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https://github.com/c64scene-ar/llvm-6502.git
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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@238806 91177308-0d34-0410-b5e6-96231b3b80d8
601 lines
23 KiB
C++
601 lines
23 KiB
C++
//===- CodeGenMapTable.cpp - Instruction Mapping Table Generator ----------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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// CodeGenMapTable provides functionality for the TabelGen to create
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// relation mapping between instructions. Relation models are defined using
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// InstrMapping as a base class. This file implements the functionality which
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// parses these definitions and generates relation maps using the information
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// specified there. These maps are emitted as tables in the XXXGenInstrInfo.inc
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// file along with the functions to query them.
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//
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// A relationship model to relate non-predicate instructions with their
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// predicated true/false forms can be defined as follows:
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//
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// def getPredOpcode : InstrMapping {
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// let FilterClass = "PredRel";
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// let RowFields = ["BaseOpcode"];
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// let ColFields = ["PredSense"];
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// let KeyCol = ["none"];
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// let ValueCols = [["true"], ["false"]]; }
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//
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// CodeGenMapTable parses this map and generates a table in XXXGenInstrInfo.inc
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// file that contains the instructions modeling this relationship. This table
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// is defined in the function
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// "int getPredOpcode(uint16_t Opcode, enum PredSense inPredSense)"
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// that can be used to retrieve the predicated form of the instruction by
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// passing its opcode value and the predicate sense (true/false) of the desired
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// instruction as arguments.
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//
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// Short description of the algorithm:
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//
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// 1) Iterate through all the records that derive from "InstrMapping" class.
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// 2) For each record, filter out instructions based on the FilterClass value.
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// 3) Iterate through this set of instructions and insert them into
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// RowInstrMap map based on their RowFields values. RowInstrMap is keyed by the
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// vector of RowFields values and contains vectors of Records (instructions) as
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// values. RowFields is a list of fields that are required to have the same
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// values for all the instructions appearing in the same row of the relation
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// table. All the instructions in a given row of the relation table have some
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// sort of relationship with the key instruction defined by the corresponding
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// relationship model.
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//
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// Ex: RowInstrMap(RowVal1, RowVal2, ...) -> [Instr1, Instr2, Instr3, ... ]
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// Here Instr1, Instr2, Instr3 have same values (RowVal1, RowVal2) for
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// RowFields. These groups of instructions are later matched against ValueCols
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// to determine the column they belong to, if any.
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//
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// While building the RowInstrMap map, collect all the key instructions in
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// KeyInstrVec. These are the instructions having the same values as KeyCol
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// for all the fields listed in ColFields.
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//
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// For Example:
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//
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// Relate non-predicate instructions with their predicated true/false forms.
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//
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// def getPredOpcode : InstrMapping {
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// let FilterClass = "PredRel";
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// let RowFields = ["BaseOpcode"];
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// let ColFields = ["PredSense"];
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// let KeyCol = ["none"];
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// let ValueCols = [["true"], ["false"]]; }
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//
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// Here, only instructions that have "none" as PredSense will be selected as key
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// instructions.
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//
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// 4) For each key instruction, get the group of instructions that share the
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// same key-value as the key instruction from RowInstrMap. Iterate over the list
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// of columns in ValueCols (it is defined as a list<list<string> >. Therefore,
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// it can specify multi-column relationships). For each column, find the
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// instruction from the group that matches all the values for the column.
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// Multiple matches are not allowed.
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//
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//===----------------------------------------------------------------------===//
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#include "CodeGenTarget.h"
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#include "llvm/Support/Format.h"
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#include "llvm/TableGen/Error.h"
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using namespace llvm;
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typedef std::map<std::string, std::vector<Record*> > InstrRelMapTy;
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typedef std::map<std::vector<Init*>, std::vector<Record*> > RowInstrMapTy;
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namespace {
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//===----------------------------------------------------------------------===//
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// This class is used to represent InstrMapping class defined in Target.td file.
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class InstrMap {
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private:
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std::string Name;
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std::string FilterClass;
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ListInit *RowFields;
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ListInit *ColFields;
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ListInit *KeyCol;
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std::vector<ListInit*> ValueCols;
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public:
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InstrMap(Record* MapRec) {
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Name = MapRec->getName();
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// FilterClass - It's used to reduce the search space only to the
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// instructions that define the kind of relationship modeled by
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// this InstrMapping object/record.
