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Alexander_KS:master Alexander_KS:par_reg_merging Alexander_KS:replace_io_arrays Alexander_KS:private_arrays2 Alexander_KS:egormayorov Alexander_KS:libpredict_integration Alexander_KS:analyze_loops_with_IR
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compare: Alexander_KS:1bb0334fa268fed849fce36f09bac815420ca60a
Branches Tags
Alexander_KS:master Alexander_KS:par_reg_merging Alexander_KS:replace_io_arrays Alexander_KS:private_arrays2 Alexander_KS:egormayorov Alexander_KS:libpredict_integration Alexander_KS:analyze_loops_with_IR

1 Commits
private_ar ... 1bb0334fa2

Author SHA1 Message Date
xnpster
1bb0334fa2 draft of parallel regions merging pass 2025-12-24 23:11:31 +03:00
44 changed files with 970 additions and 2086 deletions
Expand all files Collapse all files

1
.gitignore vendored
View File

@@ -78,4 +78,3 @@ Sapfor/Sapc++/x64/
Sapfor/out/ Sapfor/out/
Sapfor/_bin/* Sapfor/_bin/*
_bin/*

15
CMakeLists.txt
View File

@@ -163,9 +163,8 @@ set(PARALLEL_REG src/ParallelizationRegions/ParRegions.cpp
src/ParallelizationRegions/resolve_par_reg_conflicts.cpp src/ParallelizationRegions/resolve_par_reg_conflicts.cpp
src/ParallelizationRegions/resolve_par_reg_conflicts.h) src/ParallelizationRegions/resolve_par_reg_conflicts.h)
set(ARRAY_PROP src/ArrayConstantPropagation/propagation.cpp set(MERGE_COPY_ARRAYS src/ParallelizationRegions/parse_merge_dirs.cpp
src/ArrayConstantPropagation/propagation.h src/ParallelizationRegions/parse_merge_dirs.h)
)
set(TR_DEAD_CODE src/Transformations/DeadCodeRemoving/dead_code.cpp set(TR_DEAD_CODE src/Transformations/DeadCodeRemoving/dead_code.cpp
src/Transformations/DeadCodeRemoving/dead_code.h) src/Transformations/DeadCodeRemoving/dead_code.h)
@@ -208,8 +207,6 @@ set(TR_INLINER src/Transformations/FunctionInlining/inliner.cpp
src/Transformations/FunctionInlining/inliner.h) src/Transformations/FunctionInlining/inliner.h)
set(TR_RENAME_SYMBOLS src/Transformations/RenameSymbols/rename_symbols.cpp set(TR_RENAME_SYMBOLS src/Transformations/RenameSymbols/rename_symbols.cpp
src/Transformations/RenameSymbols/rename_symbols.h) src/Transformations/RenameSymbols/rename_symbols.h)
SET(TR_MOVE_OPERATORS src/Transformations/MoveOperators/move_operators.cpp
src/Transformations/MoveOperators/move_operators.h)
set(TRANSFORMS set(TRANSFORMS
${TR_DEAD_CODE} ${TR_DEAD_CODE}
@@ -232,8 +229,7 @@ set(TRANSFORMS
${TR_REPLACE_ARRAYS_IN_IO} ${TR_REPLACE_ARRAYS_IN_IO}
${TR_EXPR_TRANSFORM} ${TR_EXPR_TRANSFORM}
${TR_INLINER} ${TR_INLINER}
${TR_RENAME_SYMBOLS} ${TR_RENAME_SYMBOLS})
${TR_MOVE_OPERATORS})
set(CFG src/CFGraph/IR.cpp set(CFG src/CFGraph/IR.cpp
src/CFGraph/IR.h src/CFGraph/IR.h
@@ -426,8 +422,8 @@ set(SOURCE_EXE
${LOOP_ANALYZER} ${LOOP_ANALYZER}
${TRANSFORMS} ${TRANSFORMS}
${PARALLEL_REG} ${PARALLEL_REG}
${MERGE_COPY_ARRAYS}
${PRIV} ${PRIV}
${ARRAY_PROP}
${FDVM} ${FDVM}
${OMEGA} ${OMEGA}
${UTILS} ${UTILS}
@@ -467,7 +463,6 @@ source_group (Transformations\\GlobalVariables FILES ${TR_GV})
source_group (Transformations\\ConvertToC FILES ${TR_CONV}) source_group (Transformations\\ConvertToC FILES ${TR_CONV})
source_group (Transformations\\SetImplicitNone FILES ${TR_IMPLICIT_NONE}) source_group (Transformations\\SetImplicitNone FILES ${TR_IMPLICIT_NONE})
source_group (Transformations\\ReplaceArraysInIO FILES ${TR_REPLACE_ARRAYS_IN_IO}) source_group (Transformations\\ReplaceArraysInIO FILES ${TR_REPLACE_ARRAYS_IN_IO})
source_group (Transformations\\MoveOperators FILES ${TR_MOVE_OPERATORS})
source_group (CreateIntervals FILES ${CREATE_INTER_T}) source_group (CreateIntervals FILES ${CREATE_INTER_T})
@@ -479,8 +474,8 @@ source_group (GraphCall FILES ${GR_CALL})
source_group (GraphLoop FILES ${GR_LOOP}) source_group (GraphLoop FILES ${GR_LOOP})
source_group (LoopAnalyzer FILES ${LOOP_ANALYZER}) source_group (LoopAnalyzer FILES ${LOOP_ANALYZER})
source_group (ParallelizationRegions FILES ${PARALLEL_REG}) source_group (ParallelizationRegions FILES ${PARALLEL_REG})
source_group (MergeCopyArrays FILES ${MERGE_COPY_ARRAYS})
source_group (PrivateAnalyzer FILES ${PRIV}) source_group (PrivateAnalyzer FILES ${PRIV})
source_group (ArrayConstantPropagation FILES ${ARRAY_PROP})
source_group (FDVM_Compiler FILES ${FDVM}) source_group (FDVM_Compiler FILES ${FDVM})
source_group (SageExtension FILES ${OMEGA}) source_group (SageExtension FILES ${OMEGA})
source_group (Utils FILES ${UTILS}) source_group (Utils FILES ${UTILS})

