1 //===- CodeGenMapTable.cpp - Instruction Mapping Table Generator ----------===//
2 //
3 //                     The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 // CodeGenMapTable provides functionality for the TabelGen to create
10 // relation mapping between instructions. Relation models are defined using
11 // InstrMapping as a base class. This file implements the functionality which
12 // parses these definitions and generates relation maps using the information
13 // specified there. These maps are emitted as tables in the XXXGenInstrInfo.inc
14 // file along with the functions to query them.
15 //
16 // A relationship model to relate non-predicate instructions with their
17 // predicated true/false forms can be defined as follows:
18 //
19 // def getPredOpcode : InstrMapping {
20 //  let FilterClass = "PredRel";
21 //  let RowFields = ["BaseOpcode"];
22 //  let ColFields = ["PredSense"];
23 //  let KeyCol = ["none"];
24 //  let ValueCols = [["true"], ["false"]]; }
25 //
26 // CodeGenMapTable parses this map and generates a table in XXXGenInstrInfo.inc
27 // file that contains the instructions modeling this relationship. This table
28 // is defined in the function
29 // "int getPredOpcode(uint16_t Opcode, enum PredSense inPredSense)"
30 // that can be used to retrieve the predicated form of the instruction by
31 // passing its opcode value and the predicate sense (true/false) of the desired
32 // instruction as arguments.
33 //
34 // Short description of the algorithm:
35 //
36 // 1) Iterate through all the records that derive from "InstrMapping" class.
37 // 2) For each record, filter out instructions based on the FilterClass value.
38 // 3) Iterate through this set of instructions and insert them into
39 // RowInstrMap map based on their RowFields values. RowInstrMap is keyed by the
40 // vector of RowFields values and contains vectors of Records (instructions) as
41 // values. RowFields is a list of fields that are required to have the same
42 // values for all the instructions appearing in the same row of the relation
43 // table. All the instructions in a given row of the relation table have some
44 // sort of relationship with the key instruction defined by the corresponding
45 // relationship model.
46 //
47 // Ex: RowInstrMap(RowVal1, RowVal2, ...) -> [Instr1, Instr2, Instr3, ... ]
48 // Here Instr1, Instr2, Instr3 have same values (RowVal1, RowVal2) for
49 // RowFields. These groups of instructions are later matched against ValueCols
50 // to determine the column they belong to, if any.
51 //
52 // While building the RowInstrMap map, collect all the key instructions in
53 // KeyInstrVec. These are the instructions having the same values as KeyCol
54 // for all the fields listed in ColFields.
55 //
56 // For Example:
57 //
58 // Relate non-predicate instructions with their predicated true/false forms.
59 //
60 // def getPredOpcode : InstrMapping {
61 //  let FilterClass = "PredRel";
62 //  let RowFields = ["BaseOpcode"];
63 //  let ColFields = ["PredSense"];
64 //  let KeyCol = ["none"];
65 //  let ValueCols = [["true"], ["false"]]; }
66 //
67 // Here, only instructions that have "none" as PredSense will be selected as key
68 // instructions.
69 //
70 // 4) For each key instruction, get the group of instructions that share the
71 // same key-value as the key instruction from RowInstrMap. Iterate over the list
72 // of columns in ValueCols (it is defined as a list<list<string> >. Therefore,
73 // it can specify multi-column relationships). For each column, find the
74 // instruction from the group that matches all the values for the column.
75 // Multiple matches are not allowed.
76 //
77 //===----------------------------------------------------------------------===//
78 
79 #include "CodeGenTarget.h"
80 #include "llvm/Support/Format.h"
81 #include "llvm/TableGen/Error.h"
82 using namespace llvm;
83 typedef std::map<std::string, std::vector<Record*> > InstrRelMapTy;
84 
85 typedef std::map<std::vector<Init*>, std::vector<Record*> > RowInstrMapTy;
86 
87 namespace {
88 
89 //===----------------------------------------------------------------------===//
90 // This class is used to represent InstrMapping class defined in Target.td file.