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const RecordVal *Filter = MapRec->getValue("FilterClass");
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FilterClass = Filter->getValue()->getAsUnquotedString();
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// List of fields/attributes that need to be same across all the
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// instructions in a row of the relation table.
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RowFields = MapRec->getValueAsListInit("RowFields");
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// List of fields/attributes that are constant across all the instruction
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// in a column of the relation table. Ex: ColFields = 'predSense'
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ColFields = MapRec->getValueAsListInit("ColFields");
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// Values for the fields/attributes listed in 'ColFields'.
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// Ex: KeyCol = 'noPred' -- key instruction is non-predicated
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KeyCol = MapRec->getValueAsListInit("KeyCol");
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// List of values for the fields/attributes listed in 'ColFields', one for
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// each column in the relation table.
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//
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// Ex: ValueCols = [['true'],['false']] -- it results two columns in the
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// table. First column requires all the instructions to have predSense
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// set to 'true' and second column requires it to be 'false'.
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ListInit *ColValList = MapRec->getValueAsListInit("ValueCols");
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// Each instruction map must specify at least one column for it to be valid.
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if (ColValList->empty())
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PrintFatalError(MapRec->getLoc(), "InstrMapping record `" +
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MapRec->getName() + "' has empty " + "`ValueCols' field!");
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for (Init *I : ColValList->getValues()) {
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ListInit *ColI = dyn_cast<ListInit>(I);
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// Make sure that all the sub-lists in 'ValueCols' have same number of
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// elements as the fields in 'ColFields'.
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if (ColI->size() != ColFields->size())
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PrintFatalError(MapRec->getLoc(), "Record `" + MapRec->getName() +
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"', field `ValueCols' entries don't match with " +
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" the entries in 'ColFields'!");
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ValueCols.push_back(ColI);
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}
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}
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std::string getName() const {
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return Name;
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}
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std::string getFilterClass() {
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return FilterClass;
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}
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ListInit *getRowFields() const {
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return RowFields;
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}
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ListInit *getColFields() const {
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return ColFields;
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}
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ListInit *getKeyCol() const {
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return KeyCol;
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}
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const std::vector<ListInit*> &getValueCols() const {
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return ValueCols;
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}
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};
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} // End anonymous namespace.
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//===----------------------------------------------------------------------===//
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// class MapTableEmitter : It builds the instruction relation maps using
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// the information provided in InstrMapping records. It outputs these
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// relationship maps as tables into XXXGenInstrInfo.inc file along with the
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// functions to query them.
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namespace {
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class MapTableEmitter {
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private:
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// std::string TargetName;
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const CodeGenTarget &Target;
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// InstrMapDesc - InstrMapping record to be processed.
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InstrMap InstrMapDesc;
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// InstrDefs - list of instructions filtered using FilterClass defined
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// in InstrMapDesc.
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std::vector<Record*> InstrDefs;
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// RowInstrMap - maps RowFields values to the instructions. It's keyed by the
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// values of the row fields and contains vector of records as values.
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RowInstrMapTy RowInstrMap;
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// KeyInstrVec - list of key instructions.
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std::vector<Record*> KeyInstrVec;
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DenseMap<Record*, std::vector<Record*> > MapTable;
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public:
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MapTableEmitter(CodeGenTarget &Target, RecordKeeper &Records, Record *IMRec):
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Target(Target), InstrMapDesc(IMRec) {
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const std::string FilterClass = InstrMapDesc.getFilterClass();
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InstrDefs = Records.getAllDerivedDefinitions(FilterClass);
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}
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void buildRowInstrMap();
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// Returns true if an instruction is a key instruction, i.e., its ColFields
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// have same values as KeyCol.
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bool isKeyColInstr(Record* CurInstr);
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// Find column instruction corresponding to a key instruction based on the
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// constraints for that column.
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Record *getInstrForColumn(Record *KeyInstr, ListInit *CurValueCol);
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// Find column instructions for each key instruction based
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// on ValueCols and store them into MapTable.
