SetReg(RegStorage reg) { reg_ = reg; }
385 bool IsTemp() { return is_temp_; }
386 void SetIsTemp(bool val) { is_temp_ = val; }
387 bool IsWide() { return wide_value_; }
buzbee082833c2014-05-17 23:16:26 -0700388 void SetIsWide(bool val) {
389 wide_value_ = val;
390 if (!val) {
391 // If not wide, reset partner to self.
392 SetPartner(GetReg());
393 }
394 }
buzbee091cc402014-03-31 10:14:40 -0700395 bool IsDirty() { return dirty_; }
396 void SetIsDirty(bool val) { dirty_ = val; }
397 RegStorage Partner() { return partner_; }
398 void SetPartner(RegStorage partner) { partner_ = partner; }
buzbee082833c2014-05-17 23:16:26 -0700399 int SReg() { return (!IsTemp() || IsLive()) ? s_reg_ : INVALID_SREG; }
Vladimir Marko8dea81c2014-06-06 14:50:36 +0100400 const ResourceMask& DefUseMask() { return def_use_mask_; }
401 void SetDefUseMask(const ResourceMask& def_use_mask) { def_use_mask_ = def_use_mask; }
buzbee091cc402014-03-31 10:14:40 -0700402 RegisterInfo* Master() { return master_; }
buzbee30adc732014-05-09 15:10:18 -0700403 void SetMaster(RegisterInfo* master) {
404 master_ = master;
405 if (master != this) {
406 master_->aliased_ = true;
buzbeeba574512014-05-12 15:13:16 -0700407 DCHECK(alias_chain_ == nullptr);
408 alias_chain_ = master_->alias_chain_;
409 master_->alias_chain_ = this;
buzbee30adc732014-05-09 15:10:18 -0700410 }
411 }
412 bool IsAliased() { return aliased_; }
buzbeeba574512014-05-12 15:13:16 -0700413 RegisterInfo* GetAliasChain() { return alias_chain_; }
buzbee091cc402014-03-31 10:14:40 -0700414 uint32_t StorageMask() { return storage_mask_; }
415 void SetStorageMask(uint32_t storage_mask) { storage_mask_ = storage_mask; }
416 LIR* DefStart() { return def_start_; }
417 void SetDefStart(LIR* def_start) { def_start_ = def_start; }
418 LIR* DefEnd() { return def_end_; }
419 void SetDefEnd(LIR* def_end) { def_end_ = def_end; }
420 void ResetDefBody() { def_start_ = def_end_ = nullptr; }
buzbee85089dd2014-05-25 15:10:52 -0700421 // Find member of aliased set matching storage_used; return nullptr if none.
422 RegisterInfo* FindMatchingView(uint32_t storage_used) {
423 RegisterInfo* res = Master();
424 for (; res != nullptr; res = res->GetAliasChain()) {
425 if (res->StorageMask() == storage_used)
426 break;
427 }
428 return res;
429 }
buzbee091cc402014-03-31 10:14:40 -0700430
431 private:
432 RegStorage reg_;
433 bool is_temp_; // Can allocate as temp?
434 bool wide_value_; // Holds a Dalvik wide value (either itself, or part of a pair).
buzbee091cc402014-03-31 10:14:40 -0700435 bool dirty_; // If live, is it dirty?
buzbee30adc732014-05-09 15:10:18 -0700436 bool aliased_; // Is this the master for other aliased RegisterInfo's?
buzbee091cc402014-03-31 10:14:40 -0700437 RegStorage partner_; // If wide_value, other reg of pair or self if 64-bit register.
438 int s_reg_; // Name of live value.
Vladimir Marko8dea81c2014-06-06 14:50:36 +0100439 ResourceMask def_use_mask_; // Resources for this element.
buzbee091cc402014-03-31 10:14:40 -0700440 uint32_t used_storage_; // 1 bit per 4 bytes of storage. Unused by aliases.
buzbee30adc732014-05-09 15:10:18 -0700441 uint32_t liveness_; // 1 bit per 4 bytes of storage. Unused by aliases.
buzbee091cc402014-03-31 10:14:40 -0700442 RegisterInfo* master_; // Pointer to controlling storage mask.
443 uint32_t storage_mask_; // Track allocation of sub-units.
444 LIR *def_start_; // Starting inst in last def sequence.
445 LIR *def_end_; // Ending inst in last def sequence.
buzbeeba574512014-05-12 15:13:16 -0700446 RegisterInfo* alias_chain_; // Chain of aliased registers.
Brian Carlstrom7940e442013-07-12 13:46:57 -0700447 };
448
buzbee091cc402014-03-31 10:14:40 -0700449 class RegisterPool {
450 public:
buzbeeb01bf152014-05-13 15:59:07 -0700451 RegisterPool(Mir2Lir* m2l, ArenaAllocator* arena,
Vladimir Marko089142c2014-06-05 10:57:05 +0100452 const ArrayRef<const RegStorage>& core_regs,
453 const ArrayRef<const RegStorage>& core64_regs,
454 const ArrayRef<const RegStorage>& sp_regs,
455 const ArrayRef<const RegStorage>& dp_regs,
456 const ArrayRef<const RegStorage>& reserved_regs,
457 const ArrayRef<const RegStorage>& reserved64_regs,
458 const ArrayRef<const RegStorage>& core_temps,
459 const ArrayRef<const RegStorage>& core64_temps,
460 const ArrayRef<const RegStorage>& sp_temps,
461 const ArrayRef<const RegStorage>& dp_temps);
buzbee091cc402014-03-31 10:14:40 -0700462 ~RegisterPool() {}
463 static void* operator new(size_t size, ArenaAllocator* arena) {
464 return arena->Alloc(size, kArenaAllocRegAlloc);
465 }
466 void ResetNextTemp() {
467 next_core_reg_ = 0;
468 next_sp_reg_ = 0;
469 next_dp_reg_ = 0;
470 }
471 GrowableArray<RegisterInfo*> core_regs_;
472 int next_core_reg_;
buzbeeb01bf152014-05-13 15:59:07 -0700473 GrowableArray<RegisterInfo*> core64_regs_;
474 int next_core64_reg_;
buzbee091cc402014-03-31 10:14:40 -0700475 GrowableArray<RegisterInfo*> sp_regs_; // Single precision float.
476 int next_sp_reg_;
477 GrowableArray<RegisterInfo*> dp_regs_; // Double precision float.
478 int next_dp_reg_;
buzbeea0cd2d72014-06-01 09:33:49 -0700479 GrowableArray<RegisterInfo*>* ref_regs_; // Points to core_regs_ or core64_regs_
480 int* next_ref_reg_;
buzbee091cc402014-03-31 10:14:40 -0700481
482 private:
483 Mir2Lir* const m2l_;
484 };
Brian Carlstrom7940e442013-07-12 13:46:57 -0700485
486 struct PromotionMap {
487 RegLocationType core_location:3;
488 uint8_t core_reg;
489 RegLocationType fp_location:3;
buzbeeb5860fb2014-06-21 15:31:01 -0700490 uint8_t fp_reg;
Brian Carlstrom7940e442013-07-12 13:46:57 -0700491 bool first_in_pair;
492 };
493
Dave Allisonbcec6fb2014-01-17 12:52:22 -0800494 //
495 // Slow paths. This object is used generate a sequence of code that is executed in the
496 // slow path. For example, resolving a string or class is slow as it will only be executed
497 // once (after that it is resolved and doesn't need to be done again). We want slow paths
498 // to be placed out-of-line, and not require a (mispredicted, probably) conditional forward
499 // branch over them.
500 //
501 // If you want to create a slow path, declare a class derived from LIRSlowPath and provide
502 // the Compile() function that will be called near the end of the code generated by the
503 // method.
504 //
505 // The basic flow for a slow path is:
506 //
507 // CMP reg, #value
508 // BEQ fromfast
509 // cont:
510 // ...
511 // fast path code
512 // ...
513 // more code
514 // ...
515 // RETURN
516 ///
517 // fromfast:
518 // ...
519 // slow path code
520 // ...
521 // B cont
522 //
523 // So you see we need two labels and two branches. The first branch (called fromfast) is
524 // the conditional branch to the slow path code. The second label (called cont) is used
525 // as an unconditional branch target for getting back to the code after the slow path
526 // has completed.
527 //
528
529 class LIRSlowPath {
530 public:
531 LIRSlowPath(Mir2Lir* m2l, const DexOffset dexpc, LIR* fromfast,
532 LIR* cont = nullptr) :
Andreas Gampe2f244e92014-05-08 03:35:25 -0700533 m2l_(m2l), cu_(m2l->cu_), current_dex_pc_(dexpc), fromfast_(fromfast), cont_(cont) {
Mark Mendelle87f9b52014-04-30 14:13:18 -0400534 m2l->StartSlowPath(cont);
Dave Allisonbcec6fb2014-01-17 12:52:22 -0800535 }
536 virtual ~LIRSlowPath() {}
537 virtual void Compile() = 0;
538
539 static void* operator new(size_t size, ArenaAllocator* arena) {
Vladimir Marko83cc7ae2014-02-12 18:02:05 +0000540 return arena->Alloc(size, kArenaAllocData);
Dave Allisonbcec6fb2014-01-17 12:52:22 -0800541 }
542
Mark Mendelle87f9b52014-04-30 14:13:18 -0400543 LIR *GetContinuationLabel() {
544 return cont_;
545 }
546
547 LIR *GetFromFast() {
548 return fromfast_;
549 }
550
Dave Allisonbcec6fb2014-01-17 12:52:22 -0800551 protected:
Mingyao Yang6ffcfa02014-04-25 11:06:00 -0700552 LIR* GenerateTargetLabel(int opcode = kPseudoTargetLabel);
Dave Allisonbcec6fb2014-01-17 12:52:22 -0800553
554 Mir2Lir* const m2l_;
Andreas Gampe2f244e92014-05-08 03:35:25 -0700555 CompilationUnit* const cu_;
Dave Allisonbcec6fb2014-01-17 12:52:22 -0800556 const DexOffset current_dex_pc_;
557 LIR* const fromfast_;
558 LIR* const cont_;
559 };
560
Vladimir Marko8dea81c2014-06-06 14:50:36 +0100561 // Helper class for changing mem_ref_type_ until the end of current scope. See mem_ref_type_.
562 class ScopedMemRefType {
563 public:
564 ScopedMemRefType(Mir2Lir* m2l, ResourceMask::ResourceBit new_mem_ref_type)
565 : m2l_(m2l),
566 old_mem_ref_type_(m2l->mem_ref_type_) {
567 m2l_->mem_ref_type_ = new_mem_ref_type;
568 }
569
570 ~ScopedMemRefType() {
571 m2l_->mem_ref_type_ = old_mem_ref_type_;
572 }
573
574 private:
575 Mir2Lir* const m2l_;
576 ResourceMask::ResourceBit old_mem_ref_type_;
577
578 DISALLOW_COPY_AND_ASSIGN(ScopedMemRefType);
579 };
580
Brian Carlstrom9b7085a2013-07-18 15:15:21 -0700581 virtual ~Mir2Lir() {}
Brian Carlstrom7940e442013-07-12 13:46:57 -0700582
583 int32_t s4FromSwitchData(const void* switch_data) {
584 return *reinterpret_cast<const int32_t*>(switch_data);
585 }
586
buzbee091cc402014-03-31 10:14:40 -0700587 /*
588 * TODO: this is a trace JIT vestige, and its use should be reconsidered. At the time
589 * it was introduced, it was intended to be a quick best guess of type without having to
590 * take the time to do type analysis. Currently, though, we have a much better idea of
591 * the types of Dalvik virtual registers. Instead of using this for a best guess, why not
592 * just use our knowledge of type to select the most appropriate register class?