91 class InstrMap {
92 private:
93   std::string Name;
94   std::string FilterClass;
95   ListInit *RowFields;
96   ListInit *ColFields;
97   ListInit *KeyCol;
98   std::vector<ListInit*> ValueCols;
99 
100 public:
InstrMap(Record * MapRec)101   InstrMap(Record* MapRec) {
102     Name = MapRec->getName();
103 
104     // FilterClass - It's used to reduce the search space only to the
105     // instructions that define the kind of relationship modeled by
106     // this InstrMapping object/record.
107     const RecordVal *Filter = MapRec->getValue("FilterClass");
108     FilterClass = Filter->getValue()->getAsUnquotedString();
109 
110     // List of fields/attributes that need to be same across all the
111     // instructions in a row of the relation table.
112     RowFields = MapRec->getValueAsListInit("RowFields");
113 
114     // List of fields/attributes that are constant across all the instruction
115     // in a column of the relation table. Ex: ColFields = 'predSense'
116     ColFields = MapRec->getValueAsListInit("ColFields");
117 
118     // Values for the fields/attributes listed in 'ColFields'.
119     // Ex: KeyCol = 'noPred' -- key instruction is non-predicated
120     KeyCol = MapRec->getValueAsListInit("KeyCol");
121 
122     // List of values for the fields/attributes listed in 'ColFields', one for
123     // each column in the relation table.
124     //
125     // Ex: ValueCols = [['true'],['false']] -- it results two columns in the
126     // table. First column requires all the instructions to have predSense
127     // set to 'true' and second column requires it to be 'false'.
128     ListInit *ColValList = MapRec->getValueAsListInit("ValueCols");
129 
130     // Each instruction map must specify at least one column for it to be valid.
131     if (ColValList->empty())
132       PrintFatalError(MapRec->getLoc(), "InstrMapping record `" +
133         MapRec->getName() + "' has empty " + "`ValueCols' field!");
134 
135     for (Init *I : ColValList->getValues()) {
136       ListInit *ColI = dyn_cast<ListInit>(I);
137 
138       // Make sure that all the sub-lists in 'ValueCols' have same number of
139       // elements as the fields in 'ColFields'.
140       if (ColI->size() != ColFields->size())
141         PrintFatalError(MapRec->getLoc(), "Record `" + MapRec->getName() +
142           "', field `ValueCols' entries don't match with " +
143           " the entries in 'ColFields'!");
144       ValueCols.push_back(ColI);
145     }
146   }
147 
getName() const148   std::string getName() const {
149     return Name;
150   }
151 
getFilterClass()152   std::string getFilterClass() {
153     return FilterClass;
154   }
155 
getRowFields() const156   ListInit *getRowFields() const {
157     return RowFields;
158   }
159 
getColFields() const160   ListInit *getColFields() const {
161     return ColFields;
162   }
163 
getKeyCol() const164   ListInit *getKeyCol() const {
165     return KeyCol;
166   }
167 
getValueCols() const168   const std::vector<ListInit*> &getValueCols() const {
169     return ValueCols;
170   }
171 };
172 } // End anonymous namespace.
173 
174 
175 //===----------------------------------------------------------------------===//
176 // class MapTableEmitter : It builds the instruction relation maps using
177 // the information provided in InstrMapping records. It outputs these
178 // relationship maps as tables into XXXGenInstrInfo.inc file along with the
179 // functions to query them.
180 
181 namespace {
182 class MapTableEmitter {
183 private:
184 //  std::string TargetName;
185   const CodeGenTarget &Target;
186   // InstrMapDesc - InstrMapping record to be processed.
187   InstrMap InstrMapDesc;
188 
189   // InstrDefs - list of instructions filtered using FilterClass defined
190   // in InstrMapDesc.