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void buildMapTable();
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void emitBinSearch(raw_ostream &OS, unsigned TableSize);
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void emitTablesWithFunc(raw_ostream &OS);
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unsigned emitBinSearchTable(raw_ostream &OS);
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// Lookup functions to query binary search tables.
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void emitMapFuncBody(raw_ostream &OS, unsigned TableSize);
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};
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} // End anonymous namespace.
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//===----------------------------------------------------------------------===//
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// Process all the instructions that model this relation (alreday present in
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// InstrDefs) and insert them into RowInstrMap which is keyed by the values of
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// the fields listed as RowFields. It stores vectors of records as values.
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// All the related instructions have the same values for the RowFields thus are
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// part of the same key-value pair.
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//===----------------------------------------------------------------------===//
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void MapTableEmitter::buildRowInstrMap() {
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for (Record *CurInstr : InstrDefs) {
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std::vector<Init*> KeyValue;
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ListInit *RowFields = InstrMapDesc.getRowFields();
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for (Init *RowField : RowFields->getValues()) {
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Init *CurInstrVal = CurInstr->getValue(RowField)->getValue();
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KeyValue.push_back(CurInstrVal);
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}
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// Collect key instructions into KeyInstrVec. Later, these instructions are
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// processed to assign column position to the instructions sharing
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// their KeyValue in RowInstrMap.
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if (isKeyColInstr(CurInstr))
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KeyInstrVec.push_back(CurInstr);
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RowInstrMap[KeyValue].push_back(CurInstr);
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}
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}
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//===----------------------------------------------------------------------===//
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// Return true if an instruction is a KeyCol instruction.
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//===----------------------------------------------------------------------===//
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bool MapTableEmitter::isKeyColInstr(Record* CurInstr) {
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ListInit *ColFields = InstrMapDesc.getColFields();
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ListInit *KeyCol = InstrMapDesc.getKeyCol();
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// Check if the instruction is a KeyCol instruction.
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bool MatchFound = true;
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for (unsigned j = 0, endCF = ColFields->size();
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(j < endCF) && MatchFound; j++) {
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RecordVal *ColFieldName = CurInstr->getValue(ColFields->getElement(j));
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std::string CurInstrVal = ColFieldName->getValue()->getAsUnquotedString();
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std::string KeyColValue = KeyCol->getElement(j)->getAsUnquotedString();
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MatchFound = (CurInstrVal == KeyColValue);
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}
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return MatchFound;
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}
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//===----------------------------------------------------------------------===//
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// Build a map to link key instructions with the column instructions arranged
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// according to their column positions.
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//===----------------------------------------------------------------------===//
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void MapTableEmitter::buildMapTable() {
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// Find column instructions for a given key based on the ColField
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// constraints.
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const std::vector<ListInit*> &ValueCols = InstrMapDesc.getValueCols();
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unsigned NumOfCols = ValueCols.size();
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for (Record *CurKeyInstr : KeyInstrVec) {
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std::vector<Record*> ColInstrVec(NumOfCols);
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// Find the column instruction based on the constraints for the column.
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for (unsigned ColIdx = 0; ColIdx < NumOfCols; ColIdx++) {
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ListInit *CurValueCol = ValueCols[ColIdx];
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Record *ColInstr = getInstrForColumn(CurKeyInstr, CurValueCol);
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ColInstrVec[ColIdx] = ColInstr;
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}
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MapTable[CurKeyInstr] = ColInstrVec;
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}
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}
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//===----------------------------------------------------------------------===//
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// Find column instruction based on the constraints for that column.
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//===----------------------------------------------------------------------===//
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Record *MapTableEmitter::getInstrForColumn(Record *KeyInstr,
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ListInit *CurValueCol) {
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ListInit *RowFields = InstrMapDesc.getRowFields();
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std::vector<Init*> KeyValue;
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// Construct KeyValue using KeyInstr's values for RowFields.
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for (Init *RowField : RowFields->getValues()) {
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Init *KeyInstrVal = KeyInstr->getValue(RowField)->getValue();
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KeyValue.push_back(KeyInstrVal);
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}
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// Get all the instructions that share the same KeyValue as the KeyInstr
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// in RowInstrMap. We search through these instructions to find a match
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// for the current column, i.e., the instruction which has the same values
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// as CurValueCol for all the fields in ColFields.