593 */
594 RegisterClass RegClassBySize(OpSize size) {
buzbeea0cd2d72014-06-01 09:33:49 -0700595 if (size == kReference) {
596 return kRefReg;
597 } else {
598 return (size == kUnsignedHalf || size == kSignedHalf || size == kUnsignedByte ||
599 size == kSignedByte) ? kCoreReg : kAnyReg;
600 }
Brian Carlstrom7940e442013-07-12 13:46:57 -0700601 }
602
603 size_t CodeBufferSizeInBytes() {
604 return code_buffer_.size() / sizeof(code_buffer_[0]);
605 }
606
Vladimir Marko306f0172014-01-07 18:21:20 +0000607 static bool IsPseudoLirOp(int opcode) {
buzbee409fe942013-10-11 10:49:56 -0700608 return (opcode < 0);
609 }
610
buzbee0d829482013-10-11 15:24:55 -0700611 /*
612 * LIR operands are 32-bit integers. Sometimes, (especially for managing
613 * instructions which require PC-relative fixups), we need the operands to carry
614 * pointers. To do this, we assign these pointers an index in pointer_storage_, and
615 * hold that index in the operand array.
616 * TUNING: If use of these utilities becomes more common on 32-bit builds, it
617 * may be worth conditionally-compiling a set of identity functions here.
618 */
619 uint32_t WrapPointer(void* pointer) {
620 uint32_t res = pointer_storage_.Size();
621 pointer_storage_.Insert(pointer);
622 return res;
623 }
624
625 void* UnwrapPointer(size_t index) {
626 return pointer_storage_.Get(index);
627 }
628
629 // strdup(), but allocates from the arena.
630 char* ArenaStrdup(const char* str) {
631 size_t len = strlen(str) + 1;
Vladimir Marko83cc7ae2014-02-12 18:02:05 +0000632 char* res = reinterpret_cast<char*>(arena_->Alloc(len, kArenaAllocMisc));
buzbee0d829482013-10-11 15:24:55 -0700633 if (res != NULL) {
634 strncpy(res, str, len);
635 }
636 return res;
637 }
638
Brian Carlstrom7940e442013-07-12 13:46:57 -0700639 // Shared by all targets - implemented in codegen_util.cc
640 void AppendLIR(LIR* lir);
641 void InsertLIRBefore(LIR* current_lir, LIR* new_lir);
642 void InsertLIRAfter(LIR* current_lir, LIR* new_lir);
643
Razvan A Lupusoruda7a69b2014-01-08 15:09:50 -0800644 /**
645 * @brief Provides the maximum number of compiler temporaries that the backend can/wants
646 * to place in a frame.
647 * @return Returns the maximum number of compiler temporaries.
648 */
649 size_t GetMaxPossibleCompilerTemps() const;
650
651 /**
652 * @brief Provides the number of bytes needed in frame for spilling of compiler temporaries.
653 * @return Returns the size in bytes for space needed for compiler temporary spill region.
654 */
655 size_t GetNumBytesForCompilerTempSpillRegion();
656
Dave Allisonbcec6fb2014-01-17 12:52:22 -0800657 DexOffset GetCurrentDexPc() const {
658 return current_dalvik_offset_;
659 }
660
buzbeea0cd2d72014-06-01 09:33:49 -0700661 RegisterClass ShortyToRegClass(char shorty_type);
662 RegisterClass LocToRegClass(RegLocation loc);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700663 int ComputeFrameSize();
664 virtual void Materialize();
665 virtual CompiledMethod* GetCompiledMethod();
666 void MarkSafepointPC(LIR* inst);
Andreas Gampe3c12c512014-06-24 18:46:29 +0000667 void MarkSafepointPCAfter(LIR* after);
Vladimir Marko8dea81c2014-06-06 14:50:36 +0100668 void SetupResourceMasks(LIR* lir);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700669 void SetMemRefType(LIR* lir, bool is_load, int mem_type);
670 void AnnotateDalvikRegAccess(LIR* lir, int reg_id, bool is_load, bool is64bit);
Vladimir Marko8dea81c2014-06-06 14:50:36 +0100671 void SetupRegMask(ResourceMask* mask, int reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700672 void DumpLIRInsn(LIR* arg, unsigned char* base_addr);
673 void DumpPromotionMap();
674 void CodegenDump();
buzbee0d829482013-10-11 15:24:55 -0700675 LIR* RawLIR(DexOffset dalvik_offset, int opcode, int op0 = 0, int op1 = 0,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700676 int op2 = 0, int op3 = 0, int op4 = 0, LIR* target = NULL);
677 LIR* NewLIR0(int opcode);
678 LIR* NewLIR1(int opcode, int dest);
679 LIR* NewLIR2(int opcode, int dest, int src1);
Razvan A Lupusoru614c2b42014-01-28 17:05:21 -0800680 LIR* NewLIR2NoDest(int opcode, int src, int info);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700681 LIR* NewLIR3(int opcode, int dest, int src1, int src2);
682 LIR* NewLIR4(int opcode, int dest, int src1, int src2, int info);
683 LIR* NewLIR5(int opcode, int dest, int src1, int src2, int info1, int info2);
684 LIR* ScanLiteralPool(LIR* data_target, int value, unsigned int delta);
685 LIR* ScanLiteralPoolWide(LIR* data_target, int val_lo, int val_hi);
Vladimir Markoa51a0b02014-05-21 12:08:39 +0100686 LIR* ScanLiteralPoolMethod(LIR* data_target, const MethodReference& method);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700687 LIR* AddWordData(LIR* *constant_list_p, int value);
688 LIR* AddWideData(LIR* *constant_list_p, int val_lo, int val_hi);
689 void ProcessSwitchTables();
690 void DumpSparseSwitchTable(const uint16_t* table);
691 void DumpPackedSwitchTable(const uint16_t* table);
buzbee0d829482013-10-11 15:24:55 -0700692 void MarkBoundary(DexOffset offset, const char* inst_str);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700693 void NopLIR(LIR* lir);
buzbee252254b2013-09-08 16:20:53 -0700694 void UnlinkLIR(LIR* lir);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700695 bool EvaluateBranch(Instruction::Code opcode, int src1, int src2);
696 bool IsInexpensiveConstant(RegLocation rl_src);
697 ConditionCode FlipComparisonOrder(ConditionCode before);
Vladimir Markoa1a70742014-03-03 10:28:05 +0000698 ConditionCode NegateComparison(ConditionCode before);
Mark Mendell55d0eac2014-02-06 11:02:52 -0800699 virtual void InstallLiteralPools();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700700 void InstallSwitchTables();
701 void InstallFillArrayData();
702 bool VerifyCatchEntries();
703 void CreateMappingTables();
704 void CreateNativeGcMap();
buzbee0d829482013-10-11 15:24:55 -0700705 int AssignLiteralOffset(CodeOffset offset);
706 int AssignSwitchTablesOffset(CodeOffset offset);
707 int AssignFillArrayDataOffset(CodeOffset offset);
708 LIR* InsertCaseLabel(DexOffset vaddr, int keyVal);
709 void MarkPackedCaseLabels(Mir2Lir::SwitchTable* tab_rec);
710 void MarkSparseCaseLabels(Mir2Lir::SwitchTable* tab_rec);
Mark Mendelle87f9b52014-04-30 14:13:18 -0400711
712 virtual void StartSlowPath(LIR *label) {}
713 virtual void BeginInvoke(CallInfo* info) {}
714 virtual void EndInvoke(CallInfo* info) {}
715
716
buzbee85089dd2014-05-25 15:10:52 -0700717 // Handle bookkeeping to convert a wide RegLocation to a narrow RegLocation. No code generated.
buzbee2700f7e2014-03-07 09:46:20 -0800718 RegLocation NarrowRegLoc(RegLocation loc);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700719
720 // Shared by all targets - implemented in local_optimizations.cc
buzbee2700f7e2014-03-07 09:46:20 -0800721 void ConvertMemOpIntoMove(LIR* orig_lir, RegStorage dest, RegStorage src);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700722 void ApplyLoadStoreElimination(LIR* head_lir, LIR* tail_lir);
723 void ApplyLoadHoisting(LIR* head_lir, LIR* tail_lir);
Mark Mendelle87f9b52014-04-30 14:13:18 -0400724 virtual void ApplyLocalOptimizations(LIR* head_lir, LIR* tail_lir);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700725
726 // Shared by all targets - implemented in ralloc_util.cc
727 int GetSRegHi(int lowSreg);
buzbee091cc402014-03-31 10:14:40 -0700728 bool LiveOut(int s_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700729 void SimpleRegAlloc();
730 void ResetRegPool();
buzbee091cc402014-03-31 10:14:40 -0700731 void CompilerInitPool(RegisterInfo* info, RegStorage* regs, int num);
732 void DumpRegPool(GrowableArray<RegisterInfo*>* regs);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700733 void DumpCoreRegPool();
734 void DumpFpRegPool();
buzbee091cc402014-03-31 10:14:40 -0700735 void DumpRegPools();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700736 /* Mark a temp register as dead. Does not affect allocation state. */
buzbee2700f7e2014-03-07 09:46:20 -0800737 void Clobber(RegStorage reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700738 void ClobberSReg(int s_reg);
buzbee642fe342014-05-23 16:04:08 -0700739 void ClobberAliases(RegisterInfo* info, uint32_t clobber_mask);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700740 int SRegToPMap(int s_reg);
buzbee2700f7e2014-03-07 09:46:20 -0800741 void RecordCorePromotion(RegStorage reg, int s_reg);
742 RegStorage AllocPreservedCoreReg(int s_reg);
buzbeeb5860fb2014-06-21 15:31:01 -0700743 void RecordFpPromotion(RegStorage reg, int s_reg);
744 RegStorage AllocPreservedFpReg(int s_reg);
745 virtual RegStorage AllocPreservedSingle(int s_reg);
buzbee091cc402014-03-31 10:14:40 -0700746 virtual RegStorage AllocPreservedDouble(int s_reg);
747 RegStorage AllocTempBody(GrowableArray<RegisterInfo*> &regs, int* next_temp, bool required);
Mark Mendelle87f9b52014-04-30 14:13:18 -0400748 virtual RegStorage AllocFreeTemp();
749 virtual RegStorage AllocTemp();
buzbeeb01bf152014-05-13 15:59:07 -0700750 virtual RegStorage AllocTempWide();
buzbeea0cd2d72014-06-01 09:33:49 -0700751 virtual RegStorage AllocTempRef();
Mark Mendelle87f9b52014-04-30 14:13:18 -0400752 virtual RegStorage AllocTempSingle();
753 virtual RegStorage AllocTempDouble();
buzbeeb01bf152014-05-13 15:59:07 -0700754 virtual RegStorage AllocTypedTemp(bool fp_hint, int reg_class);
755 virtual RegStorage AllocTypedTempWide(bool fp_hint, int reg_class);
buzbee091cc402014-03-31 10:14:40 -0700756 void FlushReg(RegStorage reg);
757 void FlushRegWide(RegStorage reg);
758 RegStorage AllocLiveReg(int s_reg, int reg_class, bool wide);
759 RegStorage FindLiveReg(GrowableArray<RegisterInfo*> &regs, int s_reg);
Mark Mendelle87f9b52014-04-30 14:13:18 -0400760 virtual void FreeTemp(RegStorage reg);
761 virtual void FreeRegLocTemps(RegLocation rl_keep, RegLocation rl_free);
762 virtual bool IsLive(RegStorage reg);
763 virtual bool IsTemp(RegStorage reg);
buzbee262b2992014-03-27 11:22:43 -0700764 bool IsPromoted(RegStorage reg);
buzbee2700f7e2014-03-07 09:46:20 -0800765 bool IsDirty(RegStorage reg);
buzbee2700f7e2014-03-07 09:46:20 -0800766 void LockTemp(RegStorage reg);
buzbee2700f7e2014-03-07 09:46:20 -0800767 void ResetDef(RegStorage reg);
buzbee091cc402014-03-31 10:14:40 -0700768 void NullifyRange(RegStorage reg, int s_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700769 void MarkDef(RegLocation rl, LIR *start, LIR *finish);
770 void MarkDefWide(RegLocation rl, LIR *start, LIR *finish);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700771 void ResetDefLoc(RegLocation rl);
buzbee091cc402014-03-31 10:14:40 -0700772 void ResetDefLocWide(RegLocation rl);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700773 void ResetDefTracking();
buzbeeba574512014-05-12 15:13:16 -0700774 void ClobberAllTemps();
Razvan A Lupusoru614c2b42014-01-28 17:05:21 -0800775 void FlushSpecificReg(RegisterInfo* info);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700776 void FlushAllRegs();
buzbee2700f7e2014-03-07 09:46:20 -0800777 bool RegClassMatches(int reg_class, RegStorage reg);
buzbee091cc402014-03-31 10:14:40 -0700778 void MarkLive(RegLocation loc);
buzbee2700f7e2014-03-07 09:46:20 -0800779 void MarkTemp(RegStorage reg);
buzbee2700f7e2014-03-07 09:46:20 -0800780 void UnmarkTemp(RegStorage reg);
buzbee091cc402014-03-31 10:14:40 -0700781 void MarkWide(RegStorage reg);
buzbee082833c2014-05-17 23:16:26 -0700782 void MarkNarrow(RegStorage reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700783 void MarkClean(RegLocation loc);
784 void MarkDirty(RegLocation loc);
buzbee2700f7e2014-03-07 09:46:20 -0800785 void MarkInUse(RegStorage reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700786 bool CheckCorePoolSanity();
Mark Mendelle87f9b52014-04-30 14:13:18 -0400787 virtual RegLocation UpdateLoc(RegLocation loc);
788 virtual RegLocation UpdateLocWide(RegLocation loc);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700789 RegLocation UpdateRawLoc(RegLocation loc);
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800790
791 /**
Vladimir Marko0dc242d2014-05-12 16:22:14 +0100792 * @brief Used to prepare a register location to receive a wide value.