191   std::vector<Record*> InstrDefs;
192 
193   // RowInstrMap - maps RowFields values to the instructions. It's keyed by the
194   // values of the row fields and contains vector of records as values.
195   RowInstrMapTy RowInstrMap;
196 
197   // KeyInstrVec - list of key instructions.
198   std::vector<Record*> KeyInstrVec;
199   DenseMap<Record*, std::vector<Record*> > MapTable;
200 
201 public:
MapTableEmitter(CodeGenTarget & Target,RecordKeeper & Records,Record * IMRec)202   MapTableEmitter(CodeGenTarget &Target, RecordKeeper &Records, Record *IMRec):
203                   Target(Target), InstrMapDesc(IMRec) {
204     const std::string FilterClass = InstrMapDesc.getFilterClass();
205     InstrDefs = Records.getAllDerivedDefinitions(FilterClass);
206   }
207 
208   void buildRowInstrMap();
209 
210   // Returns true if an instruction is a key instruction, i.e., its ColFields
211   // have same values as KeyCol.
212   bool isKeyColInstr(Record* CurInstr);
213 
214   // Find column instruction corresponding to a key instruction based on the
215   // constraints for that column.
216   Record *getInstrForColumn(Record *KeyInstr, ListInit *CurValueCol);
217 
218   // Find column instructions for each key instruction based
219   // on ValueCols and store them into MapTable.
220   void buildMapTable();
221 
222   void emitBinSearch(raw_ostream &OS, unsigned TableSize);
223   void emitTablesWithFunc(raw_ostream &OS);
224   unsigned emitBinSearchTable(raw_ostream &OS);
225 
226   // Lookup functions to query binary search tables.
227   void emitMapFuncBody(raw_ostream &OS, unsigned TableSize);
228 
229 };
230 } // End anonymous namespace.
231 
232 
233 //===----------------------------------------------------------------------===//
234 // Process all the instructions that model this relation (alreday present in
235 // InstrDefs) and insert them into RowInstrMap which is keyed by the values of
236 // the fields listed as RowFields. It stores vectors of records as values.
237 // All the related instructions have the same values for the RowFields thus are
238 // part of the same key-value pair.
239 //===----------------------------------------------------------------------===//
240 
buildRowInstrMap()241 void MapTableEmitter::buildRowInstrMap() {
242   for (Record *CurInstr : InstrDefs) {
243     std::vector<Init*> KeyValue;
244     ListInit *RowFields = InstrMapDesc.getRowFields();
245     for (Init *RowField : RowFields->getValues()) {
246       RecordVal *RecVal = CurInstr->getValue(RowField);
247       if (RecVal == nullptr)
248         PrintFatalError(CurInstr->getLoc(), "No value " +
249                         RowField->getAsString() + " found in \"" +
250                         CurInstr->getName() + "\" instruction description.");
251       Init *CurInstrVal = RecVal->getValue();
252       KeyValue.push_back(CurInstrVal);
253     }
254 
255     // Collect key instructions into KeyInstrVec. Later, these instructions are
256     // processed to assign column position to the instructions sharing
257     // their KeyValue in RowInstrMap.
258     if (isKeyColInstr(CurInstr))
259       KeyInstrVec.push_back(CurInstr);
260 
261     RowInstrMap[KeyValue].push_back(CurInstr);
262   }
263 }
264 
265 //===----------------------------------------------------------------------===//
266 // Return true if an instruction is a KeyCol instruction.
267 //===----------------------------------------------------------------------===//
268 
isKeyColInstr(Record * CurInstr)269 bool MapTableEmitter::isKeyColInstr(Record* CurInstr) {
270   ListInit *ColFields = InstrMapDesc.getColFields();
271   ListInit *KeyCol = InstrMapDesc.getKeyCol();
272 
273   // Check if the instruction is a KeyCol instruction.
