xref: /freebsd/contrib/llvm-project/llvm/lib/Target/Mips/MicroMipsSizeReduction.cpp (revision b4e38a41f584ad4391c04b8cfec81f46176b18b0)
1 //=== MicroMipsSizeReduction.cpp - MicroMips size reduction pass --------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 ///\file
9 /// This pass is used to reduce the size of instructions where applicable.
10 ///
11 /// TODO: Implement microMIPS64 support.
12 //===----------------------------------------------------------------------===//
13 #include "Mips.h"
14 #include "MipsInstrInfo.h"
15 #include "MipsSubtarget.h"
16 #include "llvm/ADT/Statistic.h"
17 #include "llvm/CodeGen/MachineFunctionPass.h"
18 #include "llvm/Support/Debug.h"
19 
20 using namespace llvm;
21 
22 #define DEBUG_TYPE "micromips-reduce-size"
23 #define MICROMIPS_SIZE_REDUCE_NAME "MicroMips instruction size reduce pass"
24 
25 STATISTIC(NumReduced, "Number of instructions reduced (32-bit to 16-bit ones, "
26                       "or two instructions into one");
27 
28 namespace {
29 
30 /// Order of operands to transfer
31 // TODO: Will be extended when additional optimizations are added
32 enum OperandTransfer {
33   OT_NA,            ///< Not applicable
34   OT_OperandsAll,   ///< Transfer all operands
35   OT_Operands02,    ///< Transfer operands 0 and 2
36   OT_Operand2,      ///< Transfer just operand 2
37   OT_OperandsXOR,   ///< Transfer operands for XOR16
38   OT_OperandsLwp,   ///< Transfer operands for LWP
39   OT_OperandsSwp,   ///< Transfer operands for SWP
40   OT_OperandsMovep, ///< Transfer operands for MOVEP
41 };
42 
43 /// Reduction type
44 // TODO: Will be extended when additional optimizations are added
45 enum ReduceType {
46   RT_TwoInstr, ///< Reduce two instructions into one instruction
47   RT_OneInstr  ///< Reduce one instruction into a smaller instruction
48 };
49 
50 // Information about immediate field restrictions
51 struct ImmField {
52   ImmField() : ImmFieldOperand(-1), Shift(0), LBound(0), HBound(0) {}
53   ImmField(uint8_t Shift, int16_t LBound, int16_t HBound,
54            int8_t ImmFieldOperand)
55       : ImmFieldOperand(ImmFieldOperand), Shift(Shift), LBound(LBound),
56         HBound(HBound) {}
57   int8_t ImmFieldOperand; // Immediate operand, -1 if it does not exist
58   uint8_t Shift;          // Shift value
59   int16_t LBound;         // Low bound of the immediate operand
60   int16_t HBound;         // High bound of the immediate operand
61 };
62 
63 /// Information about operands
64 // TODO: Will be extended when additional optimizations are added
65 struct OpInfo {
66   OpInfo(enum OperandTransfer TransferOperands)
67       : TransferOperands(TransferOperands) {}
68   OpInfo() : TransferOperands(OT_NA) {}
69 
70   enum OperandTransfer
71       TransferOperands; ///< Operands to transfer to the new instruction
72 };
73 
74 // Information about opcodes
75 struct OpCodes {
76   OpCodes(unsigned WideOpc, unsigned NarrowOpc)
77       : WideOpc(WideOpc), NarrowOpc(NarrowOpc) {}
78 
79   unsigned WideOpc;   ///< Wide opcode
80   unsigned NarrowOpc; ///< Narrow opcode
81 };
82 
83 typedef struct ReduceEntryFunArgs ReduceEntryFunArgs;
84 
85 /// ReduceTable - A static table with information on mapping from wide
86 /// opcodes to narrow
87 struct ReduceEntry {
88 
89   enum ReduceType eRType; ///< Reduction type
90   bool (*ReduceFunction)(
91       ReduceEntryFunArgs *Arguments); ///< Pointer to reduce function
92   struct OpCodes Ops;                 ///< All relevant OpCodes
93   struct OpInfo OpInf;                ///< Characteristics of operands
94   struct ImmField Imm;                ///< Characteristics of immediate field
95 
96   ReduceEntry(enum ReduceType RType, struct OpCodes Op,
97               bool (*F)(ReduceEntryFunArgs *Arguments), struct OpInfo OpInf,
98               struct ImmField Imm)
99       : eRType(RType), ReduceFunction(F), Ops(Op), OpInf(OpInf), Imm(Imm) {}
100 
101   unsigned NarrowOpc() const { return Ops.NarrowOpc; }
102   unsigned WideOpc() const { return Ops.WideOpc; }
103   int16_t LBound() const { return Imm.LBound; }
104   int16_t HBound() const { return Imm.HBound; }
105   uint8_t Shift() const { return Imm.Shift; }