2
projects/dvm

Submodule projects/dvm updated: ab99430aee...4d4041a081

2
projects/libpredictor

Submodule projects/libpredictor updated: 7e57477dfa...d0772cdb57

380
src/ArrayConstantPropagation/propagation.cpp
View File

@@ -1,380 +0,0 @@
#include "propagation.h"
#include "../Utils/SgUtils.h"
#include <iostream>
#include <functional>
#include <unordered_map>
#include <unordered_set>
#include <vector>
using namespace std;
namespace {
struct MyHash {
size_t operator()(const SgSymbol* s) const {
return std::hash<std::string_view>{}(s->identifier());
}
};
struct MyEq {
bool operator()(const SgSymbol* a, const SgSymbol* b) const {
return std::strcmp(a->identifier(), b->identifier()) == 0;
}
};
}
SgStatement* declPlace = NULL;
unordered_set<SgStatement*> changed;
unordered_set<SgSymbol*, MyHash, MyEq> variablesToAdd;
unordered_set<SgStatement*> positionsToAdd;
unordered_set<SgStatement*> statementsToRemove;
unordered_map<string, vector<pair<SgStatement*, SgStatement*>>> expToChange;
static bool CheckConstIndexes(SgExpression* exp)
{
if (!exp)
{
return true;
}
SgExpression* lhs = exp->lhs();
SgExpression* rhs = exp->rhs();
do
{
if (lhs->variant() != INT_VAL)
{
return false;
}
if (rhs)
{
lhs = rhs->lhs();
rhs = rhs->rhs();
}
} while (rhs);
return true;
}
static SgExpression* CreateVar(int& variableNumber, SgType* type)
{
string varName = "__tmp_prop_var";
string name = varName + std::to_string(variableNumber) + "__";
variableNumber++;
SgStatement* funcStart = declPlace->controlParent();
SgSymbol* varSymbol = new SgSymbol(VARIABLE_NAME, name.c_str(), *type, *funcStart);
variablesToAdd.insert(varSymbol);
positionsToAdd.insert(declPlace);
return new SgExpression(VAR_REF, NULL, NULL, varSymbol, type->copyPtr());
}
static SgStatement* FindLastDeclStatement(SgStatement* funcStart)
{
SgStatement* endSt = funcStart->lastNodeOfStmt();
SgStatement* cur = funcStart->lexNext();
SgStatement* lastDecl = funcStart;
const set<int> declVariants = { VAR_DECL, VAR_DECL_90, ALLOCATABLE_STMT, DIM_STAT,
EXTERN_STAT, COMM_STAT, HPF_TEMPLATE_STAT, DVM_VAR_DECL, STRUCT_DECL };
while (cur && cur != endSt)
{
if (cur->variant() == INTERFACE_STMT)
cur = cur->lastNodeOfStmt();
if (declVariants.find(cur->variant()) != declVariants.end())
lastDecl = cur;
else if (isSgExecutableStatement(cur))
break;
cur = cur->lexNext();
}
return lastDecl;
}
static void InsertCommonAndDeclsForFunction(SgStatement* funcStart, const unordered_set<SgSymbol*, MyHash, MyEq>& symbols)
{
if (symbols.empty())
return;
const string commonBlockName = "__propagation_common__";
SgStatement* funcEnd = funcStart->lastNodeOfStmt();
SgStatement* commonStat = NULL;
SgExpression* commonList = NULL;
for (SgStatement* cur = funcStart->lexNext();
cur && cur != funcEnd; cur = cur->lexNext())
{
if (cur->variant() != COMM_STAT)
continue;
for (SgExpression* exp = cur->expr(0); exp; exp = exp->rhs())
{
if (exp->variant() != COMM_LIST)
continue;
const char* id = exp->symbol() ? exp->symbol()->identifier() : NULL;
string existingName = id ? string(id) : string("spf_unnamed");
if (existingName == commonBlockName)
{
commonStat = cur;
commonList = exp;
break;
}
}
if (commonStat)
break;
}
vector<SgExpression*> varRefs;
for (SgSymbol* sym : symbols)
{
if (!sym || sym->variant() != VARIABLE_NAME || string(sym->identifier()) == commonBlockName)
continue;
SgSymbol* symToAdd = new SgSymbol(VARIABLE_NAME, sym->identifier(), *sym->type(), *funcStart);
varRefs.push_back(new SgVarRefExp(symToAdd));
}
SgExpression* varList = makeExprList(varRefs, false);
SgStatement* insertAfter = FindLastDeclStatement(funcStart);
for (SgSymbol* sym : symbols)
{
SgStatement* declStmt = sym->makeVarDeclStmt();
if (!declStmt)
continue;
if (SgVarDeclStmt* vds = isSgVarDeclStmt(declStmt))
vds->setVariant(VAR_DECL_90);
declStmt->setFileName(funcStart->fileName());
declStmt->setFileId(funcStart->getFileId());
declStmt->setProject(funcStart->getProject());
declStmt->setlineNumber(getNextNegativeLineNumber());
insertAfter->insertStmtAfter(*declStmt, *funcStart);
insertAfter = declStmt;
statementsToRemove.insert(declStmt);
}
if (!commonList)
{
SgSymbol* commonSymbol = new SgSymbol(COMMON_NAME, commonBlockName.c_str());
commonList = new SgExpression(COMM_LIST, varList, NULL, commonSymbol);
commonStat = new SgStatement(COMM_STAT);
commonStat->setFileName(funcStart->fileName());
commonStat->setFileId(funcStart->getFileId());
commonStat->setProject(funcStart->getProject());
commonStat->setlineNumber(getNextNegativeLineNumber());
commonStat->setExpression(0, commonList);
SgStatement* lastDecl = FindLastDeclStatement(funcStart);
lastDecl->insertStmtAfter(*commonStat, *funcStart);
statementsToRemove.insert(commonStat);
}
else
{
commonList->setLhs(varList);
}
}
static void TransformRightPart(SgStatement* st, SgExpression* exp, unordered_map<string, SgExpression*>& arrayToVariable, int& variableNumber)
{
if (!exp)
return;
vector<SgExpression*> subnodes = { exp->lhs(), exp->rhs() };
string expUnparsed;
SgExpression* toAdd = NULL;
if (exp->variant() == ARRAY_REF && CheckConstIndexes(exp->lhs()))
{
expUnparsed = exp->unparse();
if (arrayToVariable.find(expUnparsed) == arrayToVariable.end() && exp->symbol()->type()->baseType())
{
arrayToVariable[expUnparsed] = CreateVar(variableNumber, exp->symbol()->type()->baseType());
}
positionsToAdd.insert(declPlace);
SgSymbol* builder = arrayToVariable[expUnparsed]->symbol();
auto* sym = new SgSymbol(builder->variant(), builder->identifier(), builder->type(), st->controlParent());
auto* newVarExp = new SgVarRefExp(sym);
expToChange[st->fileName()].push_back({ st , st->copyPtr() });
st->setExpression(1, newVarExp);
return;
}
for (int i = 0; i < 2; i++)
{
if (subnodes[i] && subnodes[i]->variant() == ARRAY_REF && subnodes[i]->symbol()->type()->baseType() && CheckConstIndexes(subnodes[i]->lhs()))
{
expUnparsed = subnodes[i]->unparse();
if (arrayToVariable.find(expUnparsed) == arrayToVariable.end())
arrayToVariable[expUnparsed] = CreateVar(variableNumber, subnodes[i]->symbol()->type()->baseType());
positionsToAdd.insert(declPlace);
SgSymbol* builder = arrayToVariable[expUnparsed]->symbol();
auto* sym = new SgSymbol(builder->variant(), builder->identifier(), builder->type(), st->controlParent());
toAdd = new SgVarRefExp(sym);
if (toAdd)
{
if (i == 0)
{
expToChange[st->fileName()].push_back({ st , st->copyPtr() });;
exp->setLhs(toAdd);
}
else
{
expToChange[st->fileName()].push_back({ st , st->copyPtr() });;
exp->setRhs(toAdd);
}
}
}
else
TransformRightPart(st, subnodes[i], arrayToVariable, variableNumber);
}
}
static void TransformLeftPart(SgStatement* st, SgExpression* exp, unordered_map<string, SgExpression*>& arrayToVariable, int& variableNumber)
{
if (exp->symbol()->type()->variant() == T_STRING)
return;
if (changed.find(st) != changed.end())
return;
string expUnparsed = exp->unparse();
if (arrayToVariable.find(expUnparsed) == arrayToVariable.end() && exp->symbol()->type()->baseType())
{
arrayToVariable[expUnparsed] = CreateVar(variableNumber, exp->symbol()->type()->baseType());
}
positionsToAdd.insert(declPlace);
SgStatement* newStatement = new SgStatement(ASSIGN_STAT, NULL, NULL, arrayToVariable[expUnparsed]->copyPtr(), st->expr(1)->copyPtr(), NULL);
newStatement->setFileId(st->getFileId());
newStatement->setProject(st->getProject());
newStatement->setlineNumber(getNextNegativeLineNumber());
newStatement->setLocalLineNumber(st->lineNumber());
st->insertStmtBefore(*newStatement, *st->controlParent());
changed.insert(st);
statementsToRemove.insert(newStatement);
}
static void TransformBorder(SgStatement* st, SgExpression* exp, unordered_map<string, SgExpression*>& arrayToVariable, int& variableNumber)
{
SgStatement* firstStatement = declPlace->lexPrev();
st = st->lexPrev();
string array = exp->unparse();
if (arrayToVariable.find(array) == arrayToVariable.end())
arrayToVariable[array] = CreateVar(variableNumber, exp->symbol()->type()->baseType());
while (st != firstStatement)
{
if (st->variant() == ASSIGN_STAT && arrayToVariable.find(st->expr(0)->unparse()) != arrayToVariable.end())
{
if (st->expr(1))
{
TransformRightPart(st, st->expr(1), arrayToVariable, variableNumber);
}
if (st->expr(0) && st->expr(0)->variant() == ARRAY_REF && CheckConstIndexes(st->expr(0)->lhs()) && arrayToVariable.find(st->expr(0)->unparse()) != arrayToVariable.end())
TransformLeftPart(st, st->expr(0), arrayToVariable, variableNumber);
}
st = st->lexPrev();
}
}
static void CheckVariable(SgStatement* st, SgExpression* exp, unordered_map<string, SgExpression*>& arrayToVariable, int& variableNumber)
{
SgStatement* firstStatement = declPlace->lexPrev();
st = st->lexPrev();
string varName = exp->unparse();
while (st != firstStatement)
{
if (st->variant() == ASSIGN_STAT && st->expr(0)->symbol() == exp->symbol())
{
TransformRightPart(st, st->expr(1), arrayToVariable, variableNumber);
positionsToAdd.insert(declPlace);
}
if (st->variant() == ASSIGN_STAT && arrayToVariable.find(st->expr(0)->unparse()) != arrayToVariable.end())
{
if (st->expr(1))
{
TransformRightPart(st, st->expr(1), arrayToVariable, variableNumber);
positionsToAdd.insert(declPlace);
}
if (st->expr(0) && st->expr(0)->variant() == ARRAY_REF && CheckConstIndexes(st->expr(0)->lhs()) && arrayToVariable.find(st->expr(0)->unparse()) != arrayToVariable.end())
{
TransformLeftPart(st, st->expr(0), arrayToVariable, variableNumber);
positionsToAdd.insert(declPlace);
}
}
st = st->lexPrev();
}
}
void ArrayConstantPropagation(SgProject& project)
{
unordered_map<string, SgExpression*> arrayToVariable;
int variableNumber = 0;
for (int i = 0; i < project.numberOfFiles(); i++)
{
SgFile* file = &(project.file(i));
if (!file)
continue;
SgFile::switchToFile(file->filename());
const int funcNum = file->numberOfFunctions();
for (int i = 0; i < funcNum; ++i)
{
SgStatement* st = file->functions(i);
declPlace = st->lexNext();
SgStatement* lastNode = st->lastNodeOfStmt();
for (; st != lastNode; st = st->lexNext())
{
if (st->variant() == FOR_NODE)
{
SgExpression* lowerBound = st->expr(0)->lhs();
SgExpression* upperBound = st->expr(0)->rhs();
SgStatement* boundCopy = NULL;
string lowerBoundUnparsed = lowerBound->unparse(), upperBoundUnparsed = upperBound->unparse();
if (upperBound->variant() == ARRAY_REF && upperBound->symbol()->type()->baseType() && CheckConstIndexes(upperBound->lhs()))
{
boundCopy = st->copyPtr();
TransformBorder(st, upperBound, arrayToVariable, variableNumber);
st->expr(0)->setRhs(arrayToVariable[upperBoundUnparsed]->copyPtr());
expToChange[st->fileName()].push_back({ st ,boundCopy });;
positionsToAdd.insert(declPlace);
}
else if (upperBound->variant() == VAR_REF)
CheckVariable(st, upperBound, arrayToVariable, variableNumber);
if (lowerBound->variant() == ARRAY_REF && lowerBound->symbol()->type()->baseType() && CheckConstIndexes(lowerBound->lhs()))
{
boundCopy = st->copyPtr();
TransformBorder(st, lowerBound, arrayToVariable, variableNumber);
st->expr(0)->setLhs(arrayToVariable[lowerBoundUnparsed]->copyPtr());
expToChange[st->fileName()].push_back({ st , boundCopy });;
positionsToAdd.insert(declPlace);
}
else if (lowerBound->variant() == VAR_REF)
CheckVariable(st, lowerBound, arrayToVariable, variableNumber);
}
}
}
}
unordered_set<SgStatement*> funcStarts;
for (SgStatement* st : positionsToAdd)
{
SgFile::switchToFile(st->fileName());
SgStatement* scope = st->controlParent();
if (scope)
funcStarts.insert(scope);
}
for (const auto& st : funcStarts)
{
SgFile::switchToFile(st->fileName());
InsertCommonAndDeclsForFunction(st, variablesToAdd);
}
}