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800793 * @see EvalLoc
Vladimir Marko0dc242d2014-05-12 16:22:14 +0100794 * @param loc the location where the value will be stored.
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800795 * @param reg_class Type of register needed.
796 * @param update Whether the liveness information should be updated.
797 * @return Returns the properly typed temporary in physical register pairs.
798 */
Mark Mendelle87f9b52014-04-30 14:13:18 -0400799 virtual RegLocation EvalLocWide(RegLocation loc, int reg_class, bool update);
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800800
801 /**
Vladimir Marko0dc242d2014-05-12 16:22:14 +0100802 * @brief Used to prepare a register location to receive a value.
803 * @param loc the location where the value will be stored.
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800804 * @param reg_class Type of register needed.
805 * @param update Whether the liveness information should be updated.
806 * @return Returns the properly typed temporary in physical register.
807 */
Mark Mendelle87f9b52014-04-30 14:13:18 -0400808 virtual RegLocation EvalLoc(RegLocation loc, int reg_class, bool update);
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800809
buzbeec729a6b2013-09-14 16:04:31 -0700810 void CountRefs(RefCounts* core_counts, RefCounts* fp_counts, size_t num_regs);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700811 void DumpCounts(const RefCounts* arr, int size, const char* msg);
812 void DoPromotion();
813 int VRegOffset(int v_reg);
814 int SRegOffset(int s_reg);
buzbeea0cd2d72014-06-01 09:33:49 -0700815 RegLocation GetReturnWide(RegisterClass reg_class);
816 RegLocation GetReturn(RegisterClass reg_class);
buzbee091cc402014-03-31 10:14:40 -0700817 RegisterInfo* GetRegInfo(RegStorage reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700818
819 // Shared by all targets - implemented in gen_common.cc.
Mingyao Yang3a74d152014-04-21 15:39:44 -0700820 void AddIntrinsicSlowPath(CallInfo* info, LIR* branch, LIR* resume = nullptr);
Matteo Franchinc61b3c92014-06-18 11:52:47 +0100821 virtual bool HandleEasyDivRem(Instruction::Code dalvik_opcode, bool is_div,
822 RegLocation rl_src, RegLocation rl_dest, int lit);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700823 bool HandleEasyMultiply(RegLocation rl_src, RegLocation rl_dest, int lit);
Mark Mendelle87f9b52014-04-30 14:13:18 -0400824 virtual void HandleSlowPaths();
Brian Carlstrom7940e442013-07-12 13:46:57 -0700825 void GenBarrier();
Mingyao Yange643a172014-04-08 11:02:52 -0700826 void GenDivZeroException();
827 // c_code holds condition code that's generated from testing divisor against 0.
828 void GenDivZeroCheck(ConditionCode c_code);
829 // reg holds divisor.
830 void GenDivZeroCheck(RegStorage reg);
Mingyao Yang80365d92014-04-18 12:10:58 -0700831 void GenArrayBoundsCheck(RegStorage index, RegStorage length);
832 void GenArrayBoundsCheck(int32_t index, RegStorage length);
Mingyao Yange643a172014-04-08 11:02:52 -0700833 LIR* GenNullCheck(RegStorage reg);
Dave Allisonb373e092014-02-20 16:06:36 -0800834 void MarkPossibleNullPointerException(int opt_flags);
Andreas Gampe3c12c512014-06-24 18:46:29 +0000835 void MarkPossibleNullPointerExceptionAfter(int opt_flags, LIR* after);
Dave Allisonb373e092014-02-20 16:06:36 -0800836 void MarkPossibleStackOverflowException();
buzbee2700f7e2014-03-07 09:46:20 -0800837 void ForceImplicitNullCheck(RegStorage reg, int opt_flags);
838 LIR* GenImmedCheck(ConditionCode c_code, RegStorage reg, int imm_val, ThrowKind kind);
839 LIR* GenNullCheck(RegStorage m_reg, int opt_flags);
Dave Allisonf9439142014-03-27 15:10:22 -0700840 LIR* GenExplicitNullCheck(RegStorage m_reg, int opt_flags);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700841 void GenCompareAndBranch(Instruction::Code opcode, RegLocation rl_src1,
842 RegLocation rl_src2, LIR* taken, LIR* fall_through);
843 void GenCompareZeroAndBranch(Instruction::Code opcode, RegLocation rl_src,
844 LIR* taken, LIR* fall_through);
Serban Constantinescued65c5e2014-05-22 15:10:18 +0100845 virtual void GenIntToLong(RegLocation rl_dest, RegLocation rl_src);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700846 void GenIntNarrowing(Instruction::Code opcode, RegLocation rl_dest,
847 RegLocation rl_src);
848 void GenNewArray(uint32_t type_idx, RegLocation rl_dest,
849 RegLocation rl_src);
850 void GenFilledNewArray(CallInfo* info);
Vladimir Markobe0e5462014-02-26 11:24:15 +0000851 void GenSput(MIR* mir, RegLocation rl_src,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700852 bool is_long_or_double, bool is_object);
Vladimir Markobe0e5462014-02-26 11:24:15 +0000853 void GenSget(MIR* mir, RegLocation rl_dest,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700854 bool is_long_or_double, bool is_object);
Vladimir Markobe0e5462014-02-26 11:24:15 +0000855 void GenIGet(MIR* mir, int opt_flags, OpSize size,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700856 RegLocation rl_dest, RegLocation rl_obj, bool is_long_or_double, bool is_object);
Vladimir Markobe0e5462014-02-26 11:24:15 +0000857 void GenIPut(MIR* mir, int opt_flags, OpSize size,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700858 RegLocation rl_src, RegLocation rl_obj, bool is_long_or_double, bool is_object);
Ian Rogersa9a82542013-10-04 11:17:26 -0700859 void GenArrayObjPut(int opt_flags, RegLocation rl_array, RegLocation rl_index,
860 RegLocation rl_src);
861
Brian Carlstrom7940e442013-07-12 13:46:57 -0700862 void GenConstClass(uint32_t type_idx, RegLocation rl_dest);
863 void GenConstString(uint32_t string_idx, RegLocation rl_dest);
864 void GenNewInstance(uint32_t type_idx, RegLocation rl_dest);
865 void GenThrow(RegLocation rl_src);
buzbee2700f7e2014-03-07 09:46:20 -0800866 void GenInstanceof(uint32_t type_idx, RegLocation rl_dest, RegLocation rl_src);
867 void GenCheckCast(uint32_t insn_idx, uint32_t type_idx, RegLocation rl_src);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700868 void GenLong3Addr(OpKind first_op, OpKind second_op, RegLocation rl_dest,
869 RegLocation rl_src1, RegLocation rl_src2);
Serban Constantinescued65c5e2014-05-22 15:10:18 +0100870 virtual void GenShiftOpLong(Instruction::Code opcode, RegLocation rl_dest,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700871 RegLocation rl_src1, RegLocation rl_shift);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700872 void GenArithOpIntLit(Instruction::Code opcode, RegLocation rl_dest,
873 RegLocation rl_src, int lit);
874 void GenArithOpLong(Instruction::Code opcode, RegLocation rl_dest,
875 RegLocation rl_src1, RegLocation rl_src2);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700876 template <size_t pointer_size>
877 void GenConversionCall(ThreadOffset<pointer_size> func_offset, RegLocation rl_dest,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700878 RegLocation rl_src);
Mark Mendelle87f9b52014-04-30 14:13:18 -0400879 virtual void GenSuspendTest(int opt_flags);
880 virtual void GenSuspendTestAndBranch(int opt_flags, LIR* target);
Mark Mendellfeb2b4e2014-01-28 12:59:49 -0800881
Bill Buzbeed61ba4b2014-01-13 21:44:01 +0000882 // This will be overridden by x86 implementation.
883 virtual void GenConstWide(RegLocation rl_dest, int64_t value);
Mark Mendellfeb2b4e2014-01-28 12:59:49 -0800884 virtual void GenArithOpInt(Instruction::Code opcode, RegLocation rl_dest,
885 RegLocation rl_src1, RegLocation rl_src2);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700886
887 // Shared by all targets - implemented in gen_invoke.cc.