106   int8_t ImmField() const { return Imm.ImmFieldOperand; }
107   enum OperandTransfer TransferOperands() const {
108     return OpInf.TransferOperands;
109   }
110   enum ReduceType RType() const { return eRType; }
111 
112   // operator used by std::equal_range
113   bool operator<(const unsigned int r) const { return (WideOpc() < r); }
114 
115   // operator used by std::equal_range
116   friend bool operator<(const unsigned int r, const struct ReduceEntry &re) {
117     return (r < re.WideOpc());
118   }
119 };
120 
121 // Function arguments for ReduceFunction
122 struct ReduceEntryFunArgs {
123   MachineInstr *MI;         // Instruction
124   const ReduceEntry &Entry; // Entry field
125   MachineBasicBlock::instr_iterator
126       &NextMII; // Iterator to next instruction in block
127 
128   ReduceEntryFunArgs(MachineInstr *argMI, const ReduceEntry &argEntry,
129                      MachineBasicBlock::instr_iterator &argNextMII)
130       : MI(argMI), Entry(argEntry), NextMII(argNextMII) {}
131 };
132 
133 typedef llvm::SmallVector<ReduceEntry, 32> ReduceEntryVector;
134 
135 class MicroMipsSizeReduce : public MachineFunctionPass {
136 public:
137   static char ID;
138   MicroMipsSizeReduce();
139 
140   static const MipsInstrInfo *MipsII;
141   const MipsSubtarget *Subtarget;
142 
143   bool runOnMachineFunction(MachineFunction &MF) override;
144 
145   llvm::StringRef getPassName() const override {
146     return "microMIPS instruction size reduction pass";
147   }
148 
149 private:
150   /// Reduces width of instructions in the specified basic block.
151   bool ReduceMBB(MachineBasicBlock &MBB);
152 
153   /// Attempts to reduce MI, returns true on success.
154   bool ReduceMI(const MachineBasicBlock::instr_iterator &MII,
155                 MachineBasicBlock::instr_iterator &NextMII);
156 
157   // Attempts to reduce LW/SW instruction into LWSP/SWSP,
158   // returns true on success.
159   static bool ReduceXWtoXWSP(ReduceEntryFunArgs *Arguments);
160 
161   // Attempts to reduce two LW/SW instructions into LWP/SWP instruction,
162   // returns true on success.
163   static bool ReduceXWtoXWP(ReduceEntryFunArgs *Arguments);
164 
165   // Attempts to reduce LBU/LHU instruction into LBU16/LHU16,
166   // returns true on success.
167   static bool ReduceLXUtoLXU16(ReduceEntryFunArgs *Arguments);
168 
169   // Attempts to reduce SB/SH instruction into SB16/SH16,
170   // returns true on success.
171   static bool ReduceSXtoSX16(ReduceEntryFunArgs *Arguments);
172 
173   // Attempts to reduce two MOVE instructions into MOVEP instruction,
174   // returns true on success.
175   static bool ReduceMoveToMovep(ReduceEntryFunArgs *Arguments);
176 
177   // Attempts to reduce arithmetic instructions, returns true on success.
178   static bool ReduceArithmeticInstructions(ReduceEntryFunArgs *Arguments);
179 
180   // Attempts to reduce ADDIU into ADDIUSP instruction,
181   // returns true on success.
182   static bool ReduceADDIUToADDIUSP(ReduceEntryFunArgs *Arguments);
183 
184   // Attempts to reduce ADDIU into ADDIUR1SP instruction,
185   // returns true on success.
186   static bool ReduceADDIUToADDIUR1SP(ReduceEntryFunArgs *Arguments);
187 
188   // Attempts to reduce XOR into XOR16 instruction,
189   // returns true on success.
190   static bool ReduceXORtoXOR16(ReduceEntryFunArgs *Arguments);
191 
192   // Changes opcode of an instruction, replaces an instruction with a
193   // new one, or replaces two instructions with a new instruction
194   // depending on their order i.e. if these are consecutive forward
195   // or consecutive backward
196   static bool ReplaceInstruction(MachineInstr *MI, const ReduceEntry &Entry,
197                                  MachineInstr *MI2 = nullptr,
198                                  bool ConsecutiveForward = true);
199 
200   // Table with transformation rules for each instruction.
201   static ReduceEntryVector ReduceTable;
202 };
203 
204 char MicroMipsSizeReduce::ID = 0;
205 const MipsInstrInfo *MicroMipsSizeReduce::MipsII;
206 
207 // This table must be sorted by WideOpc as a main criterion and
208 // ReduceType as a sub-criterion (when wide opcodes are the same).