20
src/ArrayConstantPropagation/propagation.h
View File

@@ -1,20 +0,0 @@
#pragma once
#include "../Utils/SgUtils.h"
#include <string>
#include <vector>
using namespace std;
struct ExprRestoreEntry
{
enum Kind { kStatementExpr, kExprChild };
Kind kind;
SgStatement* stmt;
int stmtExprIndex;
SgExpression* parent;
bool childIsRhs;
SgExpression* savedCopy;
};
void ArrayConstantPropagation(SgProject& project);

1
src/CFGraph/CFGraph.cpp
View File

@@ -1162,7 +1162,6 @@ map<FuncInfo*, vector<BBlock*>> buildCFG(const map<string, CommonBlock*>& common
if (SgFile::switchToFile(oldFile) == -1) if (SgFile::switchToFile(oldFile) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
if (!settings.withUnreachable)
for (auto& [func, blocks] : result) for (auto& [func, blocks] : result)
removedUnreachableBlocks(blocks); removedUnreachableBlocks(blocks);

51
src/CFGraph/CFGraph.h
View File

@@ -105,52 +105,23 @@ namespace SAPFOR
struct CFG_Settings struct CFG_Settings
{ {
enum setting { CFG_atLeastOneIterInLoop = 1,
CFG_withRD = 2,
CFG_withRegisters = 3,
CFG_withSPF = 4,
CFG_withDVM = 5,
CFG_withCallsInBlocks = 6,
CFG_withCallFrom = 7,
CFG_withDominators = 8,
CFG_withUnreachable = 9 };
bool atLeastOneIterInLoop = false; bool atLeastOneIterInLoop = false;
bool withRD = false; bool withRD = true;
bool withRegisters = false; bool withRegisters = false;
bool withSPF = false; bool withSPF = false;
bool withDVM = false; bool withDVM = false;
bool withCallsInBlocks = false; // separate each F_CALL to own BasicBlock bool withCallsInBlocks = false; // separate each F_CALL to own BasicBlock
bool withCallFrom = false; bool withCallFrom = true;
bool withDominators = false; bool withDominators = true;
bool withUnreachable = false;
explicit CFG_Settings(const std::set<setting> &settings = { CFG_withRD, CFG_withCallFrom, CFG_withDominators }) explicit CFG_Settings(int) { }
{
for (auto& set : settings) explicit CFG_Settings(bool atLeastOneIterInLoop = false, bool withRD = true, bool withRegisters = false,
{ bool withDVM = false, bool withSPF = false, bool withCallsInBlocks = false,
if (set == CFG_atLeastOneIterInLoop) bool withCallFrom = true, bool withDominators = true) :
atLeastOneIterInLoop = true; atLeastOneIterInLoop(atLeastOneIterInLoop), withRD(withRD), withRegisters(withRegisters), withDVM(withDVM), withSPF(withSPF),
else if (set == CFG_withRD) withCallsInBlocks(withCallsInBlocks), withCallFrom(withCallFrom), withDominators(withDominators)
withRD = true; { }
else if (set == CFG_withRegisters)
withRegisters = true;
else if (set == CFG_withSPF)
withSPF = true;
else if (set == CFG_withDVM)
withDVM = true;
else if (set == CFG_withCallsInBlocks)
withCallsInBlocks = true;
else if (set == CFG_withCallFrom)
withCallFrom = true;
else if (set == CFG_withDominators)
withDominators = true;
else if (set == CFG_withUnreachable)
withUnreachable = true;
else
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
}
}
}; };
} }