Andreas Gampe2f244e92014-05-08 03:35:25 -0700888 template <size_t pointer_size>
889 LIR* CallHelper(RegStorage r_tgt, ThreadOffset<pointer_size> helper_offset, bool safepoint_pc,
Dave Allisond6ed6422014-04-09 23:36:15 +0000890 bool use_link = true);
891 RegStorage CallHelperSetup(ThreadOffset<4> helper_offset);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700892 RegStorage CallHelperSetup(ThreadOffset<8> helper_offset);
893 template <size_t pointer_size>
894 void CallRuntimeHelper(ThreadOffset<pointer_size> helper_offset, bool safepoint_pc);
895 template <size_t pointer_size>
896 void CallRuntimeHelperImm(ThreadOffset<pointer_size> helper_offset, int arg0, bool safepoint_pc);
897 template <size_t pointer_size>
898 void CallRuntimeHelperReg(ThreadOffset<pointer_size> helper_offset, RegStorage arg0, bool safepoint_pc);
899 template <size_t pointer_size>
900 void CallRuntimeHelperRegLocation(ThreadOffset<pointer_size> helper_offset, RegLocation arg0,
Ian Rogers468532e2013-08-05 10:56:33 -0700901 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700902 template <size_t pointer_size>
903 void CallRuntimeHelperImmImm(ThreadOffset<pointer_size> helper_offset, int arg0, int arg1,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700904 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700905 template <size_t pointer_size>
906 void CallRuntimeHelperImmRegLocation(ThreadOffset<pointer_size> helper_offset, int arg0,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700907 RegLocation arg1, bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700908 template <size_t pointer_size>
909 void CallRuntimeHelperRegLocationImm(ThreadOffset<pointer_size> helper_offset, RegLocation arg0,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700910 int arg1, bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700911 template <size_t pointer_size>
912 void CallRuntimeHelperImmReg(ThreadOffset<pointer_size> helper_offset, int arg0, RegStorage arg1,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700913 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700914 template <size_t pointer_size>
915 void CallRuntimeHelperRegImm(ThreadOffset<pointer_size> helper_offset, RegStorage arg0, int arg1,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700916 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700917 template <size_t pointer_size>
918 void CallRuntimeHelperImmMethod(ThreadOffset<pointer_size> helper_offset, int arg0,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700919 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700920 template <size_t pointer_size>
921 void CallRuntimeHelperRegMethod(ThreadOffset<pointer_size> helper_offset, RegStorage arg0,
Ian Rogersdd7624d2014-03-14 17:43:00 -0700922 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700923 template <size_t pointer_size>
924 void CallRuntimeHelperRegMethodRegLocation(ThreadOffset<pointer_size> helper_offset,
925 RegStorage arg0, RegLocation arg2, bool safepoint_pc);
926 template <size_t pointer_size>
927 void CallRuntimeHelperRegLocationRegLocation(ThreadOffset<pointer_size> helper_offset,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700928 RegLocation arg0, RegLocation arg1,
929 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700930 template <size_t pointer_size>
931 void CallRuntimeHelperRegReg(ThreadOffset<pointer_size> helper_offset, RegStorage arg0,
932 RegStorage arg1, bool safepoint_pc);
933 template <size_t pointer_size>
934 void CallRuntimeHelperRegRegImm(ThreadOffset<pointer_size> helper_offset, RegStorage arg0,
935 RegStorage arg1, int arg2, bool safepoint_pc);
936 template <size_t pointer_size>
937 void CallRuntimeHelperImmMethodRegLocation(ThreadOffset<pointer_size> helper_offset, int arg0,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700938 RegLocation arg2, bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700939 template <size_t pointer_size>
940 void CallRuntimeHelperImmMethodImm(ThreadOffset<pointer_size> helper_offset, int arg0, int arg2,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700941 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700942 template <size_t pointer_size>
943 void CallRuntimeHelperImmRegLocationRegLocation(ThreadOffset<pointer_size> helper_offset,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700944 int arg0, RegLocation arg1, RegLocation arg2,
945 bool safepoint_pc);
Andreas Gampe2f244e92014-05-08 03:35:25 -0700946 template <size_t pointer_size>
947 void CallRuntimeHelperRegLocationRegLocationRegLocation(ThreadOffset<pointer_size> helper_offset,
Ian Rogersa9a82542013-10-04 11:17:26 -0700948 RegLocation arg0, RegLocation arg1,
949 RegLocation arg2,
950 bool safepoint_pc);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700951 void GenInvoke(CallInfo* info);
Vladimir Marko3bc86152014-03-13 14:11:28 +0000952 void GenInvokeNoInline(CallInfo* info);
Matteo Franchine45fb9e2014-05-06 10:10:30 +0100953 virtual void FlushIns(RegLocation* ArgLocs, RegLocation rl_method);
Dmitry Petrochenko58994cd2014-05-17 01:02:18 +0700954 virtual int GenDalvikArgsNoRange(CallInfo* info, int call_state, LIR** pcrLabel,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700955 NextCallInsn next_call_insn,
956 const MethodReference& target_method,
957 uint32_t vtable_idx,
958 uintptr_t direct_code, uintptr_t direct_method, InvokeType type,
959 bool skip_this);
Dmitry Petrochenko58994cd2014-05-17 01:02:18 +0700960 virtual int GenDalvikArgsRange(CallInfo* info, int call_state, LIR** pcrLabel,
Brian Carlstrom7940e442013-07-12 13:46:57 -0700961 NextCallInsn next_call_insn,
962 const MethodReference& target_method,
963 uint32_t vtable_idx,
964 uintptr_t direct_code, uintptr_t direct_method, InvokeType type,
965 bool skip_this);
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800966
967 /**
968 * @brief Used to determine the register location of destination.
Ian Rogersdd7624d2014-03-14 17:43:00 -0700969 * @details This is needed during generation of inline intrinsics because it finds destination
970 * of return,
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800971 * either the physical register or the target of move-result.
972 * @param info Information about the invoke.
973 * @return Returns the destination location.
974 */
Brian Carlstrom7940e442013-07-12 13:46:57 -0700975 RegLocation InlineTarget(CallInfo* info);
Razvan A Lupusorubd288c22013-12-20 17:27:23 -0800976
977 /**
978 * @brief Used to determine the wide register location of destination.
979 * @see InlineTarget
980 * @param info Information about the invoke.
981 * @return Returns the destination location.
982 */
Brian Carlstrom7940e442013-07-12 13:46:57 -0700983 RegLocation InlineTargetWide(CallInfo* info);
984
985 bool GenInlinedCharAt(CallInfo* info);
986 bool GenInlinedStringIsEmptyOrLength(CallInfo* info, bool is_empty);
Serban Constantinescu23abec92014-07-02 16:13:38 +0100987 virtual bool GenInlinedReverseBits(CallInfo* info, OpSize size);
Vladimir Marko6bdf1ff2013-10-29 17:40:46 +0000988 bool GenInlinedReverseBytes(CallInfo* info, OpSize size);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700989 bool GenInlinedAbsInt(CallInfo* info);
Serban Constantinescu169489b2014-06-11 16:43:35 +0100990 virtual bool GenInlinedAbsLong(CallInfo* info);
Yixin Shou7071c8d2014-03-05 06:07:48 -0500991 virtual bool GenInlinedAbsFloat(CallInfo* info);
992 virtual bool GenInlinedAbsDouble(CallInfo* info);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700993 bool GenInlinedFloatCvt(CallInfo* info);
994 bool GenInlinedDoubleCvt(CallInfo* info);
DaniilSokolov70c4f062014-06-24 17:34:00 -0700995 virtual bool GenInlinedArrayCopyCharArray(CallInfo* info);
Mark Mendell4028a6c2014-02-19 20:06:20 -0800996 virtual bool GenInlinedIndexOf(CallInfo* info, bool zero_based);
Brian Carlstrom7940e442013-07-12 13:46:57 -0700997 bool GenInlinedStringCompareTo(CallInfo* info);
998 bool GenInlinedCurrentThread(CallInfo* info);
999 bool GenInlinedUnsafeGet(CallInfo* info, bool is_long, bool is_volatile);
1000 bool GenInlinedUnsafePut(CallInfo* info, bool is_long, bool is_object,
1001 bool is_volatile, bool is_ordered);
Matteo Franchine45fb9e2014-05-06 10:10:30 +01001002 virtual int LoadArgRegs(CallInfo* info, int call_state,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001003 NextCallInsn next_call_insn,
1004 const MethodReference& target_method,
1005 uint32_t vtable_idx,
1006 uintptr_t direct_code, uintptr_t direct_method, InvokeType type,
1007 bool skip_this);
1008
1009 // Shared by all targets - implemented in gen_loadstore.cc.
1010 RegLocation LoadCurrMethod();
buzbee2700f7e2014-03-07 09:46:20 -08001011 void LoadCurrMethodDirect(RegStorage r_tgt);
Mark Mendelle87f9b52014-04-30 14:13:18 -04001012 virtual LIR* LoadConstant(RegStorage r_dest, int value);
buzbee695d13a2014-04-19 13:32:20 -07001013 // Natural word size.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001014 virtual LIR* LoadWordDisp(RegStorage r_base, int displacement, RegStorage r_dest) {
Andreas Gampe3c12c512014-06-24 18:46:29 +00001015 return LoadBaseDisp(r_base, displacement, r_dest, kWord, kNotVolatile);
buzbee695d13a2014-04-19 13:32:20 -07001016 }
1017 // Load 32 bits, regardless of target.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001018 virtual LIR* Load32Disp(RegStorage r_base, int displacement, RegStorage r_dest) {
Andreas Gampe3c12c512014-06-24 18:46:29 +00001019 return LoadBaseDisp(r_base, displacement, r_dest, k32, kNotVolatile);
buzbee695d13a2014-04-19 13:32:20 -07001020 }
1021 // Load a reference at base + displacement and decompress into register.
Andreas Gampe3c12c512014-06-24 18:46:29 +00001022 virtual LIR* LoadRefDisp(RegStorage r_base, int displacement, RegStorage r_dest,
1023 VolatileKind is_volatile) {
1024 return LoadBaseDisp(r_base, displacement, r_dest, kReference, is_volatile);
1025 }
1026 // Load a reference at base + index and decompress into register.
Matteo Franchin255e0142014-07-04 13:50:41 +01001027 virtual LIR* LoadRefIndexed(RegStorage r_base, RegStorage r_index, RegStorage r_dest,
1028 int scale) {
1029 return LoadBaseIndexed(r_base, r_index, r_dest, scale, kReference);
buzbee695d13a2014-04-19 13:32:20 -07001030 }
1031 // Load Dalvik value with 32-bit memory storage. If compressed object reference, decompress.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001032 virtual RegLocation LoadValue(RegLocation rl_src, RegisterClass op_kind);
buzbeea0cd2d72014-06-01 09:33:49 -07001033 // Same as above, but derive the target register class from the location record.
1034 virtual RegLocation LoadValue(RegLocation rl_src);
buzbee695d13a2014-04-19 13:32:20 -07001035 // Load Dalvik value with 64-bit memory storage.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001036 virtual RegLocation LoadValueWide(RegLocation rl_src, RegisterClass op_kind);
buzbee695d13a2014-04-19 13:32:20 -07001037 // Load Dalvik value with 32-bit memory storage. If compressed object reference, decompress.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001038 virtual void LoadValueDirect(RegLocation rl_src, RegStorage r_dest);
buzbee695d13a2014-04-19 13:32:20 -07001039 // Load Dalvik value with 32-bit memory storage. If compressed object reference, decompress.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001040 virtual void LoadValueDirectFixed(RegLocation rl_src, RegStorage r_dest);
buzbee695d13a2014-04-19 13:32:20 -07001041 // Load Dalvik value with 64-bit memory storage.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001042 virtual void LoadValueDirectWide(RegLocation rl_src, RegStorage r_dest);
buzbee695d13a2014-04-19 13:32:20 -07001043 // Load Dalvik value with 64-bit memory storage.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001044 virtual void LoadValueDirectWideFixed(RegLocation rl_src, RegStorage r_dest);
buzbee695d13a2014-04-19 13:32:20 -07001045 // Store an item of natural word size.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001046 virtual LIR* StoreWordDisp(RegStorage r_base, int displacement, RegStorage r_src) {
Andreas Gampe3c12c512014-06-24 18:46:29 +00001047 return StoreBaseDisp(r_base, displacement, r_src, kWord, kNotVolatile);
buzbee695d13a2014-04-19 13:32:20 -07001048 }
1049 // Store an uncompressed reference into a compressed 32-bit container.