209 ReduceEntryVector MicroMipsSizeReduce::ReduceTable = {
210 
211     // ReduceType, OpCodes, ReduceFunction,
212     // OpInfo(TransferOperands),
213     // ImmField(Shift, LBound, HBound, ImmFieldPosition)
214     {RT_OneInstr, OpCodes(Mips::ADDiu, Mips::ADDIUR1SP_MM),
215      ReduceADDIUToADDIUR1SP, OpInfo(OT_Operands02), ImmField(2, 0, 64, 2)},
216     {RT_OneInstr, OpCodes(Mips::ADDiu, Mips::ADDIUSP_MM), ReduceADDIUToADDIUSP,
217      OpInfo(OT_Operand2), ImmField(0, 0, 0, 2)},
218     {RT_OneInstr, OpCodes(Mips::ADDiu_MM, Mips::ADDIUR1SP_MM),
219      ReduceADDIUToADDIUR1SP, OpInfo(OT_Operands02), ImmField(2, 0, 64, 2)},
220     {RT_OneInstr, OpCodes(Mips::ADDiu_MM, Mips::ADDIUSP_MM),
221      ReduceADDIUToADDIUSP, OpInfo(OT_Operand2), ImmField(0, 0, 0, 2)},
222     {RT_OneInstr, OpCodes(Mips::ADDu, Mips::ADDU16_MM),
223      ReduceArithmeticInstructions, OpInfo(OT_OperandsAll),
224      ImmField(0, 0, 0, -1)},
225     {RT_OneInstr, OpCodes(Mips::ADDu_MM, Mips::ADDU16_MM),
226      ReduceArithmeticInstructions, OpInfo(OT_OperandsAll),
227      ImmField(0, 0, 0, -1)},
228     {RT_OneInstr, OpCodes(Mips::LBu, Mips::LBU16_MM), ReduceLXUtoLXU16,
229      OpInfo(OT_OperandsAll), ImmField(0, -1, 15, 2)},
230     {RT_OneInstr, OpCodes(Mips::LBu_MM, Mips::LBU16_MM), ReduceLXUtoLXU16,
231      OpInfo(OT_OperandsAll), ImmField(0, -1, 15, 2)},
232     {RT_OneInstr, OpCodes(Mips::LEA_ADDiu, Mips::ADDIUR1SP_MM),
233      ReduceADDIUToADDIUR1SP, OpInfo(OT_Operands02), ImmField(2, 0, 64, 2)},
234     {RT_OneInstr, OpCodes(Mips::LEA_ADDiu_MM, Mips::ADDIUR1SP_MM),
235      ReduceADDIUToADDIUR1SP, OpInfo(OT_Operands02), ImmField(2, 0, 64, 2)},
236     {RT_OneInstr, OpCodes(Mips::LHu, Mips::LHU16_MM), ReduceLXUtoLXU16,
237      OpInfo(OT_OperandsAll), ImmField(1, 0, 16, 2)},
238     {RT_OneInstr, OpCodes(Mips::LHu_MM, Mips::LHU16_MM), ReduceLXUtoLXU16,
239      OpInfo(OT_OperandsAll), ImmField(1, 0, 16, 2)},
240     {RT_TwoInstr, OpCodes(Mips::LW, Mips::LWP_MM), ReduceXWtoXWP,
241      OpInfo(OT_OperandsLwp), ImmField(0, -2048, 2048, 2)},
242     {RT_OneInstr, OpCodes(Mips::LW, Mips::LWSP_MM), ReduceXWtoXWSP,
243      OpInfo(OT_OperandsAll), ImmField(2, 0, 32, 2)},
244     {RT_TwoInstr, OpCodes(Mips::LW16_MM, Mips::LWP_MM), ReduceXWtoXWP,
245      OpInfo(OT_OperandsLwp), ImmField(0, -2048, 2048, 2)},
246     {RT_TwoInstr, OpCodes(Mips::LW_MM, Mips::LWP_MM), ReduceXWtoXWP,
247      OpInfo(OT_OperandsLwp), ImmField(0, -2048, 2048, 2)},
248     {RT_OneInstr, OpCodes(Mips::LW_MM, Mips::LWSP_MM), ReduceXWtoXWSP,
249      OpInfo(OT_OperandsAll), ImmField(2, 0, 32, 2)},
250     {RT_TwoInstr, OpCodes(Mips::MOVE16_MM, Mips::MOVEP_MM), ReduceMoveToMovep,
251      OpInfo(OT_OperandsMovep), ImmField(0, 0, 0, -1)},
252     {RT_OneInstr, OpCodes(Mips::SB, Mips::SB16_MM), ReduceSXtoSX16,
253      OpInfo(OT_OperandsAll), ImmField(0, 0, 16, 2)},
254     {RT_OneInstr, OpCodes(Mips::SB_MM, Mips::SB16_MM), ReduceSXtoSX16,
255      OpInfo(OT_OperandsAll), ImmField(0, 0, 16, 2)},
256     {RT_OneInstr, OpCodes(Mips::SH, Mips::SH16_MM), ReduceSXtoSX16,
257      OpInfo(OT_OperandsAll), ImmField(1, 0, 16, 2)},