274   bool MatchFound = true;
275   for (unsigned j = 0, endCF = ColFields->size();
276       (j < endCF) && MatchFound; j++) {
277     RecordVal *ColFieldName = CurInstr->getValue(ColFields->getElement(j));
278     std::string CurInstrVal = ColFieldName->getValue()->getAsUnquotedString();
279     std::string KeyColValue = KeyCol->getElement(j)->getAsUnquotedString();
280     MatchFound = (CurInstrVal == KeyColValue);
281   }
282   return MatchFound;
283 }
284 
285 //===----------------------------------------------------------------------===//
286 // Build a map to link key instructions with the column instructions arranged
287 // according to their column positions.
288 //===----------------------------------------------------------------------===//
289 
buildMapTable()290 void MapTableEmitter::buildMapTable() {
291   // Find column instructions for a given key based on the ColField
292   // constraints.
293   const std::vector<ListInit*> &ValueCols = InstrMapDesc.getValueCols();
294   unsigned NumOfCols = ValueCols.size();
295   for (Record *CurKeyInstr : KeyInstrVec) {
296     std::vector<Record*> ColInstrVec(NumOfCols);
297 
298     // Find the column instruction based on the constraints for the column.
299     for (unsigned ColIdx = 0; ColIdx < NumOfCols; ColIdx++) {
300       ListInit *CurValueCol = ValueCols[ColIdx];
301       Record *ColInstr = getInstrForColumn(CurKeyInstr, CurValueCol);
302       ColInstrVec[ColIdx] = ColInstr;
303     }
304     MapTable[CurKeyInstr] = ColInstrVec;
305   }
306 }
307 
308 //===----------------------------------------------------------------------===//
309 // Find column instruction based on the constraints for that column.
310 //===----------------------------------------------------------------------===//
311 
getInstrForColumn(Record * KeyInstr,ListInit * CurValueCol)312 Record *MapTableEmitter::getInstrForColumn(Record *KeyInstr,
313                                            ListInit *CurValueCol) {
314   ListInit *RowFields = InstrMapDesc.getRowFields();
315   std::vector<Init*> KeyValue;
316 
317   // Construct KeyValue using KeyInstr's values for RowFields.
318   for (Init *RowField : RowFields->getValues()) {
319     Init *KeyInstrVal = KeyInstr->getValue(RowField)->getValue();
320     KeyValue.push_back(KeyInstrVal);
321   }
322 
323   // Get all the instructions that share the same KeyValue as the KeyInstr
324   // in RowInstrMap. We search through these instructions to find a match
325   // for the current column, i.e., the instruction which has the same values
326   // as CurValueCol for all the fields in ColFields.
327   const std::vector<Record*> &RelatedInstrVec = RowInstrMap[KeyValue];
328 
329   ListInit *ColFields = InstrMapDesc.getColFields();
330   Record *MatchInstr = nullptr;
331 
332   for (unsigned i = 0, e = RelatedInstrVec.size(); i < e; i++) {
333     bool MatchFound = true;
334     Record *CurInstr = RelatedInstrVec[i];
335     for (unsigned j = 0, endCF = ColFields->size();
336         (j < endCF) && MatchFound; j++) {
337       Init *ColFieldJ = ColFields->getElement(j);
338       Init *CurInstrInit = CurInstr->getValue(ColFieldJ)->getValue();
339       std::string CurInstrVal = CurInstrInit->getAsUnquotedString();
340       Init *ColFieldJVallue = CurValueCol->getElement(j);
341       MatchFound = (CurInstrVal == ColFieldJVallue->getAsUnquotedString());
342     }
343 
344     if (MatchFound) {
345       if (MatchInstr) {
346         // Already had a match
347         // Error if multiple matches are found for a column.