Andreas Gampe3c12c512014-06-24 18:46:29 +00001050 virtual LIR* StoreRefDisp(RegStorage r_base, int displacement, RegStorage r_src,
1051 VolatileKind is_volatile) {
1052 return StoreBaseDisp(r_base, displacement, r_src, kReference, is_volatile);
1053 }
1054 // Store an uncompressed reference into a compressed 32-bit container by index.
Matteo Franchin255e0142014-07-04 13:50:41 +01001055 virtual LIR* StoreRefIndexed(RegStorage r_base, RegStorage r_index, RegStorage r_src,
1056 int scale) {
1057 return StoreBaseIndexed(r_base, r_index, r_src, scale, kReference);
buzbee695d13a2014-04-19 13:32:20 -07001058 }
1059 // Store 32 bits, regardless of target.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001060 virtual LIR* Store32Disp(RegStorage r_base, int displacement, RegStorage r_src) {
Andreas Gampe3c12c512014-06-24 18:46:29 +00001061 return StoreBaseDisp(r_base, displacement, r_src, k32, kNotVolatile);
buzbee695d13a2014-04-19 13:32:20 -07001062 }
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001063
1064 /**
1065 * @brief Used to do the final store in the destination as per bytecode semantics.
1066 * @param rl_dest The destination dalvik register location.
1067 * @param rl_src The source register location. Can be either physical register or dalvik register.
1068 */
Mark Mendelle87f9b52014-04-30 14:13:18 -04001069 virtual void StoreValue(RegLocation rl_dest, RegLocation rl_src);
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001070
1071 /**
1072 * @brief Used to do the final store in a wide destination as per bytecode semantics.
1073 * @see StoreValue
1074 * @param rl_dest The destination dalvik register location.
Ian Rogersdd7624d2014-03-14 17:43:00 -07001075 * @param rl_src The source register location. Can be either physical register or dalvik
1076 * register.
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001077 */
Mark Mendelle87f9b52014-04-30 14:13:18 -04001078 virtual void StoreValueWide(RegLocation rl_dest, RegLocation rl_src);
Brian Carlstrom7940e442013-07-12 13:46:57 -07001079
Mark Mendelle02d48f2014-01-15 11:19:23 -08001080 /**
Mark Mendellfeb2b4e2014-01-28 12:59:49 -08001081 * @brief Used to do the final store to a destination as per bytecode semantics.
1082 * @see StoreValue
1083 * @param rl_dest The destination dalvik register location.
1084 * @param rl_src The source register location. It must be kLocPhysReg
1085 *
1086 * This is used for x86 two operand computations, where we have computed the correct
1087 * register value that now needs to be properly registered. This is used to avoid an
1088 * extra register copy that would result if StoreValue was called.
1089 */
Mark Mendelle87f9b52014-04-30 14:13:18 -04001090 virtual void StoreFinalValue(RegLocation rl_dest, RegLocation rl_src);
Mark Mendellfeb2b4e2014-01-28 12:59:49 -08001091
1092 /**
Mark Mendelle02d48f2014-01-15 11:19:23 -08001093 * @brief Used to do the final store in a wide destination as per bytecode semantics.
1094 * @see StoreValueWide
1095 * @param rl_dest The destination dalvik register location.
1096 * @param rl_src The source register location. It must be kLocPhysReg
1097 *
1098 * This is used for x86 two operand computations, where we have computed the correct
1099 * register values that now need to be properly registered. This is used to avoid an
1100 * extra pair of register copies that would result if StoreValueWide was called.
1101 */
Mark Mendelle87f9b52014-04-30 14:13:18 -04001102 virtual void StoreFinalValueWide(RegLocation rl_dest, RegLocation rl_src);
Mark Mendelle02d48f2014-01-15 11:19:23 -08001103
Brian Carlstrom7940e442013-07-12 13:46:57 -07001104 // Shared by all targets - implemented in mir_to_lir.cc.
1105 void CompileDalvikInstruction(MIR* mir, BasicBlock* bb, LIR* label_list);
Mark Mendelle87f9b52014-04-30 14:13:18 -04001106 virtual void HandleExtendedMethodMIR(BasicBlock* bb, MIR* mir);
Brian Carlstrom7940e442013-07-12 13:46:57 -07001107 bool MethodBlockCodeGen(BasicBlock* bb);
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -08001108 bool SpecialMIR2LIR(const InlineMethod& special);
Mark Mendelle87f9b52014-04-30 14:13:18 -04001109 virtual void MethodMIR2LIR();
buzbee7a11ab02014-04-28 20:02:38 -07001110 // Update LIR for verbose listings.
1111 void UpdateLIROffsets();
Brian Carlstrom7940e442013-07-12 13:46:57 -07001112
Mark Mendell55d0eac2014-02-06 11:02:52 -08001113 /*
1114 * @brief Load the address of the dex method into the register.
Jeff Hao49161ce2014-03-12 11:05:25 -07001115 * @param target_method The MethodReference of the method to be invoked.
Mark Mendell55d0eac2014-02-06 11:02:52 -08001116 * @param type How the method will be invoked.
1117 * @param register that will contain the code address.
1118 * @note register will be passed to TargetReg to get physical register.
1119 */
Jeff Hao49161ce2014-03-12 11:05:25 -07001120 void LoadCodeAddress(const MethodReference& target_method, InvokeType type,
Mark Mendell55d0eac2014-02-06 11:02:52 -08001121 SpecialTargetRegister symbolic_reg);
1122
1123 /*
1124 * @brief Load the Method* of a dex method into the register.
Jeff Hao49161ce2014-03-12 11:05:25 -07001125 * @param target_method The MethodReference of the method to be invoked.
Mark Mendell55d0eac2014-02-06 11:02:52 -08001126 * @param type How the method will be invoked.
1127 * @param register that will contain the code address.
1128 * @note register will be passed to TargetReg to get physical register.
1129 */
Jeff Hao49161ce2014-03-12 11:05:25 -07001130 virtual void LoadMethodAddress(const MethodReference& target_method, InvokeType type,
Mark Mendell55d0eac2014-02-06 11:02:52 -08001131 SpecialTargetRegister symbolic_reg);
1132
1133 /*
1134 * @brief Load the Class* of a Dex Class type into the register.
1135 * @param type How the method will be invoked.
1136 * @param register that will contain the code address.
1137 * @note register will be passed to TargetReg to get physical register.
1138 */
1139 virtual void LoadClassType(uint32_t type_idx, SpecialTargetRegister symbolic_reg);
1140
Mark Mendell766e9292014-01-27 07:55:47 -08001141 // Routines that work for the generic case, but may be overriden by target.
1142 /*
1143 * @brief Compare memory to immediate, and branch if condition true.
1144 * @param cond The condition code that when true will branch to the target.
1145 * @param temp_reg A temporary register that can be used if compare to memory is not
1146 * supported by the architecture.
1147 * @param base_reg The register holding the base address.
1148 * @param offset The offset from the base.
1149 * @param check_value The immediate to compare to.
1150 * @returns The branch instruction that was generated.
1151 */
buzbee2700f7e2014-03-07 09:46:20 -08001152 virtual LIR* OpCmpMemImmBranch(ConditionCode cond, RegStorage temp_reg, RegStorage base_reg,
Dave Allison3d14eb62014-07-10 01:54:57 +00001153 int offset, int check_value, LIR* target);
Brian Carlstrom7940e442013-07-12 13:46:57 -07001154
1155 // Required for target - codegen helpers.
buzbee11b63d12013-08-27 07:34:17 -07001156 virtual bool SmallLiteralDivRem(Instruction::Code dalvik_opcode, bool is_div,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001157 RegLocation rl_src, RegLocation rl_dest, int lit) = 0;
Ian Rogerse2143c02014-03-28 08:47:16 -07001158 virtual bool EasyMultiply(RegLocation rl_src, RegLocation rl_dest, int lit) = 0;
Dave Allisonb373e092014-02-20 16:06:36 -08001159 virtual LIR* CheckSuspendUsingLoad() = 0;
Andreas Gampe2f244e92014-05-08 03:35:25 -07001160
Ian Rogersdd7624d2014-03-14 17:43:00 -07001161 virtual RegStorage LoadHelper(ThreadOffset<4> offset) = 0;
Andreas Gampe2f244e92014-05-08 03:35:25 -07001162 virtual RegStorage LoadHelper(ThreadOffset<8> offset) = 0;
1163
Vladimir Marko3bf7c602014-05-07 14:55:43 +01001164 virtual LIR* LoadBaseDisp(RegStorage r_base, int displacement, RegStorage r_dest,
Andreas Gampe3c12c512014-06-24 18:46:29 +00001165 OpSize size, VolatileKind is_volatile) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001166 virtual LIR* LoadBaseIndexed(RegStorage r_base, RegStorage r_index, RegStorage r_dest,
1167 int scale, OpSize size) = 0;
1168 virtual LIR* LoadBaseIndexedDisp(RegStorage r_base, RegStorage r_index, int scale,
Vladimir Marko3bf7c602014-05-07 14:55:43 +01001169 int displacement, RegStorage r_dest, OpSize size) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001170 virtual LIR* LoadConstantNoClobber(RegStorage r_dest, int value) = 0;
1171 virtual LIR* LoadConstantWide(RegStorage r_dest, int64_t value) = 0;
1172 virtual LIR* StoreBaseDisp(RegStorage r_base, int displacement, RegStorage r_src,
Andreas Gampe3c12c512014-06-24 18:46:29 +00001173 OpSize size, VolatileKind is_volatile) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001174 virtual LIR* StoreBaseIndexed(RegStorage r_base, RegStorage r_index, RegStorage r_src,
1175 int scale, OpSize size) = 0;
1176 virtual LIR* StoreBaseIndexedDisp(RegStorage r_base, RegStorage r_index, int scale,
Vladimir Marko3bf7c602014-05-07 14:55:43 +01001177 int displacement, RegStorage r_src, OpSize size) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001178 virtual void MarkGCCard(RegStorage val_reg, RegStorage tgt_addr_reg) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001179
1180 // Required for target - register utilities.
Andreas Gampe4b537a82014-06-30 22:24:53 -07001181
buzbeeb5860fb2014-06-21 15:31:01 -07001182 bool IsSameReg(RegStorage reg1, RegStorage reg2) {
1183 RegisterInfo* info1 = GetRegInfo(reg1);
1184 RegisterInfo* info2 = GetRegInfo(reg2);
1185 return (info1->Master() == info2->Master() &&
1186 (info1->StorageMask() & info2->StorageMask()) != 0);
1187 }
1188
Andreas Gampe4b537a82014-06-30 22:24:53 -07001189 /**
1190 * @brief Portable way of getting special registers from the backend.
1191 * @param reg Enumeration describing the purpose of the register.
1192 * @return Return the #RegStorage corresponding to the given purpose @p reg.
1193 * @note This function is currently allowed to return any suitable view of the registers
1194 * (e.g. this could be 64-bit solo or 32-bit solo for 64-bit backends).
1195 */
buzbee2700f7e2014-03-07 09:46:20 -08001196 virtual RegStorage TargetReg(SpecialTargetRegister reg) = 0;
Andreas Gampe4b537a82014-06-30 22:24:53 -07001197
1198 /**
1199 * @brief Portable way of getting special registers from the backend.
1200 * @param reg Enumeration describing the purpose of the register.
1201 * @param is_wide Whether the view should be 64-bit (rather than 32-bit).
1202 * @return Return the #RegStorage corresponding to the given purpose @p reg.
1203 */
1204 virtual RegStorage TargetReg(SpecialTargetRegister reg, bool is_wide) {
1205 return TargetReg(reg);
1206 }
1207
1208 /**
Chao-ying Fua77ee512014-07-01 17:43:41 -07001209 * @brief Portable way of getting special register pair from the backend.