258     {RT_OneInstr, OpCodes(Mips::SH_MM, Mips::SH16_MM), ReduceSXtoSX16,
259      OpInfo(OT_OperandsAll), ImmField(1, 0, 16, 2)},
260     {RT_OneInstr, OpCodes(Mips::SUBu, Mips::SUBU16_MM),
261      ReduceArithmeticInstructions, OpInfo(OT_OperandsAll),
262      ImmField(0, 0, 0, -1)},
263     {RT_OneInstr, OpCodes(Mips::SUBu_MM, Mips::SUBU16_MM),
264      ReduceArithmeticInstructions, OpInfo(OT_OperandsAll),
265      ImmField(0, 0, 0, -1)},
266     {RT_TwoInstr, OpCodes(Mips::SW, Mips::SWP_MM), ReduceXWtoXWP,
267      OpInfo(OT_OperandsSwp), ImmField(0, -2048, 2048, 2)},
268     {RT_OneInstr, OpCodes(Mips::SW, Mips::SWSP_MM), ReduceXWtoXWSP,
269      OpInfo(OT_OperandsAll), ImmField(2, 0, 32, 2)},
270     {RT_TwoInstr, OpCodes(Mips::SW16_MM, Mips::SWP_MM), ReduceXWtoXWP,
271      OpInfo(OT_OperandsSwp), ImmField(0, -2048, 2048, 2)},
272     {RT_TwoInstr, OpCodes(Mips::SW_MM, Mips::SWP_MM), ReduceXWtoXWP,
273      OpInfo(OT_OperandsSwp), ImmField(0, -2048, 2048, 2)},
274     {RT_OneInstr, OpCodes(Mips::SW_MM, Mips::SWSP_MM), ReduceXWtoXWSP,
275      OpInfo(OT_OperandsAll), ImmField(2, 0, 32, 2)},
276     {RT_OneInstr, OpCodes(Mips::XOR, Mips::XOR16_MM), ReduceXORtoXOR16,
277      OpInfo(OT_OperandsXOR), ImmField(0, 0, 0, -1)},
278     {RT_OneInstr, OpCodes(Mips::XOR_MM, Mips::XOR16_MM), ReduceXORtoXOR16,
279      OpInfo(OT_OperandsXOR), ImmField(0, 0, 0, -1)}};
280 } // end anonymous namespace
281 
282 INITIALIZE_PASS(MicroMipsSizeReduce, DEBUG_TYPE, MICROMIPS_SIZE_REDUCE_NAME,
283                 false, false)
284 
285 // Returns true if the machine operand MO is register SP.
286 static bool IsSP(const MachineOperand &MO) {
287   if (MO.isReg() && ((MO.getReg() == Mips::SP)))
288     return true;
289   return false;
290 }
291 
292 // Returns true if the machine operand MO is register $16, $17, or $2-$7.
293 static bool isMMThreeBitGPRegister(const MachineOperand &MO) {
294   if (MO.isReg() && Mips::GPRMM16RegClass.contains(MO.getReg()))
295     return true;
296   return false;
297 }
298 
299 // Returns true if the machine operand MO is register $0, $17, or $2-$7.
300 static bool isMMSourceRegister(const MachineOperand &MO) {
301   if (MO.isReg() && Mips::GPRMM16ZeroRegClass.contains(MO.getReg()))
302     return true;
303   return false;
304 }
305 
306 // Returns true if the operand Op is an immediate value
307 // and writes the immediate value into variable Imm.
308 static bool GetImm(MachineInstr *MI, unsigned Op, int64_t &Imm) {
309 
310   if (!MI->getOperand(Op).isImm())
311     return false;
312   Imm = MI->getOperand(Op).getImm();
313   return true;
314 }
315 
316 // Returns true if the value is a valid immediate for ADDIUSP.
317 static bool AddiuspImmValue(int64_t Value) {
318   int64_t Value2 = Value >> 2;
319   if (((Value & (int64_t)maskTrailingZeros<uint64_t>(2)) == Value) &&
320       ((Value2 >= 2 && Value2 <= 257) || (Value2 >= -258 && Value2 <= -3)))
321     return true;
322   return false;
323 }
324 
325 // Returns true if the variable Value has the number of least-significant zero
326 // bits equal to Shift and if the shifted value is between the bounds.