348         std::string KeyValueStr;
349         for (Init *Value : KeyValue) {
350           if (!KeyValueStr.empty())
351             KeyValueStr += ", ";
352           KeyValueStr += Value->getAsString();
353         }
354 
355         PrintFatalError("Multiple matches found for `" + KeyInstr->getName() +
356               "', for the relation `" + InstrMapDesc.getName() + "', row fields [" +
357               KeyValueStr + "], column `" + CurValueCol->getAsString() + "'");
358       }
359       MatchInstr = CurInstr;
360     }
361   }
362   return MatchInstr;
363 }
364 
365 //===----------------------------------------------------------------------===//
366 // Emit one table per relation. Only instructions with a valid relation of a
367 // given type are included in the table sorted by their enum values (opcodes).
368 // Binary search is used for locating instructions in the table.
369 //===----------------------------------------------------------------------===//
370 
emitBinSearchTable(raw_ostream & OS)371 unsigned MapTableEmitter::emitBinSearchTable(raw_ostream &OS) {
372 
373   ArrayRef<const CodeGenInstruction*> NumberedInstructions =
374                                             Target.getInstructionsByEnumValue();
375   StringRef Namespace = Target.getInstNamespace();
376   const std::vector<ListInit*> &ValueCols = InstrMapDesc.getValueCols();
377   unsigned NumCol = ValueCols.size();
378   unsigned TotalNumInstr = NumberedInstructions.size();
379   unsigned TableSize = 0;
380 
381   OS << "static const uint16_t "<<InstrMapDesc.getName();
382   // Number of columns in the table are NumCol+1 because key instructions are
383   // emitted as first column.
384   OS << "Table[]["<< NumCol+1 << "] = {\n";
385   for (unsigned i = 0; i < TotalNumInstr; i++) {
386     Record *CurInstr = NumberedInstructions[i]->TheDef;
387     std::vector<Record*> ColInstrs = MapTable[CurInstr];
388     std::string OutStr("");
389     unsigned RelExists = 0;
390     if (!ColInstrs.empty()) {
391       for (unsigned j = 0; j < NumCol; j++) {
392         if (ColInstrs[j] != nullptr) {
393           RelExists = 1;
394           OutStr += ", ";
395           OutStr += Namespace;
396           OutStr += "::";
397           OutStr += ColInstrs[j]->getName();
398         } else { OutStr += ", (uint16_t)-1U";}
399       }
400 
401       if (RelExists) {
402         OS << "  { " << Namespace << "::" << CurInstr->getName();
403         OS << OutStr <<" },\n";
404         TableSize++;
405       }
406     }
407   }
408   if (!TableSize) {
409     OS << "  { " << Namespace << "::" << "INSTRUCTION_LIST_END, ";
410     OS << Namespace << "::" << "INSTRUCTION_LIST_END }";
411   }
412   OS << "}; // End of " << InstrMapDesc.getName() << "Table\n\n";
413   return TableSize;
414 }
415 
416 //===----------------------------------------------------------------------===//
417 // Emit binary search algorithm as part of the functions used to query
418 // relation tables.
419 //===----------------------------------------------------------------------===//
420 
emitBinSearch(raw_ostream & OS,unsigned TableSize)421 void MapTableEmitter::emitBinSearch(raw_ostream &OS, unsigned TableSize) {
422   OS << "  unsigned mid;\n";
423   OS << "  unsigned start = 0;\n";
424   OS << "  unsigned end = " << TableSize << ";\n";
425   OS << "  while (start < end) {\n";
426   OS << "    mid = start + (end - start)/2;\n";
427   OS << "    if (Opcode == " << InstrMapDesc.getName() << "Table[mid][0]) {\n";
428   OS << "      break;\n";
429   OS << "    }\n";
430   OS << "    if (Opcode < " << InstrMapDesc.getName() << "Table[mid][0])\n";
431   OS << "      end = mid;\n";
432   OS << "    else\n";
433   OS << "      start = mid + 1;\n";
434   OS << "  }\n";
435   OS << "  if (start == end)\n";
436   OS << "    return -1; // Instruction doesn't exist in this table.\n\n";
437 }
438 
439 //===----------------------------------------------------------------------===//
440 // Emit functions to query relation tables.