1210 * @param reg Enumeration describing the purpose of the first register.
1211 * @param reg Enumeration describing the purpose of the second register.
1212 * @return Return the #RegStorage corresponding to the given purpose @p reg.
1213 */
1214 virtual RegStorage TargetReg(SpecialTargetRegister reg1, SpecialTargetRegister reg2) {
1215 return RegStorage::MakeRegPair(TargetReg(reg1, false), TargetReg(reg2, false));
1216 }
1217
1218 /**
Andreas Gampe4b537a82014-06-30 22:24:53 -07001219 * @brief Portable way of getting a special register for storing a reference.
1220 * @see TargetReg()
1221 */
1222 virtual RegStorage TargetRefReg(SpecialTargetRegister reg) {
1223 return TargetReg(reg);
1224 }
1225
Chao-ying Fua77ee512014-07-01 17:43:41 -07001226 /**
1227 * @brief Portable way of getting a special register for storing a pointer.
1228 * @see TargetReg()
1229 */
1230 virtual RegStorage TargetPtrReg(SpecialTargetRegister reg) {
1231 return TargetReg(reg);
1232 }
1233
Andreas Gampe4b537a82014-06-30 22:24:53 -07001234 // Get a reg storage corresponding to the wide & ref flags of the reg location.
1235 virtual RegStorage TargetReg(SpecialTargetRegister reg, RegLocation loc) {
1236 if (loc.ref) {
1237 return TargetRefReg(reg);
1238 } else {
1239 return TargetReg(reg, loc.wide);
1240 }
1241 }
1242
buzbee2700f7e2014-03-07 09:46:20 -08001243 virtual RegStorage GetArgMappingToPhysicalReg(int arg_num) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001244 virtual RegLocation GetReturnAlt() = 0;
1245 virtual RegLocation GetReturnWideAlt() = 0;
1246 virtual RegLocation LocCReturn() = 0;
buzbeea0cd2d72014-06-01 09:33:49 -07001247 virtual RegLocation LocCReturnRef() = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001248 virtual RegLocation LocCReturnDouble() = 0;
1249 virtual RegLocation LocCReturnFloat() = 0;
1250 virtual RegLocation LocCReturnWide() = 0;
Vladimir Marko8dea81c2014-06-06 14:50:36 +01001251 virtual ResourceMask GetRegMaskCommon(const RegStorage& reg) const = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001252 virtual void AdjustSpillMask() = 0;
Vladimir Marko31c2aac2013-12-09 16:31:19 +00001253 virtual void ClobberCallerSave() = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001254 virtual void FreeCallTemps() = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001255 virtual void LockCallTemps() = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001256 virtual void CompilerInitializeRegAlloc() = 0;
1257
1258 // Required for target - miscellaneous.
buzbeeb48819d2013-09-14 16:15:25 -07001259 virtual void AssembleLIR() = 0;
Vladimir Marko8dea81c2014-06-06 14:50:36 +01001260 virtual void DumpResourceMask(LIR* lir, const ResourceMask& mask, const char* prefix) = 0;
1261 virtual void SetupTargetResourceMasks(LIR* lir, uint64_t flags,
1262 ResourceMask* use_mask, ResourceMask* def_mask) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001263 virtual const char* GetTargetInstFmt(int opcode) = 0;
1264 virtual const char* GetTargetInstName(int opcode) = 0;
1265 virtual std::string BuildInsnString(const char* fmt, LIR* lir, unsigned char* base_addr) = 0;
Vladimir Marko8dea81c2014-06-06 14:50:36 +01001266 virtual ResourceMask GetPCUseDefEncoding() const = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001267 virtual uint64_t GetTargetInstFlags(int opcode) = 0;
Ian Rogers5aa6e042014-06-13 16:38:24 -07001268 virtual size_t GetInsnSize(LIR* lir) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001269 virtual bool IsUnconditionalBranch(LIR* lir) = 0;
1270
Vladimir Marko674744e2014-04-24 15:18:26 +01001271 // Check support for volatile load/store of a given size.
1272 virtual bool SupportsVolatileLoadStore(OpSize size) = 0;
1273 // Get the register class for load/store of a field.
1274 virtual RegisterClass RegClassForFieldLoadStore(OpSize size, bool is_volatile) = 0;
1275
Brian Carlstrom7940e442013-07-12 13:46:57 -07001276 // Required for target - Dalvik-level generators.
1277 virtual void GenArithImmOpLong(Instruction::Code opcode, RegLocation rl_dest,
1278 RegLocation rl_src1, RegLocation rl_src2) = 0;
Mark Mendelle02d48f2014-01-15 11:19:23 -08001279 virtual void GenMulLong(Instruction::Code,
1280 RegLocation rl_dest, RegLocation rl_src1,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001281 RegLocation rl_src2) = 0;
Mark Mendelle02d48f2014-01-15 11:19:23 -08001282 virtual void GenAddLong(Instruction::Code,
1283 RegLocation rl_dest, RegLocation rl_src1,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001284 RegLocation rl_src2) = 0;
Mark Mendelle02d48f2014-01-15 11:19:23 -08001285 virtual void GenAndLong(Instruction::Code,
1286 RegLocation rl_dest, RegLocation rl_src1,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001287 RegLocation rl_src2) = 0;
1288 virtual void GenArithOpDouble(Instruction::Code opcode,
1289 RegLocation rl_dest, RegLocation rl_src1,
1290 RegLocation rl_src2) = 0;
1291 virtual void GenArithOpFloat(Instruction::Code opcode, RegLocation rl_dest,
1292 RegLocation rl_src1, RegLocation rl_src2) = 0;
1293 virtual void GenCmpFP(Instruction::Code opcode, RegLocation rl_dest,
1294 RegLocation rl_src1, RegLocation rl_src2) = 0;
1295 virtual void GenConversion(Instruction::Code opcode, RegLocation rl_dest,
1296 RegLocation rl_src) = 0;
Vladimir Marko1c282e22013-11-21 14:49:47 +00001297 virtual bool GenInlinedCas(CallInfo* info, bool is_long, bool is_object) = 0;
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001298
1299 /**
1300 * @brief Used to generate code for intrinsic java\.lang\.Math methods min and max.
1301 * @details This is also applicable for java\.lang\.StrictMath since it is a simple algorithm
1302 * that applies on integers. The generated code will write the smallest or largest value
1303 * directly into the destination register as specified by the invoke information.
1304 * @param info Information about the invoke.
1305 * @param is_min If true generates code that computes minimum. Otherwise computes maximum.
Serban Constantinescu23abec92014-07-02 16:13:38 +01001306 * @param is_long If true the value value is Long. Otherwise the value is Int.
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001307 * @return Returns true if successfully generated
1308 */
Serban Constantinescu23abec92014-07-02 16:13:38 +01001309 virtual bool GenInlinedMinMax(CallInfo* info, bool is_min, bool is_long) = 0;
1310 virtual bool GenInlinedMinMaxFP(CallInfo* info, bool is_min, bool is_double);
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001311
Brian Carlstrom7940e442013-07-12 13:46:57 -07001312 virtual bool GenInlinedSqrt(CallInfo* info) = 0;
Vladimir Markoe508a202013-11-04 15:24:22 +00001313 virtual bool GenInlinedPeek(CallInfo* info, OpSize size) = 0;
1314 virtual bool GenInlinedPoke(CallInfo* info, OpSize size) = 0;
Serban Constantinescued65c5e2014-05-22 15:10:18 +01001315 virtual void GenNotLong(RegLocation rl_dest, RegLocation rl_src) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001316 virtual void GenNegLong(RegLocation rl_dest, RegLocation rl_src) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001317 virtual void GenOrLong(Instruction::Code, RegLocation rl_dest, RegLocation rl_src1,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001318 RegLocation rl_src2) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001319 virtual void GenSubLong(Instruction::Code, RegLocation rl_dest, RegLocation rl_src1,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001320 RegLocation rl_src2) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001321 virtual void GenXorLong(Instruction::Code, RegLocation rl_dest, RegLocation rl_src1,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001322 RegLocation rl_src2) = 0;
Serban Constantinescued65c5e2014-05-22 15:10:18 +01001323 virtual void GenDivRemLong(Instruction::Code, RegLocation rl_dest, RegLocation rl_src1,
1324 RegLocation rl_src2, bool is_div) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001325 virtual RegLocation GenDivRem(RegLocation rl_dest, RegStorage reg_lo, RegStorage reg_hi,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001326 bool is_div) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001327 virtual RegLocation GenDivRemLit(RegLocation rl_dest, RegStorage reg_lo, int lit,
Brian Carlstrom7940e442013-07-12 13:46:57 -07001328 bool is_div) = 0;
Mark Mendell2bf31e62014-01-23 12:13:40 -08001329 /*
1330 * @brief Generate an integer div or rem operation by a literal.
1331 * @param rl_dest Destination Location.
1332 * @param rl_src1 Numerator Location.
1333 * @param rl_src2 Divisor Location.
1334 * @param is_div 'true' if this is a division, 'false' for a remainder.
1335 * @param check_zero 'true' if an exception should be generated if the divisor is 0.
1336 */
1337 virtual RegLocation GenDivRem(RegLocation rl_dest, RegLocation rl_src1,
1338 RegLocation rl_src2, bool is_div, bool check_zero) = 0;
1339 /*
1340 * @brief Generate an integer div or rem operation by a literal.
1341 * @param rl_dest Destination Location.
1342 * @param rl_src Numerator Location.
1343 * @param lit Divisor.
1344 * @param is_div 'true' if this is a division, 'false' for a remainder.
1345 */
buzbee2700f7e2014-03-07 09:46:20 -08001346 virtual RegLocation GenDivRemLit(RegLocation rl_dest, RegLocation rl_src1, int lit,
1347 bool is_div) = 0;
1348 virtual void GenCmpLong(RegLocation rl_dest, RegLocation rl_src1, RegLocation rl_src2) = 0;
Razvan A Lupusoru090dd442013-12-20 14:35:03 -08001349
1350 /**
1351 * @brief Used for generating code that throws ArithmeticException if both registers are zero.
Ian Rogersdd7624d2014-03-14 17:43:00 -07001352 * @details This is used for generating DivideByZero checks when divisor is held in two
1353 * separate registers.
Mingyao Yange643a172014-04-08 11:02:52 -07001354 * @param reg The register holding the pair of 32-bit values.
Razvan A Lupusoru090dd442013-12-20 14:35:03 -08001355 */
Mingyao Yange643a172014-04-08 11:02:52 -07001356 virtual void GenDivZeroCheckWide(RegStorage reg) = 0;
Razvan A Lupusoru090dd442013-12-20 14:35:03 -08001357
buzbee2700f7e2014-03-07 09:46:20 -08001358 virtual void GenEntrySequence(RegLocation* ArgLocs, RegLocation rl_method) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001359 virtual void GenExitSequence() = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001360 virtual void GenFillArrayData(DexOffset table_offset, RegLocation rl_src) = 0;
1361 virtual void GenFusedFPCmpBranch(BasicBlock* bb, MIR* mir, bool gt_bias, bool is_double) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001362 virtual void GenFusedLongCmpBranch(BasicBlock* bb, MIR* mir) = 0;
Razvan A Lupusorue27b3bf2014-01-23 09:41:45 -08001363
Mark Mendelld65c51a2014-04-29 16:55:20 -04001364 /*
1365 * @brief Handle Machine Specific MIR Extended opcodes.
1366 * @param bb The basic block in which the MIR is from.
1367 * @param mir The MIR whose opcode is not standard extended MIR.