327 static bool InRange(int64_t Value, unsigned short Shift, int LBound,
328                     int HBound) {
329   int64_t Value2 = Value >> Shift;
330   if (((Value & (int64_t)maskTrailingZeros<uint64_t>(Shift)) == Value) &&
331       (Value2 >= LBound) && (Value2 < HBound))
332     return true;
333   return false;
334 }
335 
336 // Returns true if immediate operand is in range.
337 static bool ImmInRange(MachineInstr *MI, const ReduceEntry &Entry) {
338 
339   int64_t offset;
340 
341   if (!GetImm(MI, Entry.ImmField(), offset))
342     return false;
343 
344   if (!InRange(offset, Entry.Shift(), Entry.LBound(), Entry.HBound()))
345     return false;
346 
347   return true;
348 }
349 
350 // Returns true if MI can be reduced to lwp/swp instruction
351 static bool CheckXWPInstr(MachineInstr *MI, bool ReduceToLwp,
352                           const ReduceEntry &Entry) {
353 
354   if (ReduceToLwp &&
355       !(MI->getOpcode() == Mips::LW || MI->getOpcode() == Mips::LW_MM ||
356         MI->getOpcode() == Mips::LW16_MM))
357     return false;
358 
359   if (!ReduceToLwp &&
360       !(MI->getOpcode() == Mips::SW || MI->getOpcode() == Mips::SW_MM ||
361         MI->getOpcode() == Mips::SW16_MM))
362     return false;
363 
364   Register reg = MI->getOperand(0).getReg();
365   if (reg == Mips::RA)
366     return false;
367 
368   if (!ImmInRange(MI, Entry))
369     return false;
370 
371   if (ReduceToLwp && (MI->getOperand(0).getReg() == MI->getOperand(1).getReg()))
372     return false;
373 
374   return true;
375 }
376 
377 // Returns true if the registers Reg1 and Reg2 are consecutive
378 static bool ConsecutiveRegisters(unsigned Reg1, unsigned Reg2) {
379   static SmallVector<unsigned, 31> Registers = {
380       Mips::AT, Mips::V0, Mips::V1, Mips::A0, Mips::A1, Mips::A2, Mips::A3,
381       Mips::T0, Mips::T1, Mips::T2, Mips::T3, Mips::T4, Mips::T5, Mips::T6,
382       Mips::T7, Mips::S0, Mips::S1, Mips::S2, Mips::S3, Mips::S4, Mips::S5,
383       Mips::S6, Mips::S7, Mips::T8, Mips::T9, Mips::K0, Mips::K1, Mips::GP,
384       Mips::SP, Mips::FP, Mips::RA};
385 
386   for (uint8_t i = 0; i < Registers.size() - 1; i++) {
387     if (Registers[i] == Reg1) {
388       if (Registers[i + 1] == Reg2)
389         return true;
390       else
391         return false;
392     }
393   }
394   return false;
395 }
396 
397 // Returns true if registers and offsets are consecutive
398 static bool ConsecutiveInstr(MachineInstr *MI1, MachineInstr *MI2) {
399 
400   int64_t Offset1, Offset2;
401   if (!GetImm(MI1, 2, Offset1))
402     return false;
403   if (!GetImm(MI2, 2, Offset2))
404     return false;
405 
406   Register Reg1 = MI1->getOperand(0).getReg();
407   Register Reg2 = MI2->getOperand(0).getReg();
408 
409   return ((Offset1 == (Offset2 - 4)) && (ConsecutiveRegisters(Reg1, Reg2)));
410 }
411 
412 MicroMipsSizeReduce::MicroMipsSizeReduce() : MachineFunctionPass(ID) {}
413 
414 bool MicroMipsSizeReduce::ReduceMI(const MachineBasicBlock::instr_iterator &MII,
415                                    MachineBasicBlock::instr_iterator &NextMII) {
416 
417   MachineInstr *MI = &*MII;
418   unsigned Opcode = MI->getOpcode();
419 
420   // Search the table.