50
src/CFGraph/private_variables_analysis.cpp
View File

@@ -200,46 +200,20 @@ static void fillOutForFunc(const FuncInfo* func, const vector<SAPFOR::BasicBlock
outForFunc[func->funcName] = { defined, common_defined }; outForFunc[func->funcName] = { defined, common_defined };
} }
static bool isInstructionSpfParameter(SAPFOR::Instruction* instr)
{
SgStatement* st = instr->getOperator();
// check if this operator is SPF(ANALYSIS(PARAMETER( )))
if (st && st->variant() == ASSIGN_STAT)
{
if (st->lineNumber() < 0 && st->numberOfAttributes())
{
for (int i = 0; i < st->numberOfAttributes(); ++i)
{
SgAttribute* attr = st->getAttribute(i);
SgStatement* attributeStatement = (SgStatement*)(attr->getAttributeData());
int type = st->attributeType(i);
if (type == SPF_PARAMETER_OP)
return true;
}
}
}
return false;
}
static void getDefsFromBlock(SAPFOR::BasicBlock* block, set<SAPFOR::Argument*>& res, static void getDefsFromBlock(SAPFOR::BasicBlock* block, set<SAPFOR::Argument*>& res,
const vector<pair<const Variable*, CommonBlock*>>& commonVars, const vector<pair<const Variable*, CommonBlock*>>& commonVars,
const FuncInfo* func) const FuncInfo* func)
{ {
vector<SAPFOR::Argument*> lastParamRef; vector<SAPFOR::Argument*> lastParamRef;
for (const auto &ir_block : block->getInstructions()) for (auto ir_block : block->getInstructions())
{ {
SAPFOR::Instruction* instr = ir_block->getInstruction(); SAPFOR::Instruction* instr = ir_block->getInstruction();
if (isInstructionSpfParameter(instr))
continue;
SAPFOR::CFG_OP instr_operation = instr->getOperation(); SAPFOR::CFG_OP instr_operation = instr->getOperation();
if (instr_operation == SAPFOR::CFG_OP::PARAM) if (instr_operation == SAPFOR::CFG_OP::PARAM)
{ {
SAPFOR::Argument* arg = instr->getArg1(); SAPFOR::Argument* arg = instr->getArg1();
if (arg->getType() == SAPFOR::CFG_ARG_TYPE::VAR) if(arg->getType() == SAPFOR::CFG_ARG_TYPE::VAR)
addPlaceWithDef(commonVars, func, arg, instr); addPlaceWithDef(commonVars, func, arg, instr);
lastParamRef.push_back(arg); lastParamRef.push_back(arg);
@@ -262,19 +236,11 @@ static void getDefsFromBlock(SAPFOR::BasicBlock* block, set<SAPFOR::Argument*>&
int last_instr_num = block->getInstructions().back()->getNumber(); int last_instr_num = block->getInstructions().back()->getNumber();
for (const auto& def : block->getRD_Out()) for (const auto& def : block->getRD_Out())
{
for (int place : def.second) for (int place : def.second)
{
if (place >= first_instr_num && place <= last_instr_num && def.first->getType() == SAPFOR::CFG_ARG_TYPE::VAR) if (place >= first_instr_num && place <= last_instr_num && def.first->getType() == SAPFOR::CFG_ARG_TYPE::VAR)
{ {
SAPFOR::Instruction* instr = block->getInstructions()[place - first_instr_num]->getInstruction();
if (isInstructionSpfParameter(instr))
continue;
res.insert(def.first); res.insert(def.first);
addPlaceWithDef(commonVars, func, def.first, instr); addPlaceWithDef(commonVars, func, def.first, block->getInstructions()[place - first_instr_num]->getInstruction());
}
}
} }
} }
@@ -300,7 +266,7 @@ static set<SAPFOR::BasicBlock*> analyzeLoop(LoopGraph* loop, const set<SAPFOR::B
SAPFOR::BasicBlock* head_block = NULL; SAPFOR::BasicBlock* head_block = NULL;
int loop_start = loop->lineNum, loop_end = loop->lineNumAfterLoop; int loop_start = loop->lineNum, loop_end = loop->lineNumAfterLoop;
for (const auto &bb : blocks) for (auto bb : blocks)
{ {
if (!bb || (bb->getInstructions().size() == 0)) if (!bb || (bb->getInstructions().size() == 0))
continue; continue;
@@ -321,12 +287,6 @@ static set<SAPFOR::BasicBlock*> analyzeLoop(LoopGraph* loop, const set<SAPFOR::B
} }
} }
if (currentLoop.empty()) // can't find loop IR - loop unreachable!
{
__spf_print(1, "Unreachable loop on %s:%d\n", current_file->filename(), loop_operator->lineNumber());
return currentLoop;
}
if (!head_block) if (!head_block)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
@@ -388,7 +348,7 @@ static set<SAPFOR::BasicBlock*> analyzeLoop(LoopGraph* loop, const set<SAPFOR::B
getDefsFromBlock(*loop_it, changeValueOnExit, commonVars, func); getDefsFromBlock(*loop_it, changeValueOnExit, commonVars, func);
for (const auto &bb : currentLoop) for (auto bb : currentLoop)
{ {
//fill LiveWhenLoopEnds //fill LiveWhenLoopEnds
bool has_next_outside_body = false; bool has_next_outside_body = false;

4
src/CreateInterTree/CreateInterTree.cpp
View File

@@ -17,7 +17,7 @@ using std::fstream;
static long int getNextTag() static long int getNextTag()
{ {
static long int INTERVAL_TAG = 0; static long int INTERVAL_TAG = 0;
return -(INTERVAL_TAG++); return INTERVAL_TAG++;
} }
//Debug funcs //Debug funcs
@@ -413,7 +413,7 @@ static void findIntervals(SpfInterval *interval, map<int, int> &labelsRef, map<i
inter->lineFile = std::make_pair(currentSt->lineNumber(), currentSt->fileName()); inter->lineFile = std::make_pair(currentSt->lineNumber(), currentSt->fileName());
inter->parent = interval; inter->parent = interval;
inter->exit_levels.push_back(0); inter->exit_levels.push_back(0);
inter->tag = currentSt->lineNumber();//getNextTag(); inter->tag = getNextTag();
interval->nested.push_back(inter); interval->nested.push_back(inter);
findIntervals(inter, labelsRef, gotoStmts, currentSt); findIntervals(inter, labelsRef, gotoStmts, currentSt);

62
src/DirectiveProcessing/insert_directive.cpp
View File

@@ -853,21 +853,12 @@ static pair<string, string> getModuleRename(const set<SgStatement*>& allocatable
return make_pair("", ""); return make_pair("", "");
} }
static void doRename(string& str, const pair<string, string>& renamePair)
{
auto it = str.find(renamePair.first);
if (it != string::npos)
if (str[it + renamePair.first.size()] == '(' && str[it - 1] == ' ')
str = str.replace(it, renamePair.first.size(), renamePair.second);
}
static pair<DIST::Array*, string> static pair<DIST::Array*, string>
getNewDirective(const string &fullArrayName, getNewDirective(const string &fullArrayName,
const vector<string> &distrRules, const vector<string> &distrRules,
const vector<string> &alignRules, const vector<string> &alignRules,
const DataDirective &dataDir, const DataDirective &dataDir,
const set<SgStatement*>& allocatableStmts, const set<SgStatement*>& allocatableStmts)
const pair<string, int>& position_decl)
{ {
string out = ""; string out = "";
DIST::Array* outA = NULL; DIST::Array* outA = NULL;
@@ -886,8 +877,7 @@ getNewDirective(const string &fullArrayName,
for (int i = 0; i < dataDir.alignRules.size(); ++i) for (int i = 0; i < dataDir.alignRules.size(); ++i)
{ {
auto alignArray = dataDir.alignRules[i].alignArray; if (dataDir.alignRules[i].alignArray->GetName() == fullArrayName)
if (alignArray->GetName() == fullArrayName)
{ {
string rule = alignRules[i]; string rule = alignRules[i];
if (allocatableStmts.size()) if (allocatableStmts.size())
@@ -899,21 +889,21 @@ getNewDirective(const string &fullArrayName,
it = rule.find("ALIGN", it + 7); it = rule.find("ALIGN", it + 7);
} }
auto renamePair = getModuleRename(allocatableStmts, alignArray); auto renamePair = getModuleRename(allocatableStmts, dataDir.alignRules[i].alignArray);
doRename(rule, renamePair); if (renamePair.first != "")
}
else if (alignArray->GetLocation().first == DIST::l_COMMON)
{ {
auto symb = alignArray->GetDeclSymbol(position_decl); it = rule.find(renamePair.first);
if (symb->identifier() != alignArray->GetShortName()) if (it != string::npos)
doRename(rule, make_pair(alignArray->GetShortName(), symb->identifier())); if (rule[it + renamePair.first.size()] == '(' && rule[it - 1] == ' ')
rule = rule.replace(it, renamePair.first.size(), renamePair.second);
}
} }
out += "!DVM$ " + rule + "\n"; out += "!DVM$ " + rule + "\n";
if (!out_free_form) if (!out_free_form)
out = splitDirective(out); out = splitDirective(out);
return make_pair(alignArray, out); return make_pair(dataDir.alignRules[i].alignArray, out);
} }
} }
@@ -1753,7 +1743,7 @@ void insertDistributionToFile(SgFile *file, const char *fin_name, const DataDire
if (allocatableStmtsCopy.size()) if (allocatableStmtsCopy.size())
allocatableStmts = filterAllocateStats(file, allocatableStmtsCopy, currSymb->identifier()); allocatableStmts = filterAllocateStats(file, allocatableStmtsCopy, currSymb->identifier());
pair<DIST::Array*, string> dirWithArray = getNewDirective(fullArrayName, distrRules, alignRules, dataDir, allocatableStmts, make_pair(st->fileName(), st->lineNumber())); pair<DIST::Array*, string> dirWithArray = getNewDirective(fullArrayName, distrRules, alignRules, dataDir, allocatableStmts);
string toInsert = dirWithArray.second; string toInsert = dirWithArray.second;
if (toInsert != "") if (toInsert != "")
@@ -1985,27 +1975,20 @@ void insertDistributionToFile(SgFile *file, const char *fin_name, const DataDire
set<string> toInsertArrays; set<string> toInsertArrays;
for (auto &array : dynamicArraysLocal) for (auto &array : dynamicArraysLocal)
{ {
string name = array->GetShortName();
if (array->GetLocation().first == DIST::l_COMMON)
{
auto symb = array->GetDeclSymbol(make_pair(st->fileName(), st->lineNumber()));
name = symb->identifier();
}
if (extractDir) if (extractDir)
{ {
if (dynamicArraysAdded.find(name) != dynamicArraysAdded.end()) if (dynamicArraysAdded.find(array->GetShortName()) != dynamicArraysAdded.end())
{ {
dynamicArraysAdded.erase(name); dynamicArraysAdded.erase(array->GetShortName());
toInsertArrays.insert(name); toInsertArrays.insert(array->GetShortName());
} }
} }
else else
{ {
if (dynamicArraysAdded.find(name) == dynamicArraysAdded.end()) if (dynamicArraysAdded.find(array->GetShortName()) == dynamicArraysAdded.end())
{ {
dynamicArraysAdded.insert(name); dynamicArraysAdded.insert(array->GetShortName());
toInsertArrays.insert(name); toInsertArrays.insert(array->GetShortName());
} }
} }
} }
@@ -2162,14 +2145,7 @@ void insertShadowSpecToFile(SgFile *file, const char *fin_name, const set<string
if (needToGen) if (needToGen)
{ {
string name = array->GetShortName(); string shadowSpecInsert = "!DVM$ SHADOW " + array->GetShortName() + "(";
if (array->GetLocation().first == DIST::l_COMMON)
{
auto symb = array->GetDeclSymbol(make_pair(st->fileName(), st->lineNumber()));
name = symb->identifier();
}
string shadowSpecInsert = "!DVM$ SHADOW " + name + "(";
for (int k = 0; k < currSpec.size(); ++k) for (int k = 0; k < currSpec.size(); ++k)
{ {
char buf[256]; char buf[256];
@@ -2181,7 +2157,7 @@ void insertShadowSpecToFile(SgFile *file, const char *fin_name, const set<string
shadowSpecInsert += ")\n"; shadowSpecInsert += ")\n";
shadowsSpecsString.push_back(shadowSpecInsert); shadowsSpecsString.push_back(shadowSpecInsert);
pair<SgExpression*, SgExpression*> newSpec = genShadowSpec(file, make_pair(name, currSpec)); pair<SgExpression*, SgExpression*> newSpec = genShadowSpec(file, make_pair(array->GetShortName(), currSpec));
if (newSpec.first == NULL || newSpec.second == NULL) if (newSpec.first == NULL || newSpec.second == NULL)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
shadowsSpecs.push_back(newSpec); shadowsSpecs.push_back(newSpec);