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const std::vector<Record*> &RelatedInstrVec = RowInstrMap[KeyValue];
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ListInit *ColFields = InstrMapDesc.getColFields();
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Record *MatchInstr = nullptr;
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for (unsigned i = 0, e = RelatedInstrVec.size(); i < e; i++) {
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bool MatchFound = true;
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Record *CurInstr = RelatedInstrVec[i];
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for (unsigned j = 0, endCF = ColFields->size();
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(j < endCF) && MatchFound; j++) {
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Init *ColFieldJ = ColFields->getElement(j);
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Init *CurInstrInit = CurInstr->getValue(ColFieldJ)->getValue();
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std::string CurInstrVal = CurInstrInit->getAsUnquotedString();
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Init *ColFieldJVallue = CurValueCol->getElement(j);
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MatchFound = (CurInstrVal == ColFieldJVallue->getAsUnquotedString());
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}
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if (MatchFound) {
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if (MatchInstr) // Already had a match
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// Error if multiple matches are found for a column.
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PrintFatalError("Multiple matches found for `" + KeyInstr->getName() +
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"', for the relation `" + InstrMapDesc.getName());
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MatchInstr = CurInstr;
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}
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}
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return MatchInstr;
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}
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//===----------------------------------------------------------------------===//
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// Emit one table per relation. Only instructions with a valid relation of a
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// given type are included in the table sorted by their enum values (opcodes).
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// Binary search is used for locating instructions in the table.
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//===----------------------------------------------------------------------===//
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unsigned MapTableEmitter::emitBinSearchTable(raw_ostream &OS) {
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const std::vector<const CodeGenInstruction*> &NumberedInstructions =
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Target.getInstructionsByEnumValue();
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std::string TargetName = Target.getName();
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const std::vector<ListInit*> &ValueCols = InstrMapDesc.getValueCols();
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unsigned NumCol = ValueCols.size();
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unsigned TotalNumInstr = NumberedInstructions.size();
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unsigned TableSize = 0;
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OS << "static const uint16_t "<<InstrMapDesc.getName();
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// Number of columns in the table are NumCol+1 because key instructions are
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// emitted as first column.
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OS << "Table[]["<< NumCol+1 << "] = {\n";
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for (unsigned i = 0; i < TotalNumInstr; i++) {
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Record *CurInstr = NumberedInstructions[i]->TheDef;
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std::vector<Record*> ColInstrs = MapTable[CurInstr];
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std::string OutStr("");
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unsigned RelExists = 0;
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if (!ColInstrs.empty()) {
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for (unsigned j = 0; j < NumCol; j++) {
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if (ColInstrs[j] != nullptr) {
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RelExists = 1;
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OutStr += ", ";
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OutStr += TargetName;
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OutStr += "::";
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OutStr += ColInstrs[j]->getName();
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} else { OutStr += ", (uint16_t)-1U";}
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}
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if (RelExists) {
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OS << " { " << TargetName << "::" << CurInstr->getName();
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OS << OutStr <<" },\n";
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TableSize++;
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}
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}
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}
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if (!TableSize) {
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OS << " { " << TargetName << "::" << "INSTRUCTION_LIST_END, ";
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OS << TargetName << "::" << "INSTRUCTION_LIST_END }";
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}
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OS << "}; // End of " << InstrMapDesc.getName() << "Table\n\n";
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return TableSize;
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}
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//===----------------------------------------------------------------------===//
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// Emit binary search algorithm as part of the functions used to query
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// relation tables.
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//===----------------------------------------------------------------------===//
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void MapTableEmitter::emitBinSearch(raw_ostream &OS, unsigned TableSize) {
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OS << " unsigned mid;\n";
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OS << " unsigned start = 0;\n";
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OS << " unsigned end = " << TableSize << ";\n";
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OS << " while (start < end) {\n";
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OS << " mid = start + (end - start)/2;\n";
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OS << " if (Opcode == " << InstrMapDesc.getName() << "Table[mid][0]) {\n";
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OS << " break;\n";
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OS << " }\n";
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OS << " if (Opcode < " << InstrMapDesc.getName() << "Table[mid][0])\n";
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OS << " end = mid;\n";
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OS << " else\n";
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OS << " start = mid + 1;\n";
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OS << " }\n";
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OS << " if (start == end)\n";
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OS << " return -1; // Instruction doesn't exist in this table.\n\n";
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}
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//===----------------------------------------------------------------------===//
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// Emit functions to query relation tables.