421   ReduceEntryVector::const_iterator Start = std::begin(ReduceTable);
422   ReduceEntryVector::const_iterator End = std::end(ReduceTable);
423 
424   std::pair<ReduceEntryVector::const_iterator,
425             ReduceEntryVector::const_iterator>
426       Range = std::equal_range(Start, End, Opcode);
427 
428   if (Range.first == Range.second)
429     return false;
430 
431   for (ReduceEntryVector::const_iterator Entry = Range.first;
432        Entry != Range.second; ++Entry) {
433     ReduceEntryFunArgs Arguments(&(*MII), *Entry, NextMII);
434     if (((*Entry).ReduceFunction)(&Arguments))
435       return true;
436   }
437   return false;
438 }
439 
440 bool MicroMipsSizeReduce::ReduceXWtoXWSP(ReduceEntryFunArgs *Arguments) {
441 
442   MachineInstr *MI = Arguments->MI;
443   const ReduceEntry &Entry = Arguments->Entry;
444 
445   if (!ImmInRange(MI, Entry))
446     return false;
447 
448   if (!IsSP(MI->getOperand(1)))
449     return false;
450 
451   return ReplaceInstruction(MI, Entry);
452 }
453 
454 bool MicroMipsSizeReduce::ReduceXWtoXWP(ReduceEntryFunArgs *Arguments) {
455 
456   const ReduceEntry &Entry = Arguments->Entry;
457   MachineBasicBlock::instr_iterator &NextMII = Arguments->NextMII;
458   const MachineBasicBlock::instr_iterator &E =
459       Arguments->MI->getParent()->instr_end();
460 
461   if (NextMII == E)
462     return false;
463 
464   MachineInstr *MI1 = Arguments->MI;
465   MachineInstr *MI2 = &*NextMII;
466 
467   // ReduceToLwp = true/false - reduce to LWP/SWP instruction
468   bool ReduceToLwp = (MI1->getOpcode() == Mips::LW) ||
469                      (MI1->getOpcode() == Mips::LW_MM) ||
470                      (MI1->getOpcode() == Mips::LW16_MM);
471 
472   if (!CheckXWPInstr(MI1, ReduceToLwp, Entry))
473     return false;
474 
475   if (!CheckXWPInstr(MI2, ReduceToLwp, Entry))
476     return false;
477 
478   Register Reg1 = MI1->getOperand(1).getReg();
479   Register Reg2 = MI2->getOperand(1).getReg();
480 
481   if (Reg1 != Reg2)
482     return false;
483 
484   bool ConsecutiveForward = ConsecutiveInstr(MI1, MI2);
485   bool ConsecutiveBackward = ConsecutiveInstr(MI2, MI1);
486 
487   if (!(ConsecutiveForward || ConsecutiveBackward))
488     return false;
489 
490   NextMII = std::next(NextMII);
491   return ReplaceInstruction(MI1, Entry, MI2, ConsecutiveForward);
492 }
493 
494 bool MicroMipsSizeReduce::ReduceArithmeticInstructions(
495     ReduceEntryFunArgs *Arguments) {
496 
497   MachineInstr *MI = Arguments->MI;
498   const ReduceEntry &Entry = Arguments->Entry;
499 
500   if (!isMMThreeBitGPRegister(MI->getOperand(0)) ||
501       !isMMThreeBitGPRegister(MI->getOperand(1)) ||
502       !isMMThreeBitGPRegister(MI->getOperand(2)))
503     return false;
504 
505   return ReplaceInstruction(MI, Entry);
506 }
507 
508 bool MicroMipsSizeReduce::ReduceADDIUToADDIUR1SP(
509     ReduceEntryFunArgs *Arguments) {
510 
511   MachineInstr *MI = Arguments->MI;
512   const ReduceEntry &Entry = Arguments->Entry;
513 
514   if (!ImmInRange(MI, Entry))
515     return false;
516 
517   if (!isMMThreeBitGPRegister(MI->getOperand(0)) || !IsSP(MI->getOperand(1)))
518     return false;
519 
520   return ReplaceInstruction(MI, Entry);
521 }
522 
523 bool MicroMipsSizeReduce::ReduceADDIUToADDIUSP(ReduceEntryFunArgs *Arguments) {
524 
525   MachineInstr *MI = Arguments->MI;
526   const ReduceEntry &Entry = Arguments->Entry;
527 
528   int64_t ImmValue;
529   if (!GetImm(MI, Entry.ImmField(), ImmValue))
530     return false;
531 
532   if (!AddiuspImmValue(ImmValue))
533     return false;
534 
535   if (!IsSP(MI->getOperand(0)) || !IsSP(MI->getOperand(1)))
536     return false;
537 
538   return ReplaceInstruction(MI, Entry);
539 }
540 
541 bool MicroMipsSizeReduce::ReduceLXUtoLXU16(ReduceEntryFunArgs *Arguments) {
542 
543   MachineInstr *MI = Arguments->MI;
544   const ReduceEntry &Entry = Arguments->Entry;
545 
546   if (!ImmInRange(MI, Entry))
547     return false;
548 
549   if (!isMMThreeBitGPRegister(MI->getOperand(0)) ||
550       !isMMThreeBitGPRegister(MI->getOperand(1)))