6
src/DirectiveProcessing/shadow.cpp
View File

@@ -26,7 +26,6 @@ using std::string;
using std::vector; using std::vector;
using std::pair; using std::pair;
using std::make_pair; using std::make_pair;
using SAPFOR::CFG_Settings;
extern int debSh; extern int debSh;
@@ -1673,12 +1672,9 @@ void GroupShadow(const map<string, vector<FuncInfo*>>& allFuncs,
SgStatement* func = currF->funcPointer->GetOriginal(); SgStatement* func = currF->funcPointer->GetOriginal();
const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop, CFG_Settings::CFG_withDVM, auto cfg = buildCFGforCurrentFunc(func, SAPFOR::CFG_Settings(true, false, false, true, false, true, false), commonBlocks, allFuncs);
CFG_Settings::CFG_withCallsInBlocks, CFG_Settings::CFG_withUnreachable });
auto cfg = buildCFGforCurrentFunc(func, settings, commonBlocks, allFuncs);
if (cfg.size() != 1) if (cfg.size() != 1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto& blocks = cfg.begin()->second; auto& blocks = cfg.begin()->second;
//create reaching blocks //create reaching blocks

57
src/Distribution/Array.h
View File

@@ -336,24 +336,9 @@ namespace Distribution
if (pos != STRING::npos) if (pos != STRING::npos)
{ {
name.erase(pos, shortName.size()); name.erase(pos, shortName.size());
name += newName;
}
else if (locationPos.first == l_COMMON) // name of array in common may be different
{
pos = name.rfind("_");
if (pos != STRING::npos)
{
name.erase(pos + 1, shortName.size());
name += newName;
}
else
{
#if __SPF
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
#endif
}
}
shortName = newName; shortName = newName;
name += newName;
}
GenUniqKey(); GenUniqKey();
} }
@@ -557,44 +542,6 @@ namespace Distribution
return NULL; return NULL;
} }
Symbol* GetDeclSymbol(const PAIR<STRING, int>& position_decl) const
{
if (!IsArray() || locationPos.first != l_COMMON)
return declSymbol;
auto it = declPlacesSymbol.find(position_decl);
if (it != declPlacesSymbol.end())
return it->second;
else // find nearest
{
MAP<PAIR<STRING, int>, Symbol*> currFile;
for (auto& [position, symb] : declPlacesSymbol)
{
if (position.first == position_decl.first)
currFile[position] = symb;
}
PAIR<int, Symbol*> nearest = { (int)0, NULL };
const int needed_pos = position_decl.second;
for (auto& [position, symb] : currFile)
{
if (nearest.second == NULL)
nearest = { abs(position.second - needed_pos), symb };
if (abs(position.second - needed_pos) < nearest.first)
nearest = { abs(position.second - needed_pos), symb };
}
if (nearest.second)
return nearest.second;
#if __SPF
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
#endif
}
return NULL;
}
Symbol* GetDeclSymbol() const { return declSymbol; } Symbol* GetDeclSymbol() const { return declSymbol; }
void SetDeclSymbol(Symbol *s) { declSymbol = s; } void SetDeclSymbol(Symbol *s) { declSymbol = s; }

10
src/Distribution/CreateDistributionDirs.cpp
View File

@@ -274,7 +274,7 @@ static void convertTrees(const map<DIST::Array*, int> &treesIn, map<int, vector<
static DIST::Array* findBestInEqual(vector<DIST::Array*> &arrays, DIST::GraphCSR<int, double, attrType> &reducedG, DIST::Arrays<int> &allArrays) static DIST::Array* findBestInEqual(vector<DIST::Array*> &arrays, DIST::GraphCSR<int, double, attrType> &reducedG, DIST::Arrays<int> &allArrays)
{ {
DIST::Array *retVal = NULL; DIST::Array *retVal = NULL;
vector<vector<attrType>> coeffsByDims; vector<vector<attrType>> coefsByDims;
for (auto &array : arrays) for (auto &array : arrays)
{ {
vector<int> verts; vector<int> verts;
@@ -285,7 +285,7 @@ static DIST::Array* findBestInEqual(vector<DIST::Array*> &arrays, DIST::GraphCSR
{ {
retVal = array; retVal = array;
for (auto &V : verts) for (auto &V : verts)
coeffsByDims.push_back(reducedG.GetAllAttributes(V)); coefsByDims.push_back(reducedG.GetAllAttributes(V));
} }
else else
{ {
@@ -294,11 +294,11 @@ static DIST::Array* findBestInEqual(vector<DIST::Array*> &arrays, DIST::GraphCSR
toCmp.push_back(reducedG.GetAllAttributes(V)); toCmp.push_back(reducedG.GetAllAttributes(V));
for (int z = 0; z < toCmp.size(); ++z) for (int z = 0; z < toCmp.size(); ++z)
{ {
if (toCmp[z].size() && coeffsByDims[z].size()) if (toCmp[z].size() && coefsByDims[z].size())
{ {
if (toCmp[z].back().first.first > coeffsByDims[z].back().first.first) if (toCmp[z].back().first.first > coefsByDims[z].back().first.first)
{ {
coeffsByDims = toCmp; coefsByDims = toCmp;
retVal = array; retVal = array;
break; break;
} }