441 //===----------------------------------------------------------------------===//
442 
emitMapFuncBody(raw_ostream & OS,unsigned TableSize)443 void MapTableEmitter::emitMapFuncBody(raw_ostream &OS,
444                                            unsigned TableSize) {
445 
446   ListInit *ColFields = InstrMapDesc.getColFields();
447   const std::vector<ListInit*> &ValueCols = InstrMapDesc.getValueCols();
448 
449   // Emit binary search algorithm to locate instructions in the
450   // relation table. If found, return opcode value from the appropriate column
451   // of the table.
452   emitBinSearch(OS, TableSize);
453 
454   if (ValueCols.size() > 1) {
455     for (unsigned i = 0, e = ValueCols.size(); i < e; i++) {
456       ListInit *ColumnI = ValueCols[i];
457       for (unsigned j = 0, ColSize = ColumnI->size(); j < ColSize; ++j) {
458         std::string ColName = ColFields->getElement(j)->getAsUnquotedString();
459         OS << "  if (in" << ColName;
460         OS << " == ";
461         OS << ColName << "_" << ColumnI->getElement(j)->getAsUnquotedString();
462         if (j < ColumnI->size() - 1) OS << " && ";
463         else OS << ")\n";
464       }
465       OS << "    return " << InstrMapDesc.getName();
466       OS << "Table[mid]["<<i+1<<"];\n";
467     }
468     OS << "  return -1;";
469   }
470   else
471     OS << "  return " << InstrMapDesc.getName() << "Table[mid][1];\n";
472 
473   OS <<"}\n\n";
474 }
475 
476 //===----------------------------------------------------------------------===//
477 // Emit relation tables and the functions to query them.
478 //===----------------------------------------------------------------------===//
479 
emitTablesWithFunc(raw_ostream & OS)480 void MapTableEmitter::emitTablesWithFunc(raw_ostream &OS) {
481 
482   // Emit function name and the input parameters : mostly opcode value of the
483   // current instruction. However, if a table has multiple columns (more than 2
484   // since first column is used for the key instructions), then we also need
485   // to pass another input to indicate the column to be selected.
486 
487   ListInit *ColFields = InstrMapDesc.getColFields();
488   const std::vector<ListInit*> &ValueCols = InstrMapDesc.getValueCols();
489   OS << "// "<< InstrMapDesc.getName() << "\nLLVM_READONLY\n";
490   OS << "int "<< InstrMapDesc.getName() << "(uint16_t Opcode";
491   if (ValueCols.size() > 1) {
492     for (Init *CF : ColFields->getValues()) {
493       std::string ColName = CF->getAsUnquotedString();
494       OS << ", enum " << ColName << " in" << ColName << ") {\n";
495     }
496   } else { OS << ") {\n"; }
497 
498   // Emit map table.
499   unsigned TableSize = emitBinSearchTable(OS);
500 
501   // Emit rest of the function body.
502   emitMapFuncBody(OS, TableSize);
503 }
504 
505 //===----------------------------------------------------------------------===//
506 // Emit enums for the column fields across all the instruction maps.
507 //===----------------------------------------------------------------------===//
508 
emitEnums(raw_ostream & OS,RecordKeeper & Records)509 static void emitEnums(raw_ostream &OS, RecordKeeper &Records) {
510 
511   std::vector<Record*> InstrMapVec;
512   InstrMapVec = Records.getAllDerivedDefinitions("InstrMapping");
513   std::map<std::string, std::vector<Init*> > ColFieldValueMap;
514 
515   // Iterate over all InstrMapping records and create a map between column
516   // fields and their possible values across all records.