551     return false;
552 
553   return ReplaceInstruction(MI, Entry);
554 }
555 
556 bool MicroMipsSizeReduce::ReduceSXtoSX16(ReduceEntryFunArgs *Arguments) {
557 
558   MachineInstr *MI = Arguments->MI;
559   const ReduceEntry &Entry = Arguments->Entry;
560 
561   if (!ImmInRange(MI, Entry))
562     return false;
563 
564   if (!isMMSourceRegister(MI->getOperand(0)) ||
565       !isMMThreeBitGPRegister(MI->getOperand(1)))
566     return false;
567 
568   return ReplaceInstruction(MI, Entry);
569 }
570 
571 // Returns true if Reg can be a source register
572 // of MOVEP instruction
573 static bool IsMovepSrcRegister(unsigned Reg) {
574 
575   if (Reg == Mips::ZERO || Reg == Mips::V0 || Reg == Mips::V1 ||
576       Reg == Mips::S0 || Reg == Mips::S1 || Reg == Mips::S2 ||
577       Reg == Mips::S3 || Reg == Mips::S4)
578     return true;
579 
580   return false;
581 }
582 
583 // Returns true if Reg can be a destination register
584 // of MOVEP instruction
585 static bool IsMovepDestinationReg(unsigned Reg) {
586 
587   if (Reg == Mips::A0 || Reg == Mips::A1 || Reg == Mips::A2 ||
588       Reg == Mips::A3 || Reg == Mips::S5 || Reg == Mips::S6)
589     return true;
590 
591   return false;
592 }
593 
594 // Returns true if the registers can be a pair of destination
595 // registers in MOVEP instruction
596 static bool IsMovepDestinationRegPair(unsigned R0, unsigned R1) {
597 
598   if ((R0 == Mips::A0 && R1 == Mips::S5) ||
599       (R0 == Mips::A0 && R1 == Mips::S6) ||
600       (R0 == Mips::A0 && R1 == Mips::A1) ||
601       (R0 == Mips::A0 && R1 == Mips::A2) ||
602       (R0 == Mips::A0 && R1 == Mips::A3) ||
603       (R0 == Mips::A1 && R1 == Mips::A2) ||
604       (R0 == Mips::A1 && R1 == Mips::A3) ||
605       (R0 == Mips::A2 && R1 == Mips::A3))
606     return true;
607 
608   return false;
609 }
610 
611 bool MicroMipsSizeReduce::ReduceMoveToMovep(ReduceEntryFunArgs *Arguments) {
612 
613   const ReduceEntry &Entry = Arguments->Entry;
614   MachineBasicBlock::instr_iterator &NextMII = Arguments->NextMII;
615   const MachineBasicBlock::instr_iterator &E =
616       Arguments->MI->getParent()->instr_end();
617 
618   if (NextMII == E)
619     return false;
620 
621   MachineInstr *MI1 = Arguments->MI;
622   MachineInstr *MI2 = &*NextMII;
623 
624   Register RegDstMI1 = MI1->getOperand(0).getReg();
625   Register RegSrcMI1 = MI1->getOperand(1).getReg();
626 
627   if (!IsMovepSrcRegister(RegSrcMI1))
628     return false;
629 
630   if (!IsMovepDestinationReg(RegDstMI1))
631     return false;
632 
633   if (MI2->getOpcode() != Entry.WideOpc())
634     return false;
635 
636   Register RegDstMI2 = MI2->getOperand(0).getReg();
637   Register RegSrcMI2 = MI2->getOperand(1).getReg();
638 
639   if (!IsMovepSrcRegister(RegSrcMI2))
640     return false;
641 
642   bool ConsecutiveForward;
643   if (IsMovepDestinationRegPair(RegDstMI1, RegDstMI2)) {
644     ConsecutiveForward = true;
645   } else if (IsMovepDestinationRegPair(RegDstMI2, RegDstMI1)) {
646     ConsecutiveForward = false;
647   } else
648     return false;
649 
650   NextMII = std::next(NextMII);
651   return ReplaceInstruction(MI1, Entry, MI2, ConsecutiveForward);
652 }
653 
654 bool MicroMipsSizeReduce::ReduceXORtoXOR16(ReduceEntryFunArgs *Arguments) {
655 
656   MachineInstr *MI = Arguments->MI;
657   const ReduceEntry &Entry = Arguments->Entry;
658 
659   if (!isMMThreeBitGPRegister(MI->getOperand(0)) ||
660       !isMMThreeBitGPRegister(MI->getOperand(1)) ||
661       !isMMThreeBitGPRegister(MI->getOperand(2)))
662     return false;
663 
664   if (!(MI->getOperand(0).getReg() == MI->getOperand(2).getReg()) &&
665       !(MI->getOperand(0).getReg() == MI->getOperand(1).getReg()))
666     return false;
667 
668   return ReplaceInstruction(MI, Entry);
669 }
670 
671 bool MicroMipsSizeReduce::ReduceMBB(MachineBasicBlock &MBB) {
672   bool Modified = false;
673   MachineBasicBlock::instr_iterator MII = MBB.instr_begin(),
674                                     E = MBB.instr_end();
675   MachineBasicBlock::instr_iterator NextMII;