6
src/Distribution/DvmhDirective.cpp
View File

@@ -45,10 +45,10 @@ static bool findArrayRefAndCheck(SgExpression *ex, const DIST::Array* currArray,
int countOfShadows = 0; int countOfShadows = 0;
for (int i = 0; i < ref->numberOfSubscripts(); ++i) for (int i = 0; i < ref->numberOfSubscripts(); ++i)
{ {
const vector<int*> &coeffs = getAttributes<SgExpression*, int*>(ref->subscript(i), set<int>{ INT_VAL }); const vector<int*> &coefs = getAttributes<SgExpression*, int*>(ref->subscript(i), set<int>{ INT_VAL });
if (coeffs.size() == 1) if (coefs.size() == 1)
{ {
const pair<int, int> coef(coeffs[0][0], coeffs[0][1]); const pair<int, int> coef(coefs[0][0], coefs[0][1]);
auto it = shiftsByAccess[i].find(coef); auto it = shiftsByAccess[i].find(coef);
if (it != shiftsByAccess[i].end()) if (it != shiftsByAccess[i].end())
if (it->second != 0) if (it->second != 0)

12
src/Distribution/DvmhDirectiveBase.cpp
View File

@@ -364,11 +364,11 @@ static inline string calculateShifts(DIST::GraphCSR<int, double, attrType> &redu
{ {
if (sharedMemoryParallelization) if (sharedMemoryParallelization)
{ {
for (auto& coeffs : currReadOp->first[k].coefficients) for (auto& coefs : currReadOp->first[k].coefficients)
{ {
auto currAccess = coeffs.first; auto currAccess = coefs.first;
const int currShift = coeffs.first.second; const int currShift = coefs.first.second;
auto itFound = shiftsByAccess[k].find(currAccess); auto itFound = shiftsByAccess[k].find(currAccess);
if (itFound == shiftsByAccess[k].end()) if (itFound == shiftsByAccess[k].end())
@@ -393,9 +393,9 @@ static inline string calculateShifts(DIST::GraphCSR<int, double, attrType> &redu
int minShift = 9999999; int minShift = 9999999;
int maxShift = -9999999; int maxShift = -9999999;
for (auto &coeffs : currReadOp->first[k].coefficients) for (auto &coefs : currReadOp->first[k].coefficients)
{ {
auto currAccess = coeffs.first; auto currAccess = coefs.first;
auto result = DIST::Fx(currAccess, currRuleShadow); auto result = DIST::Fx(currAccess, currRuleShadow);
if (result.first == loopRule.first) if (result.first == loopRule.first)
@@ -417,7 +417,7 @@ static inline string calculateShifts(DIST::GraphCSR<int, double, attrType> &redu
auto it = remoteRegularReads.find(calcForArray); auto it = remoteRegularReads.find(calcForArray);
if (it == remoteRegularReads.end()) if (it == remoteRegularReads.end())
it = remoteRegularReads.insert(it, make_pair(calcForArray, vector<ArrayOp>(calcForArray->GetDimSize()))); it = remoteRegularReads.insert(it, make_pair(calcForArray, vector<ArrayOp>(calcForArray->GetDimSize())));
it->second[k].coefficients.insert(coeffs); it->second[k].coefficients.insert(coefs);
} }
} }

41
src/GraphCall/graph_calls.cpp
View File

@@ -800,47 +800,20 @@ static void fillInOut(FuncInfo *currF, SgStatement *start, SgStatement *last, co
static map<string, vector<int>> supportedKeyWordArg = { {"system_clock", { OUT_BIT, OUT_BIT, OUT_BIT } } }; static map<string, vector<int>> supportedKeyWordArg = { {"system_clock", { OUT_BIT, OUT_BIT, OUT_BIT } } };
map<string, int> parNamesMain; map<string, int> parNames;
map<string, int> parNamesContains;
for (int i = 0; i < currF->funcParams.identificators.size(); ++i) for (int i = 0; i < currF->funcParams.identificators.size(); ++i)
parNamesMain[currF->funcParams.identificators[i]] = i; parNames[currF->funcParams.identificators[i]] = i;
map<string, int>& parNames = parNamesMain;
bool isContainsFunctions = false;
for (auto st = start; st != last; st = st->lexNext()) for (auto st = start; st != last; st = st->lexNext())
{ {
if (st->variant() == CONTAINS_STMT) { if (st->variant() == CONTAINS_STMT)
isContainsFunctions = true; break;
continue;
}
if (isContainsFunctions) {
if (st->variant() == PROC_HEDR || st->variant() == FUNC_HEDR) {
parNamesContains = parNamesMain;
SgProgHedrStmt* hedr = (SgProgHedrStmt*)st;
int numOfParams = hedr->numberOfParameters();
if (numOfParams > 0)
{
for (int i = 0; i < numOfParams; ++i)
{
auto it = parNamesContains.find(hedr->parameter(i)->identifier());
if (it != parNamesContains.end())
parNamesContains.erase(it);
}
}
parNames = parNamesContains;
}
}
if (st->variant() == ENTRY_STAT) if (st->variant() == ENTRY_STAT)
continue; continue;
if (isSgExecutableStatement(st) == NULL) { if (isSgExecutableStatement(st) == NULL) {
if (!isContainsFunctions)
checkInTypeDescription(st->expr(0), currF, parNames); checkInTypeDescription(st->expr(0), currF, parNames);
continue; continue;
} }
@@ -848,10 +821,8 @@ static void fillInOut(FuncInfo *currF, SgStatement *start, SgStatement *last, co
if (st->lineNumber() <= 0) if (st->lineNumber() <= 0)
continue; continue;
//XXX: use parameters removing in block ... isContainsFunctions ... if (activeOps.size() && activeOps.find(st) == activeOps.end())
//TODO need to use IR for parameters checking continue;
/*if (activeOps.size() && activeOps.find(st) == activeOps.end())
continue; */
if (st->variant() == ASSIGN_STAT) if (st->variant() == ASSIGN_STAT)
{ {

4
src/GraphLoop/graph_loops_base.cpp
View File

@@ -1137,9 +1137,9 @@ static bool isMapped(const vector<ArrayOp> &allOps)
bool mapped = false; bool mapped = false;
for (auto &ops : allOps) for (auto &ops : allOps)
{ {
for (auto &coeffs : ops.coefficients) for (auto &coefs : ops.coefficients)
{ {
if (coeffs.first.first != 0) if (coefs.first.first != 0)
{ {
mapped = true; mapped = true;
break; break;