517   for (Record *CurMap : InstrMapVec) {
518     ListInit *ColFields;
519     ColFields = CurMap->getValueAsListInit("ColFields");
520     ListInit *List = CurMap->getValueAsListInit("ValueCols");
521     std::vector<ListInit*> ValueCols;
522     unsigned ListSize = List->size();
523 
524     for (unsigned j = 0; j < ListSize; j++) {
525       ListInit *ListJ = dyn_cast<ListInit>(List->getElement(j));
526 
527       if (ListJ->size() != ColFields->size())
528         PrintFatalError("Record `" + CurMap->getName() + "', field "
529           "`ValueCols' entries don't match with the entries in 'ColFields' !");
530       ValueCols.push_back(ListJ);
531     }
532 
533     for (unsigned j = 0, endCF = ColFields->size(); j < endCF; j++) {
534       for (unsigned k = 0; k < ListSize; k++){
535         std::string ColName = ColFields->getElement(j)->getAsUnquotedString();
536         ColFieldValueMap[ColName].push_back((ValueCols[k])->getElement(j));
537       }
538     }
539   }
540 
541   for (auto &Entry : ColFieldValueMap) {
542     std::vector<Init*> FieldValues = Entry.second;
543 
544     // Delete duplicate entries from ColFieldValueMap
545     for (unsigned i = 0; i < FieldValues.size() - 1; i++) {
546       Init *CurVal = FieldValues[i];
547       for (unsigned j = i+1; j < FieldValues.size(); j++) {
548         if (CurVal == FieldValues[j]) {
549           FieldValues.erase(FieldValues.begin()+j);
550           --j;
551         }
552       }
553     }
554 
555     // Emit enumerated values for the column fields.
556     OS << "enum " << Entry.first << " {\n";
557     for (unsigned i = 0, endFV = FieldValues.size(); i < endFV; i++) {
558       OS << "\t" << Entry.first << "_" << FieldValues[i]->getAsUnquotedString();
559       if (i != endFV - 1)
560         OS << ",\n";
561       else
562         OS << "\n};\n\n";
563     }
564   }
565 }
566 
567 namespace llvm {
568 //===----------------------------------------------------------------------===//
569 // Parse 'InstrMapping' records and use the information to form relationship
570 // between instructions. These relations are emitted as a tables along with the
571 // functions to query them.
572 //===----------------------------------------------------------------------===//
EmitMapTable(RecordKeeper & Records,raw_ostream & OS)573 void EmitMapTable(RecordKeeper &Records, raw_ostream &OS) {
574   CodeGenTarget Target(Records);
575   StringRef NameSpace = Target.getInstNamespace();
576   std::vector<Record*> InstrMapVec;
577   InstrMapVec = Records.getAllDerivedDefinitions("InstrMapping");
578 
579   if (InstrMapVec.empty())
580     return;
581 
582   OS << "#ifdef GET_INSTRMAP_INFO\n";
583   OS << "#undef GET_INSTRMAP_INFO\n";
584   OS << "namespace llvm {\n\n";
585   OS << "namespace " << NameSpace << " {\n\n";
586 
587   // Emit coulumn field names and their values as enums.
588   emitEnums(OS, Records);
589 
590   // Iterate over all instruction mapping records and construct relationship
591   // maps based on the information specified there.
592   //
593   for (Record *CurMap : InstrMapVec) {
594     MapTableEmitter IMap(Target, Records, CurMap);
595 
596     // Build RowInstrMap to group instructions based on their values for
597     // RowFields. In the process, also collect key instructions into
598     // KeyInstrVec.
599     IMap.buildRowInstrMap();
600 
601     // Build MapTable to map key instructions with the corresponding column
602     // instructions.
603     IMap.buildMapTable();
604 
605     // Emit map tables and the functions to query them.
606     IMap.emitTablesWithFunc(OS);
607   }
608   OS << "} // End " << NameSpace << " namespace\n";
609   OS << "} // End llvm namespace\n";
610   OS << "#endif // GET_INSTRMAP_INFO\n\n";
611 }
612 
613 } // End llvm namespace
614