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//===----------------------------------------------------------------------===//
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void MapTableEmitter::emitMapFuncBody(raw_ostream &OS,
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unsigned TableSize) {
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ListInit *ColFields = InstrMapDesc.getColFields();
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const std::vector<ListInit*> &ValueCols = InstrMapDesc.getValueCols();
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// Emit binary search algorithm to locate instructions in the
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// relation table. If found, return opcode value from the appropriate column
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// of the table.
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emitBinSearch(OS, TableSize);
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if (ValueCols.size() > 1) {
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for (unsigned i = 0, e = ValueCols.size(); i < e; i++) {
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ListInit *ColumnI = ValueCols[i];
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for (unsigned j = 0, ColSize = ColumnI->size(); j < ColSize; ++j) {
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std::string ColName = ColFields->getElement(j)->getAsUnquotedString();
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OS << " if (in" << ColName;
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OS << " == ";
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OS << ColName << "_" << ColumnI->getElement(j)->getAsUnquotedString();
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if (j < ColumnI->size() - 1) OS << " && ";
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else OS << ")\n";
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}
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OS << " return " << InstrMapDesc.getName();
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OS << "Table[mid]["<<i+1<<"];\n";
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}
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OS << " return -1;";
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}
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else
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OS << " return " << InstrMapDesc.getName() << "Table[mid][1];\n";
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OS <<"}\n\n";
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}
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//===----------------------------------------------------------------------===//
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// Emit relation tables and the functions to query them.
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//===----------------------------------------------------------------------===//
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void MapTableEmitter::emitTablesWithFunc(raw_ostream &OS) {
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// Emit function name and the input parameters : mostly opcode value of the
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// current instruction. However, if a table has multiple columns (more than 2
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// since first column is used for the key instructions), then we also need
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// to pass another input to indicate the column to be selected.
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ListInit *ColFields = InstrMapDesc.getColFields();
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const std::vector<ListInit*> &ValueCols = InstrMapDesc.getValueCols();
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OS << "// "<< InstrMapDesc.getName() << "\n";
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OS << "int "<< InstrMapDesc.getName() << "(uint16_t Opcode";
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if (ValueCols.size() > 1) {
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for (Init *CF : ColFields->getValues()) {
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std::string ColName = CF->getAsUnquotedString();
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OS << ", enum " << ColName << " in" << ColName << ") {\n";
|
|
}
|
|
} else { OS << ") {\n"; }
|
|
|
|
// Emit map table.
|
|
unsigned TableSize = emitBinSearchTable(OS);
|
|
|
|
// Emit rest of the function body.
|
|
emitMapFuncBody(OS, TableSize);
|
|
}
|
|
|
|
//===----------------------------------------------------------------------===//
|
|
// Emit enums for the column fields across all the instruction maps.
|
|
//===----------------------------------------------------------------------===//
|
|
|
|
static void emitEnums(raw_ostream &OS, RecordKeeper &Records) {
|
|
|
|
std::vector<Record*> InstrMapVec;
|
|
InstrMapVec = Records.getAllDerivedDefinitions("InstrMapping");
|
|
std::map<std::string, std::vector<Init*> > ColFieldValueMap;
|
|
|
|
// Iterate over all InstrMapping records and create a map between column
|
|
// fields and their possible values across all records.