34
src/LoopAnalyzer/loop_analyzer.cpp
View File

@@ -247,7 +247,7 @@ static vector<int> matchSubscriptToLoopSymbols(const vector<SgForStmt*> &parentL
} }
} }
pair<int, int> coeffs = pair<int, int>(0, 0); pair<int, int> coefs = pair<int, int>(0, 0);
// more than one loop symbol in subscription // more than one loop symbol in subscription
if (countOfSymbols > 1) if (countOfSymbols > 1)
{ {
@@ -326,16 +326,16 @@ static vector<int> matchSubscriptToLoopSymbols(const vector<SgForStmt*> &parentL
{ {
if (subscr->symbol()->id() == (parentLoops[position]->doName())->id()) if (subscr->symbol()->id() == (parentLoops[position]->doName())->id())
{ {
coeffs.first = 1; coefs.first = 1;
needToCacl = false; needToCacl = false;
} }
} }
if (needToCacl) if (needToCacl)
getCoefsOfSubscript(coeffs, subscr, parentLoops[position]->doName()); getCoefsOfSubscript(coefs, subscr, parentLoops[position]->doName());
__spf_print(PRINT_ARRAY_ARCS, " <%d %d> ", coeffs.first, coeffs.second); __spf_print(PRINT_ARRAY_ARCS, " <%d %d> ", coefs.first, coefs.second);
if (coeffs.first == 0) // && coeffs.second == 0) if (coefs.first == 0) // && coefs.second == 0)
{ {
if (currRegime == REMOTE_ACC) if (currRegime == REMOTE_ACC)
{ {
@@ -346,7 +346,7 @@ static vector<int> matchSubscriptToLoopSymbols(const vector<SgForStmt*> &parentL
{ {
const pair<bool, string> &arrayRefString = constructArrayRefForPrint(arrayRef, dimNum, origSubscr); const pair<bool, string> &arrayRefString = constructArrayRefForPrint(arrayRef, dimNum, origSubscr);
__spf_print(1, "WARN: can not calculate index expression for array ref '%s' at line %d\n", arrayRefString.second.c_str(), currLine); __spf_print(1, "WARN: can not calculate index expression for array ref '%s' at line %d\n", arrayRefString.second.c_str(), currLine);
addInfoToVectors(loopInfo, parentLoops[position], currOrigArrayS, dimNum, coeffs, UNREC_OP, numOfSubscriptions, currentW); addInfoToVectors(loopInfo, parentLoops[position], currOrigArrayS, dimNum, coefs, UNREC_OP, numOfSubscriptions, currentW);
if (side == LEFT) if (side == LEFT)
allPositions.clear(); allPositions.clear();
@@ -371,19 +371,19 @@ static vector<int> matchSubscriptToLoopSymbols(const vector<SgForStmt*> &parentL
currOp.resize(numOfSubscriptions); currOp.resize(numOfSubscriptions);
//add only uniq //add only uniq
auto itAdd = currOp[dimNum].coefficients.find(coeffs); auto itAdd = currOp[dimNum].coefficients.find(coefs);
if (itAdd == currOp[dimNum].coefficients.end()) if (itAdd == currOp[dimNum].coefficients.end())
itAdd = currOp[dimNum].coefficients.insert(itAdd, make_pair(coeffs, currentW)); itAdd = currOp[dimNum].coefficients.insert(itAdd, make_pair(coefs, currentW));
} }
if (coeffs.first < 0) if (coefs.first < 0)
addInfoToMap(loopInfo, parentLoops[position], currOrigArrayS, arrayRef, dimNum, REMOTE_TRUE, currLine, numOfSubscriptions); addInfoToMap(loopInfo, parentLoops[position], currOrigArrayS, arrayRef, dimNum, REMOTE_TRUE, currLine, numOfSubscriptions);
else else
//if we found regular access to array - set it false //if we found regular access to array - set it false
addInfoToMap(loopInfo, parentLoops[position], currOrigArrayS, arrayRef, dimNum, REMOTE_FALSE, currLine, numOfSubscriptions); addInfoToMap(loopInfo, parentLoops[position], currOrigArrayS, arrayRef, dimNum, REMOTE_FALSE, currLine, numOfSubscriptions);
} }
if (coeffs.first < 0 && sharedMemoryParallelization == 0) if (coefs.first < 0 && sharedMemoryParallelization == 0)
{ {
if (currRegime == DATA_DISTR) if (currRegime == DATA_DISTR)
{ {
@@ -402,15 +402,15 @@ static vector<int> matchSubscriptToLoopSymbols(const vector<SgForStmt*> &parentL
if (side == LEFT) if (side == LEFT)
allPositions.clear(); allPositions.clear();
else else
addInfoToVectors(loopInfo, parentLoops[position], currOrigArrayS, dimNum, coeffs, UNREC_OP, numOfSubscriptions, currentW); addInfoToVectors(loopInfo, parentLoops[position], currOrigArrayS, dimNum, coefs, UNREC_OP, numOfSubscriptions, currentW);
} }
} }
else else
{ {
if (side == LEFT) if (side == LEFT)
addInfoToVectors(loopInfo, parentLoops[position], currOrigArrayS, dimNum, coeffs, WRITE_OP, numOfSubscriptions, currentW); addInfoToVectors(loopInfo, parentLoops[position], currOrigArrayS, dimNum, coefs, WRITE_OP, numOfSubscriptions, currentW);
else else
addInfoToVectors(loopInfo, parentLoops[position], currOrigArrayS, dimNum, coeffs, READ_OP, numOfSubscriptions, currentW); addInfoToVectors(loopInfo, parentLoops[position], currOrigArrayS, dimNum, coefs, READ_OP, numOfSubscriptions, currentW);
} }
} }
} }
@@ -418,13 +418,13 @@ static vector<int> matchSubscriptToLoopSymbols(const vector<SgForStmt*> &parentL
if (currRegime == ARRAY_ACC_CORNER) if (currRegime == ARRAY_ACC_CORNER)
{ {
int *valueSubs = new int[2]; int *valueSubs = new int[2];
valueSubs[0] = coeffs.first; valueSubs[0] = coefs.first;
valueSubs[1] = coeffs.second; valueSubs[1] = coefs.second;
#ifdef __SPF #ifdef __SPF
addToCollection(__LINE__, __FILE__, valueSubs, 2); addToCollection(__LINE__, __FILE__, valueSubs, 2);
#endif #endif
const vector<int*> &coeffs = getAttributes<SgExpression*, int*>(subscr, set<int>{ INT_VAL }); const vector<int*> &coefs = getAttributes<SgExpression*, int*>(subscr, set<int>{ INT_VAL });
if (coeffs.size() == 0) if (coefs.size() == 0)
{ {
subscr->addAttribute(INT_VAL, valueSubs, sizeof(int*)); subscr->addAttribute(INT_VAL, valueSubs, sizeof(int*));
if (position != -1 && allPositions.size() == 1 && position < parentLoops.size()) if (position != -1 && allPositions.size() == 1 && position < parentLoops.size())