676 
677   // Iterate through the instructions in the basic block
678   for (; MII != E; MII = NextMII) {
679     NextMII = std::next(MII);
680     MachineInstr *MI = &*MII;
681 
682     // Don't reduce bundled instructions or pseudo operations
683     if (MI->isBundle() || MI->isTransient())
684       continue;
685 
686     // Try to reduce 32-bit instruction into 16-bit instruction
687     Modified |= ReduceMI(MII, NextMII);
688   }
689 
690   return Modified;
691 }
692 
693 bool MicroMipsSizeReduce::ReplaceInstruction(MachineInstr *MI,
694                                              const ReduceEntry &Entry,
695                                              MachineInstr *MI2,
696                                              bool ConsecutiveForward) {
697 
698   enum OperandTransfer OpTransfer = Entry.TransferOperands();
699 
700   LLVM_DEBUG(dbgs() << "Converting 32-bit: " << *MI);
701   ++NumReduced;
702 
703   if (OpTransfer == OT_OperandsAll) {
704     MI->setDesc(MipsII->get(Entry.NarrowOpc()));
705     LLVM_DEBUG(dbgs() << "       to 16-bit: " << *MI);
706     return true;
707   } else {
708     MachineBasicBlock &MBB = *MI->getParent();
709     const MCInstrDesc &NewMCID = MipsII->get(Entry.NarrowOpc());
710     DebugLoc dl = MI->getDebugLoc();
711     MachineInstrBuilder MIB = BuildMI(MBB, MI, dl, NewMCID);
712     switch (OpTransfer) {
713     case OT_Operand2:
714       MIB.add(MI->getOperand(2));
715       break;
716     case OT_Operands02: {
717       MIB.add(MI->getOperand(0));
718       MIB.add(MI->getOperand(2));
719       break;
720     }
721     case OT_OperandsXOR: {
722       if (MI->getOperand(0).getReg() == MI->getOperand(2).getReg()) {
723         MIB.add(MI->getOperand(0));
724         MIB.add(MI->getOperand(1));
725         MIB.add(MI->getOperand(2));
726       } else {
727         MIB.add(MI->getOperand(0));
728         MIB.add(MI->getOperand(2));
729         MIB.add(MI->getOperand(1));
730       }
731       break;
732     }
733     case OT_OperandsMovep:
734     case OT_OperandsLwp:
735     case OT_OperandsSwp: {
736       if (ConsecutiveForward) {
737         MIB.add(MI->getOperand(0));
738         MIB.add(MI2->getOperand(0));
739         MIB.add(MI->getOperand(1));
740         if (OpTransfer == OT_OperandsMovep)
741           MIB.add(MI2->getOperand(1));
742         else
743           MIB.add(MI->getOperand(2));
744       } else { // consecutive backward
745         MIB.add(MI2->getOperand(0));
746         MIB.add(MI->getOperand(0));
747         MIB.add(MI2->getOperand(1));
748         if (OpTransfer == OT_OperandsMovep)
749           MIB.add(MI->getOperand(1));
750         else
751           MIB.add(MI2->getOperand(2));
752       }
753 
754       LLVM_DEBUG(dbgs() << "and converting 32-bit: " << *MI2
755                         << "       to: " << *MIB);
756 
757       MBB.erase_instr(MI);
758       MBB.erase_instr(MI2);
759       return true;
760     }
761     default:
762       llvm_unreachable("Unknown operand transfer!");
763     }
764 
765     // Transfer MI flags.
766     MIB.setMIFlags(MI->getFlags());
767 
768     LLVM_DEBUG(dbgs() << "       to 16-bit: " << *MIB);
769     MBB.erase_instr(MI);
770     return true;
771   }
772   return false;
773 }
774 
775 bool MicroMipsSizeReduce::runOnMachineFunction(MachineFunction &MF) {
776 
777   Subtarget = &static_cast<const MipsSubtarget &>(MF.getSubtarget());
778 
779   // TODO: Add support for the subtarget microMIPS32R6.
780   if (!Subtarget->inMicroMipsMode() || !Subtarget->hasMips32r2() ||
781       Subtarget->hasMips32r6())
782     return false;
783 
784   MipsII = static_cast<const MipsInstrInfo *>(Subtarget->getInstrInfo());
785 
786   bool Modified = false;
787   MachineFunction::iterator I = MF.begin(), E = MF.end();
788 
789   for (; I != E; ++I)
790     Modified |= ReduceMBB(*I);
791   return Modified;
792 }
793 
794 /// Returns an instance of the MicroMips size reduction pass.
795 FunctionPass *llvm::createMicroMipsSizeReducePass() {
796   return new MicroMipsSizeReduce();
797 }
798