|
|
for (unsigned i = 0, e = InstrMapVec.size(); i < e; i++) {
|
|
Record *CurMap = InstrMapVec[i];
|
|
ListInit *ColFields;
|
|
ColFields = CurMap->getValueAsListInit("ColFields");
|
|
ListInit *List = CurMap->getValueAsListInit("ValueCols");
|
|
std::vector<ListInit*> ValueCols;
|
|
unsigned ListSize = List->size();
|
|
|
|
for (unsigned j = 0; j < ListSize; j++) {
|
|
ListInit *ListJ = dyn_cast<ListInit>(List->getElement(j));
|
|
|
|
if (ListJ->size() != ColFields->size())
|
|
PrintFatalError("Record `" + CurMap->getName() + "', field "
|
|
"`ValueCols' entries don't match with the entries in 'ColFields' !");
|
|
ValueCols.push_back(ListJ);
|
|
}
|
|
|
|
for (unsigned j = 0, endCF = ColFields->size(); j < endCF; j++) {
|
|
for (unsigned k = 0; k < ListSize; k++){
|
|
std::string ColName = ColFields->getElement(j)->getAsUnquotedString();
|
|
ColFieldValueMap[ColName].push_back((ValueCols[k])->getElement(j));
|
|
}
|
|
}
|
|
}
|
|
|
|
for (std::map<std::string, std::vector<Init*> >::iterator
|
|
II = ColFieldValueMap.begin(), IE = ColFieldValueMap.end();
|
|
II != IE; II++) {
|
|
std::vector<Init*> FieldValues = (*II).second;
|
|
|
|
// Delete duplicate entries from ColFieldValueMap
|
|
for (unsigned i = 0; i < FieldValues.size() - 1; i++) {
|
|
Init *CurVal = FieldValues[i];
|
|
for (unsigned j = i+1; j < FieldValues.size(); j++) {
|
|
if (CurVal == FieldValues[j]) {
|
|
FieldValues.erase(FieldValues.begin()+j);
|
|
}
|
|
}
|
|
}
|
|
|
|
// Emit enumerated values for the column fields.
|
|
OS << "enum " << (*II).first << " {\n";
|
|
for (unsigned i = 0, endFV = FieldValues.size(); i < endFV; i++) {
|
|
OS << "\t" << (*II).first << "_" << FieldValues[i]->getAsUnquotedString();
|
|
if (i != endFV - 1)
|
|
OS << ",\n";
|
|
else
|
|
OS << "\n};\n\n";
|
|
}
|
|
}
|
|
}
|
|
|
|
namespace llvm {
|
|
//===----------------------------------------------------------------------===//
|
|
// Parse 'InstrMapping' records and use the information to form relationship
|
|
// between instructions. These relations are emitted as a tables along with the
|
|
// functions to query them.
|
|
//===----------------------------------------------------------------------===//
|
|
void EmitMapTable(RecordKeeper &Records, raw_ostream &OS) {
|
|
CodeGenTarget Target(Records);
|
|
std::string TargetName = Target.getName();
|
|
std::vector<Record*> InstrMapVec;
|
|
InstrMapVec = Records.getAllDerivedDefinitions("InstrMapping");
|
|
|
|
if (InstrMapVec.empty())
|
|
return;
|
|
|
|
OS << "#ifdef GET_INSTRMAP_INFO\n";
|
|
OS << "#undef GET_INSTRMAP_INFO\n";
|
|
OS << "namespace llvm {\n\n";
|
|
OS << "namespace " << TargetName << " {\n\n";
|
|
|
|
// Emit coulumn field names and their values as enums.
|
|
emitEnums(OS, Records);
|
|
|
|
// Iterate over all instruction mapping records and construct relationship
|
|
// maps based on the information specified there.
|
|
//
|
|
for (unsigned i = 0, e = InstrMapVec.size(); i < e; i++) {
|
|
MapTableEmitter IMap(Target, Records, InstrMapVec[i]);
|
|
|
|
// Build RowInstrMap to group instructions based on their values for
|
|
// RowFields. In the process, also collect key instructions into
|
|
// KeyInstrVec.
|
|
IMap.buildRowInstrMap();
|
|
|
|
// Build MapTable to map key instructions with the corresponding column
|
|
// instructions.
|
|
IMap.buildMapTable();
|
|
|
|
// Emit map tables and the functions to query them.
|
|
IMap.emitTablesWithFunc(OS);
|
|
}
|
|
OS << "} // End " << TargetName << " namespace\n";
|
|
OS << "} // End llvm namespace\n";
|
|
OS << "#endif // GET_INSTRMAP_INFO\n\n";
|
|
}
|
|
|
|
} // End llvm namespace
|