1368 * @note Base class implementation will abort for unknown opcodes.
1369 */
1370 virtual void GenMachineSpecificExtendedMethodMIR(BasicBlock* bb, MIR* mir);
1371
Razvan A Lupusorue27b3bf2014-01-23 09:41:45 -08001372 /**
1373 * @brief Lowers the kMirOpSelect MIR into LIR.
1374 * @param bb The basic block in which the MIR is from.
1375 * @param mir The MIR whose opcode is kMirOpSelect.
1376 */
Brian Carlstrom7940e442013-07-12 13:46:57 -07001377 virtual void GenSelect(BasicBlock* bb, MIR* mir) = 0;
Razvan A Lupusorue27b3bf2014-01-23 09:41:45 -08001378
Razvan A Lupusoru99ad7232014-02-25 17:41:08 -08001379 /**
1380 * @brief Used to generate a memory barrier in an architecture specific way.
1381 * @details The last generated LIR will be considered for use as barrier. Namely,
1382 * if the last LIR can be updated in a way where it will serve the semantics of
1383 * barrier, then it will be used as such. Otherwise, a new LIR will be generated
1384 * that can keep the semantics.
1385 * @param barrier_kind The kind of memory barrier to generate.
Andreas Gampeb14329f2014-05-15 11:16:06 -07001386 * @return whether a new instruction was generated.
Razvan A Lupusoru99ad7232014-02-25 17:41:08 -08001387 */
Andreas Gampeb14329f2014-05-15 11:16:06 -07001388 virtual bool GenMemBarrier(MemBarrierKind barrier_kind) = 0;
Razvan A Lupusoru99ad7232014-02-25 17:41:08 -08001389
Brian Carlstrom7940e442013-07-12 13:46:57 -07001390 virtual void GenMoveException(RegLocation rl_dest) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001391 virtual void GenMultiplyByTwoBitMultiplier(RegLocation rl_src, RegLocation rl_result, int lit,
1392 int first_bit, int second_bit) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001393 virtual void GenNegDouble(RegLocation rl_dest, RegLocation rl_src) = 0;
1394 virtual void GenNegFloat(RegLocation rl_dest, RegLocation rl_src) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001395 virtual void GenPackedSwitch(MIR* mir, DexOffset table_offset, RegLocation rl_src) = 0;
1396 virtual void GenSparseSwitch(MIR* mir, DexOffset table_offset, RegLocation rl_src) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001397 virtual void GenArrayGet(int opt_flags, OpSize size, RegLocation rl_array,
1398 RegLocation rl_index, RegLocation rl_dest, int scale) = 0;
1399 virtual void GenArrayPut(int opt_flags, OpSize size, RegLocation rl_array,
Ian Rogersa9a82542013-10-04 11:17:26 -07001400 RegLocation rl_index, RegLocation rl_src, int scale,
1401 bool card_mark) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001402 virtual void GenShiftImmOpLong(Instruction::Code opcode, RegLocation rl_dest,
1403 RegLocation rl_src1, RegLocation rl_shift) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001404
1405 // Required for target - single operation generators.
1406 virtual LIR* OpUnconditionalBranch(LIR* target) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001407 virtual LIR* OpCmpBranch(ConditionCode cond, RegStorage src1, RegStorage src2, LIR* target) = 0;
1408 virtual LIR* OpCmpImmBranch(ConditionCode cond, RegStorage reg, int check_value,
1409 LIR* target) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001410 virtual LIR* OpCondBranch(ConditionCode cc, LIR* target) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001411 virtual LIR* OpDecAndBranch(ConditionCode c_code, RegStorage reg, LIR* target) = 0;
1412 virtual LIR* OpFpRegCopy(RegStorage r_dest, RegStorage r_src) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001413 virtual LIR* OpIT(ConditionCode cond, const char* guide) = 0;
Dave Allison3da67a52014-04-02 17:03:45 -07001414 virtual void OpEndIT(LIR* it) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001415 virtual LIR* OpMem(OpKind op, RegStorage r_base, int disp) = 0;
1416 virtual LIR* OpPcRelLoad(RegStorage reg, LIR* target) = 0;
1417 virtual LIR* OpReg(OpKind op, RegStorage r_dest_src) = 0;
buzbee7a11ab02014-04-28 20:02:38 -07001418 virtual void OpRegCopy(RegStorage r_dest, RegStorage r_src) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001419 virtual LIR* OpRegCopyNoInsert(RegStorage r_dest, RegStorage r_src) = 0;
1420 virtual LIR* OpRegImm(OpKind op, RegStorage r_dest_src1, int value) = 0;
1421 virtual LIR* OpRegMem(OpKind op, RegStorage r_dest, RegStorage r_base, int offset) = 0;
1422 virtual LIR* OpRegReg(OpKind op, RegStorage r_dest_src1, RegStorage r_src2) = 0;
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001423
1424 /**
Razvan A Lupusoru2c498d12014-01-29 16:02:57 -08001425 * @brief Used to generate an LIR that does a load from mem to reg.
1426 * @param r_dest The destination physical register.
1427 * @param r_base The base physical register for memory operand.
1428 * @param offset The displacement for memory operand.
1429 * @param move_type Specification on the move desired (size, alignment, register kind).
1430 * @return Returns the generate move LIR.
1431 */
buzbee2700f7e2014-03-07 09:46:20 -08001432 virtual LIR* OpMovRegMem(RegStorage r_dest, RegStorage r_base, int offset,
1433 MoveType move_type) = 0;
Razvan A Lupusoru2c498d12014-01-29 16:02:57 -08001434
1435 /**
1436 * @brief Used to generate an LIR that does a store from reg to mem.
1437 * @param r_base The base physical register for memory operand.
1438 * @param offset The displacement for memory operand.
1439 * @param r_src The destination physical register.
1440 * @param bytes_to_move The number of bytes to move.
1441 * @param is_aligned Whether the memory location is known to be aligned.
1442 * @return Returns the generate move LIR.
1443 */
buzbee2700f7e2014-03-07 09:46:20 -08001444 virtual LIR* OpMovMemReg(RegStorage r_base, int offset, RegStorage r_src,
1445 MoveType move_type) = 0;
Razvan A Lupusoru2c498d12014-01-29 16:02:57 -08001446
1447 /**
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001448 * @brief Used for generating a conditional register to register operation.
1449 * @param op The opcode kind.
1450 * @param cc The condition code that when true will perform the opcode.
1451 * @param r_dest The destination physical register.
1452 * @param r_src The source physical register.
1453 * @return Returns the newly created LIR or null in case of creation failure.
1454 */
buzbee2700f7e2014-03-07 09:46:20 -08001455 virtual LIR* OpCondRegReg(OpKind op, ConditionCode cc, RegStorage r_dest, RegStorage r_src) = 0;
Razvan A Lupusorubd288c22013-12-20 17:27:23 -08001456
buzbee2700f7e2014-03-07 09:46:20 -08001457 virtual LIR* OpRegRegImm(OpKind op, RegStorage r_dest, RegStorage r_src1, int value) = 0;
1458 virtual LIR* OpRegRegReg(OpKind op, RegStorage r_dest, RegStorage r_src1,
1459 RegStorage r_src2) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001460 virtual LIR* OpTestSuspend(LIR* target) = 0;
Ian Rogersdd7624d2014-03-14 17:43:00 -07001461 virtual LIR* OpThreadMem(OpKind op, ThreadOffset<4> thread_offset) = 0;
Andreas Gampe2f244e92014-05-08 03:35:25 -07001462 virtual LIR* OpThreadMem(OpKind op, ThreadOffset<8> thread_offset) = 0;
buzbee2700f7e2014-03-07 09:46:20 -08001463 virtual LIR* OpVldm(RegStorage r_base, int count) = 0;
1464 virtual LIR* OpVstm(RegStorage r_base, int count) = 0;
1465 virtual void OpLea(RegStorage r_base, RegStorage reg1, RegStorage reg2, int scale,
1466 int offset) = 0;
1467 virtual void OpRegCopyWide(RegStorage dest, RegStorage src) = 0;
Ian Rogersdd7624d2014-03-14 17:43:00 -07001468 virtual void OpTlsCmp(ThreadOffset<4> offset, int val) = 0;
Andreas Gampe2f244e92014-05-08 03:35:25 -07001469 virtual void OpTlsCmp(ThreadOffset<8> offset, int val) = 0;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001470 virtual bool InexpensiveConstantInt(int32_t value) = 0;
1471 virtual bool InexpensiveConstantFloat(int32_t value) = 0;
1472 virtual bool InexpensiveConstantLong(int64_t value) = 0;
1473 virtual bool InexpensiveConstantDouble(int64_t value) = 0;
1474
Ian Rogersd9c4fc92013-10-01 19:45:43 -07001475 // May be optimized by targets.
1476 virtual void GenMonitorEnter(int opt_flags, RegLocation rl_src);
1477 virtual void GenMonitorExit(int opt_flags, RegLocation rl_src);
1478
Brian Carlstrom7940e442013-07-12 13:46:57 -07001479 // Temp workaround
buzbee2700f7e2014-03-07 09:46:20 -08001480 void Workaround7250540(RegLocation rl_dest, RegStorage zero_reg);
Brian Carlstrom7940e442013-07-12 13:46:57 -07001481
1482 protected:
1483 Mir2Lir(CompilationUnit* cu, MIRGraph* mir_graph, ArenaAllocator* arena);
1484
1485 CompilationUnit* GetCompilationUnit() {
1486 return cu_;
1487 }
Mark Mendell4708dcd2014-01-22 09:05:18 -08001488 /*
1489 * @brief Returns the index of the lowest set bit in 'x'.
1490 * @param x Value to be examined.
1491 * @returns The bit number of the lowest bit set in the value.
1492 */
1493 int32_t LowestSetBit(uint64_t x);
1494 /*
1495 * @brief Is this value a power of two?
1496 * @param x Value to be examined.
1497 * @returns 'true' if only 1 bit is set in the value.
1498 */
1499 bool IsPowerOfTwo(uint64_t x);
1500 /*
1501 * @brief Do these SRs overlap?
1502 * @param rl_op1 One RegLocation
1503 * @param rl_op2 The other RegLocation
1504 * @return 'true' if the VR pairs overlap
1505 *
1506 * Check to see if a result pair has a misaligned overlap with an operand pair. This
1507 * is not usual for dx to generate, but it is legal (for now). In a future rev of
1508 * dex, we'll want to make this case illegal.
1509 */
1510 bool BadOverlap(RegLocation rl_op1, RegLocation rl_op2);
Brian Carlstrom7940e442013-07-12 13:46:57 -07001511
Mark Mendelle02d48f2014-01-15 11:19:23 -08001512 /*
1513 * @brief Force a location (in a register) into a temporary register
1514 * @param loc location of result
1515 * @returns update location
1516 */
Mark Mendelle87f9b52014-04-30 14:13:18 -04001517 virtual RegLocation ForceTemp(RegLocation loc);
Mark Mendelle02d48f2014-01-15 11:19:23 -08001518
1519 /*
1520 * @brief Force a wide location (in registers) into temporary registers
1521 * @param loc location of result
1522 * @returns update location
1523 */
Mark Mendelle87f9b52014-04-30 14:13:18 -04001524 virtual RegLocation ForceTempWide(RegLocation loc);
Mark Mendelle02d48f2014-01-15 11:19:23 -08001525
Vladimir Marko455759b2014-05-06 20:49:36 +01001526 static constexpr OpSize LoadStoreOpSize(bool wide, bool ref) {
1527 return wide ? k64 : ref ? kReference : k32;
1528 }
1529
Mark Mendelldf8ee2e2014-01-27 16:37:47 -08001530 virtual void GenInstanceofFinal(bool use_declaring_class, uint32_t type_idx,
1531 RegLocation rl_dest, RegLocation rl_src);
1532
Dave Allisonbcec6fb2014-01-17 12:52:22 -08001533 void AddSlowPath(LIRSlowPath* slowpath);
1534
Mark Mendell6607d972014-02-10 06:54:18 -08001535 virtual void GenInstanceofCallingHelper(bool needs_access_check, bool type_known_final,
1536 bool type_known_abstract, bool use_declaring_class,
1537 bool can_assume_type_is_in_dex_cache,
1538 uint32_t type_idx, RegLocation rl_dest,
1539 RegLocation rl_src);
Mark Mendellae9fd932014-02-10 16:14:35 -08001540 /*
1541 * @brief Generate the debug_frame FDE information if possible.
1542 * @returns pointer to vector containg CFE information, or NULL.
1543 */
1544 virtual std::vector<uint8_t>* ReturnCallFrameInformation();
Brian Carlstrom7940e442013-07-12 13:46:57 -07001545
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -08001546 /**
1547 * @brief Used to insert marker that can be used to associate MIR with LIR.
1548 * @details Only inserts marker if verbosity is enabled.
1549 * @param mir The mir that is currently being generated.
1550 */
1551 void GenPrintLabel(MIR* mir);
1552
1553 /**
1554 * @brief Used to generate return sequence when there is no frame.
1555 * @details Assumes that the return registers have already been populated.
1556 */
1557 virtual void GenSpecialExitSequence() = 0;
1558
1559 /**
1560 * @brief Used to generate code for special methods that are known to be
1561 * small enough to work in frameless mode.
1562 * @param bb The basic block of the first MIR.
1563 * @param mir The first MIR of the special method.
1564 * @param special Information about the special method.
1565 * @return Returns whether or not this was handled successfully. Returns false
1566 * if caller should punt to normal MIR2LIR conversion.
1567 */
1568 virtual bool GenSpecialCase(BasicBlock* bb, MIR* mir, const InlineMethod& special);
1569
Mark Mendelle87f9b52014-04-30 14:13:18 -04001570 protected:
Brian Carlstrom7940e442013-07-12 13:46:57 -07001571 void ClobberBody(RegisterInfo* p);
Dave Allisonbcec6fb2014-01-17 12:52:22 -08001572 void SetCurrentDexPc(DexOffset dexpc) {
1573 current_dalvik_offset_ = dexpc;
1574 }
1575
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -08001576 /**
1577 * @brief Used to lock register if argument at in_position was passed that way.
1578 * @details Does nothing if the argument is passed via stack.
1579 * @param in_position The argument number whose register to lock.
1580 * @param wide Whether the argument is wide.
1581 */
1582 void LockArg(int in_position, bool wide = false);
1583
1584 /**
1585 * @brief Used to load VR argument to a physical register.
1586 * @details The load is only done if the argument is not already in physical register.
1587 * LockArg must have been previously called.
1588 * @param in_position The argument number to load.
1589 * @param wide Whether the argument is 64-bit or not.
1590 * @return Returns the register (or register pair) for the loaded argument.
1591 */
Vladimir Markoc93ac8b2014-05-13 17:53:49 +01001592 RegStorage LoadArg(int in_position, RegisterClass reg_class, bool wide = false);
Razvan A Lupusoru3bc01742014-02-06 13:18:43 -08001593
1594 /**
1595 * @brief Used to load a VR argument directly to a specified register location.
1596 * @param in_position The argument number to place in register.
1597 * @param rl_dest The register location where to place argument.
1598 */
1599 void LoadArgDirect(int in_position, RegLocation rl_dest);
1600
1601 /**
1602 * @brief Used to generate LIR for special getter method.
1603 * @param mir The mir that represents the iget.
1604 * @param special Information about the special getter method.
1605 * @return Returns whether LIR was successfully generated.
1606 */
1607 bool GenSpecialIGet(MIR* mir, const InlineMethod& special);
1608
1609 /**
1610 * @brief Used to generate LIR for special setter method.
1611 * @param mir The mir that represents the iput.
1612 * @param special Information about the special setter method.
1613 * @return Returns whether LIR was successfully generated.
1614 */
1615 bool GenSpecialIPut(MIR* mir, const InlineMethod& special);
1616
1617 /**
1618 * @brief Used to generate LIR for special return-args method.
1619 * @param mir The mir that represents the return of argument.
1620 * @param special Information about the special return-args method.
1621 * @return Returns whether LIR was successfully generated.
1622 */
1623 bool GenSpecialIdentity(MIR* mir, const InlineMethod& special);
1624
Mingyao Yang42894562014-04-07 12:42:16 -07001625 void AddDivZeroCheckSlowPath(LIR* branch);
Dave Allisonbcec6fb2014-01-17 12:52:22 -08001626
Mingyao Yang80365d92014-04-18 12:10:58 -07001627 // Copy arg0 and arg1 to kArg0 and kArg1 safely, possibly using
1628 // kArg2 as temp.
Mark Mendelle87f9b52014-04-30 14:13:18 -04001629 virtual void CopyToArgumentRegs(RegStorage arg0, RegStorage arg1);
1630
1631 /**
1632 * @brief Load Constant into RegLocation
1633 * @param rl_dest Destination RegLocation
1634 * @param value Constant value
1635 */
1636 virtual void GenConst(RegLocation rl_dest, int value);
Mingyao Yang80365d92014-04-18 12:10:58 -07001637
Andreas Gampe4b537a82014-06-30 22:24:53 -07001638 enum class WidenessCheck { // private
1639 kIgnoreWide,
1640 kCheckWide,
1641 kCheckNotWide
1642 };
1643
1644 enum class RefCheck { // private
1645 kIgnoreRef,
1646 kCheckRef,
1647 kCheckNotRef
1648 };
1649
1650 enum class FPCheck { // private
1651 kIgnoreFP,
1652 kCheckFP,
1653 kCheckNotFP
1654 };
1655
1656 /**
1657 * Check whether a reg storage seems well-formed, that is, if a reg storage is valid,
1658 * that it has the expected form for the flags.
1659 * A flag value of 0 means ignore. A flag value of -1 means false. A flag value of 1 means true.
1660 */
1661 void CheckRegStorageImpl(RegStorage rs, WidenessCheck wide, RefCheck ref, FPCheck fp, bool fail,
1662 bool report)
1663 const;
1664
1665 /**
1666 * Check whether a reg location seems well-formed, that is, if a reg storage is encoded,
1667 * that it has the expected size.
1668 */
1669 void CheckRegLocationImpl(RegLocation rl, bool fail, bool report) const;
1670
1671 // See CheckRegStorageImpl. Will print or fail depending on kFailOnSizeError and
1672 // kReportSizeError.
1673 void CheckRegStorage(RegStorage rs, WidenessCheck wide, RefCheck ref, FPCheck fp) const;
1674 // See CheckRegLocationImpl.
1675 void CheckRegLocation(RegLocation rl) const;
1676
Brian Carlstrom7940e442013-07-12 13:46:57 -07001677 public:
1678 // TODO: add accessors for these.
1679 LIR* literal_list_; // Constants.
1680 LIR* method_literal_list_; // Method literals requiring patching.
Hiroshi Yamauchibe1ca552014-01-15 11:46:48 -08001681 LIR* class_literal_list_; // Class literals requiring patching.
Brian Carlstrom7940e442013-07-12 13:46:57 -07001682 LIR* code_literal_list_; // Code literals requiring patching.
buzbeeb48819d2013-09-14 16:15:25 -07001683 LIR* first_fixup_; // Doubly-linked list of LIR nodes requiring fixups.
Brian Carlstrom7940e442013-07-12 13:46:57 -07001684
1685 protected:
1686 CompilationUnit* const cu_;
1687 MIRGraph* const mir_graph_;
1688 GrowableArray<SwitchTable*> switch_tables_;
1689 GrowableArray<FillArrayData*> fill_array_data_;
buzbeebd663de2013-09-10 15:41:31 -07001690 GrowableArray<RegisterInfo*> tempreg_info_;
1691 GrowableArray<RegisterInfo*> reginfo_map_;
buzbee0d829482013-10-11 15:24:55 -07001692 GrowableArray<void*> pointer_storage_;
buzbee0d829482013-10-11 15:24:55 -07001693 CodeOffset current_code_offset_; // Working byte offset of machine instructons.
1694 CodeOffset data_offset_; // starting offset of literal pool.
1695 size_t total_size_; // header + code size.
Brian Carlstrom7940e442013-07-12 13:46:57 -07001696 LIR* block_label_list_;
1697 PromotionMap* promotion_map_;
1698 /*
1699 * TODO: The code generation utilities don't have a built-in
1700 * mechanism to propagate the original Dalvik opcode address to the
1701 * associated generated instructions. For the trace compiler, this wasn't
1702 * necessary because the interpreter handled all throws and debugging
1703 * requests. For now we'll handle this by placing the Dalvik offset
1704 * in the CompilationUnit struct before codegen for each instruction.
1705 * The low-level LIR creation utilites will pull it from here. Rework this.
1706 */
buzbee0d829482013-10-11 15:24:55 -07001707 DexOffset current_dalvik_offset_;
1708 size_t estimated_native_code_size_; // Just an estimate; used to reserve code_buffer_ size.
Brian Carlstrom7940e442013-07-12 13:46:57 -07001709 RegisterPool* reg_pool_;
1710 /*
1711 * Sanity checking for the register temp tracking. The same ssa
1712 * name should never be associated with one temp register per
1713 * instruction compilation.
1714 */
1715 int live_sreg_;
1716 CodeBuffer code_buffer_;
Ian Rogers96faf5b2013-08-09 22:05:32 -07001717 // The encoding mapping table data (dex -> pc offset and pc offset -> dex) with a size prefix.
Vladimir Marko06606b92013-12-02 15:31:08 +00001718 std::vector<uint8_t> encoded_mapping_table_;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001719 std::vector<uint32_t> core_vmap_table_;
1720 std::vector<uint32_t> fp_vmap_table_;
1721 std::vector<uint8_t> native_gc_map_;
1722 int num_core_spills_;
1723 int num_fp_spills_;
1724 int frame_size_;
1725 unsigned int core_spill_mask_;
1726 unsigned int fp_spill_mask_;
1727 LIR* first_lir_insn_;
1728 LIR* last_lir_insn_;
Dave Allisonbcec6fb2014-01-17 12:52:22 -08001729
1730 GrowableArray<LIRSlowPath*> slow_paths_;
Vladimir Marko8dea81c2014-06-06 14:50:36 +01001731
1732 // The memory reference type for new LIRs.
1733 // NOTE: Passing this as an explicit parameter by all functions that directly or indirectly
1734 // invoke RawLIR() would clutter the code and reduce the readability.
1735 ResourceMask::ResourceBit mem_ref_type_;
1736
1737 // Each resource mask now takes 16-bytes, so having both use/def masks directly in a LIR
1738 // would consume 32 bytes per LIR. Instead, the LIR now holds only pointers to the masks
1739 // (i.e. 8 bytes on 32-bit arch, 16 bytes on 64-bit arch) and we use ResourceMaskCache
1740 // to deduplicate the masks.
1741 ResourceMaskCache mask_cache_;
Brian Carlstrom7940e442013-07-12 13:46:57 -07001742}; // Class Mir2Lir
1743
1744} // namespace art
1745
Brian Carlstromfc0e3212013-07-17 14:40:12 -07001746#endif // ART_COMPILER_DEX_QUICK_MIR_TO_LIR_H_