567
src/ParallelizationRegions/parse_merge_dirs.cpp Normal file
View File

@@ -0,0 +1,567 @@
#include "parse_merge_dirs.h"
#include <unordered_set>
using std::map;
using std::pair;
using std::string;
using std::unordered_map;
using std::unordered_set;
using std::vector;
static void parseMergeDirective(const char *comment,
vector<pair<string, string>> &parsed_mapping)
{
while (comment)
{
auto *line_end = strchr(comment, '\n');
static const char prefix[] = "!!SPF TRANSFORM(MERGE_ARRAYS(";
static const auto compare_chars = sizeof(prefix) - 1;
if (strncasecmp(comment, prefix, compare_chars) == 0)
{
auto *pair_start = comment + compare_chars;
auto *comma = strchr(pair_start, ',');
if (comma)
{
auto *close_br = strchr(comma + 1, ')');
if (close_br)
{
parsed_mapping.emplace_back(
string(pair_start, comma - pair_start),
string(comma + 1, close_br - comma - 1));
}
}
}
comment = line_end;
if (comment)
comment++;
}
}
static string getNonDefaultRegion(DIST::Array *a)
{
string result;
if (!a)
return result;
for (const auto &reg_name : a->GetRegionsName())
{
if (reg_name != "default")
{
if (!result.empty())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
result = reg_name;
}
}
return result;
}
static bool hasSameSizes(DIST::Array *a, DIST::Array *b)
{
for (auto *array : {a, b})
{
for (const auto &p : array->GetSizes())
{
if (p.first < 0 || p.second < 0)
return false;
}
}
return a->GetSizes() == b->GetSizes() && a->GetTypeSize() == b->GetTypeSize();
}
static bool checkSimilarTemplates(vector<ParallelRegion *> &regions,
const unordered_map<string, string> &new_region_mapping)
{
// new region -> old regions
unordered_map<string, unordered_set<string>> new_region_inverse_mapping;
for (const auto &p : new_region_mapping)
new_region_inverse_mapping[p.second].insert(p.first);
for (const auto &new_reg : new_region_inverse_mapping)
{
DIST::Array *template_array = nullptr;
string first_reg_name;
for (const auto &old_region_name : new_reg.second)
{
auto *old_reg = getRegionByName(regions, old_region_name);
if (!old_reg)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
const auto &distr_rules = old_reg->GetDataDir().GetDistrRules();
if (distr_rules.size() != 1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto *current_template = distr_rules.front().first;
if (template_array)
{
if (!hasSameSizes(template_array, current_template))
{
__spf_print(1, "Templates of %s and %s has different sizes\n",
first_reg_name.c_str(),
old_region_name.c_str());
return false;
}
// else everything OK
}
else
{
template_array = current_template;
first_reg_name = old_region_name;
}
}
}
return true;
}
static bool hasSameAlignment(const std::unordered_set<const AlignRule *> &align_a,
const std::unordered_set<const AlignRule *> &align_b)
{
if (align_a.size() != 1 || align_b.size() != 1)
return false;
const auto *rule_a = *align_a.begin();
const auto *rule_b = *align_b.begin();
if (rule_a->alignRule != rule_b->alignRule)
return false;
return true;
}
static void printExpr(SgExpression *e, string pad)
{
if (!e)
return;
__spf_print(1, "%s%d: %s\n", pad.c_str(), e->variant(), e->unparse());
printExpr(e->lhs(), pad + " ");
printExpr(e->rhs(), pad + " ");
}
static pair<vector<SgStatement *>, SgSymbol *> generateDeclaration(const string &array_name, const string &common_block_name,
const vector<pair<int, int>> &sizes, SgType *type, SgStatement *scope)
{
auto *array_symbol = new SgSymbol(VARIABLE_NAME, array_name.c_str(), new SgType(T_ARRAY), scope);
auto *decl = new SgDeclarationStatement(VAR_DECL);
decl->setExpression(1, new SgTypeExp(*type));
SgExpression *subs = new SgExprListExp();
auto *array_ref = new SgArrayRefExp(*array_symbol, *subs);
for (int i = 0; i < sizes.size(); i++)
{
const auto &p = sizes[i];
auto *d = new SgExpression(DDOT, new SgValueExp(p.first), new SgValueExp(p.second));
subs->setLhs(d);
if (i + 1 < sizes.size())
{
subs->setRhs(new SgExprListExp());
subs = subs->rhs();
}
}
decl->setExpression(0, array_ref);
auto comm = new SgStatement(COMM_STAT);
comm->setExpression(0, new SgExpression(COMM_LIST,
new SgVarRefExp(array_symbol),
NULL,
new SgSymbol(COMMON_NAME, common_block_name.c_str())));
return {{decl, comm}, array_symbol};
}
SgSymbol *insertDeclIfNeeded(const string &array_name,
const string &common_block_name,
DIST::Array *example_array,
FuncInfo *dest,
unordered_map<FuncInfo *, unordered_map<string, SgSymbol *>> &inserted_arrays)
{
if (SgFile::switchToFile(dest->fileName) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto &by_func = inserted_arrays[dest];
auto it = by_func.find(array_name);
if (it != by_func.end())
return it->second;
SgStatement *st = dest->funcPointer;
auto *end = st->lastNodeOfStmt();
st = st->lexNext();
while (st != end && !isSgExecutableStatement(st))
{
st = st->lexNext();
}
auto generated = generateDeclaration(array_name, common_block_name,
example_array->GetSizes(),
SgTypeInt(), dest->funcPointer);
for (auto *new_stmt : generated.first)
st->insertStmtBefore(*new_stmt, *dest->funcPointer);
by_func[array_name] = generated.second;
return generated.second;
}
static pair<string, string> createNewArray(DIST::Array *example_array, const string &base_name,
const map<string, vector<FuncInfo *>> &allFuncInfo,
unordered_map<FuncInfo *, unordered_map<string, SgSymbol *>> &inserted_arrays)
{
auto common_block_name = base_name + "_merge_cb";
auto array_name = base_name;
for (const auto &by_file : allFuncInfo)
{
for (auto *func_info : by_file.second)
{
if (func_info->isMain)
{
insertDeclIfNeeded(
array_name,
common_block_name,
example_array,
func_info,
inserted_arrays);
}
}
}
return std::make_pair(array_name, common_block_name);
}
static void replaceArrayRec(SgExpression *e,
const unordered_set<string> &arrays_to_replace,
SgSymbol **func_symbol_hint,
const pair<string, string> &replace_by,
DIST::Array *example_array,
FuncInfo *func,
unordered_map<FuncInfo *, unordered_map<string, SgSymbol *>> &inserted_arrays)
{
if (!e)
return;
if (isArrayRef(e) && arrays_to_replace.find(e->symbol()->identifier()) != arrays_to_replace.end())
{
if (!(*func_symbol_hint))
{
*func_symbol_hint = insertDeclIfNeeded(
replace_by.first, replace_by.second,
example_array,
func,
inserted_arrays);
}
e->setSymbol(*func_symbol_hint);
}
replaceArrayRec(
e->lhs(),
arrays_to_replace,
func_symbol_hint,
replace_by,
example_array,
func,
inserted_arrays);
replaceArrayRec(
e->rhs(),
arrays_to_replace,
func_symbol_hint,
replace_by,
example_array,
func,
inserted_arrays);
}
static void replaceRegion(SgStatement* st, const unordered_map<string, string> &new_region_mapping)
{
if (!st)
return;
if(isSPF_stat(st) && st->variant() == SPF_PARALLEL_REG_DIR)
{
auto it = new_region_mapping.find(st->symbol()->identifier());
if (it != new_region_mapping.end())
st->setSymbol(*(new SgSymbol(CONST_NAME, it->second.c_str())));
}
}
void mergeCopyArrays(vector<ParallelRegion *> &regions, const map<string, vector<FuncInfo *>> &allFuncInfo)
{
for (const auto *region : regions)
{
__spf_print(1, "region %s\n", region->GetName().c_str());
const auto &dirs = region->GetDataDir();
__spf_print(1, " distr rules: %d\n", dirs.distrRules.size());
const auto &currentVariant = region->GetCurrentVariant();
int distr_idx = 0;
for (const auto &distr : dirs.distrRules)
{
const auto &dist_rule = distr.second.back().distRule;
string sizes;
for (const auto &p : distr.first->GetSizes())
{
if (!sizes.empty())
sizes.push_back(',');
sizes += std::to_string(p.first) + ":" + std::to_string(p.second);
}
__spf_print(1, " DIST %s(%s)", distr.first->GetName().c_str(), sizes.c_str());
for (const auto &dim : dist_rule)
__spf_print(1, " %c", dim == dist::BLOCK ? 'B' : '*');
__spf_print(1, "\n");
distr_idx++;
}
__spf_print(1, " align rules: %d\n", dirs.alignRules.size());
for (const auto &align : dirs.alignRules)
{
string sub_a, sub_b;
int i = 0;
for (const auto coefs : align.alignRule)
{
if (!sub_a.empty())
sub_a.push_back(',');
sub_a += std::to_string(coefs.first) + "*i" +
std::to_string(i) + "+" + std::to_string(coefs.second);
i++;
}
for (const auto coefs : align.alignRuleWith)
{
if (!sub_b.empty())
sub_b.push_back(',');
sub_b += std::to_string(coefs.second.first) + "*i" +
std::to_string(coefs.first) + "+" + std::to_string(coefs.second.second);
}
__spf_print(1, " ALIGN %s(%s) WITH %s(%s)\n",
align.alignArray->GetName().c_str(), sub_a.c_str(),
align.alignWith->GetName().c_str(), sub_b.c_str());
}
}
// parse directives
// new array name -> current arrays
unordered_map<string, unordered_set<DIST::Array *>> arrays_to_merge;
unordered_map<DIST::Array *, unordered_set<const AlignRule *>> array_alignment;
for (const auto &by_file : allFuncInfo)
{
const auto current_file_name = by_file.first;
if (SgFile::switchToFile(current_file_name) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
for (auto *func_info : by_file.second)
{
SgStatement *curr_stmt = func_info->funcPointer;
if (!curr_stmt)
continue;
auto *stmt_end = curr_stmt->lastDeclaration();
if (!stmt_end)
continue;
stmt_end = stmt_end->lexNext();
for (; curr_stmt && curr_stmt != stmt_end; curr_stmt = curr_stmt->lexNext())
{
if (curr_stmt->comments())
{
vector<pair<string, string>> parsed_mapping;
parseMergeDirective(curr_stmt->comments(), parsed_mapping);
for (const auto &p : parsed_mapping)
{
auto *found_array = getArrayFromDeclarated(curr_stmt, p.first);
if (found_array)
{
arrays_to_merge[p.second].insert(found_array);
array_alignment[found_array] = {};
}
}
}
}
}
}
// find alignment rules for array
for (const auto *region : regions)
{
const auto &dirs = region->GetDataDir();
for (const auto &align : dirs.alignRules)
{
auto it = array_alignment.find(align.alignArray);
if (it != array_alignment.end())
it->second.insert(&align);
}
}
// old region -> new region
unordered_map<string, string> new_region_mapping;
// new array -> new region
unordered_map<string, string> arrays_new_region_mapping;
vector<string> created_region_names;
for (const auto &by_new_array : arrays_to_merge)
{
string new_region_name;
for (auto *current_array : by_new_array.second)
{
auto current_array_region = getNonDefaultRegion(current_array);
auto it = new_region_mapping.find(current_array_region);
if (it != new_region_mapping.end())
{
if (new_region_name.empty())
new_region_name = it->second;
else if (new_region_name != it->second)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
}
}
if (new_region_name.empty())
{
new_region_name = "merged_reg_" + std::to_string(created_region_names.size());
created_region_names.push_back(new_region_name);
}
for (auto *current_array : by_new_array.second)
{
auto current_array_region = getNonDefaultRegion(current_array);
new_region_mapping[current_array_region] = new_region_name;
}
arrays_new_region_mapping[by_new_array.first] = new_region_name;
}
if (!checkSimilarTemplates(regions, new_region_mapping))
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
unordered_map<FuncInfo *, unordered_map<string, SgSymbol *>> inserted_arrays;
for (const auto &by_dest_array : arrays_to_merge)
{
const auto &copy_arrays = by_dest_array.second;
if (copy_arrays.empty())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto *first_element = *copy_arrays.begin();
auto first_elem_rules_it = array_alignment.find(first_element);
if (first_elem_rules_it == array_alignment.end())
continue;
const auto &first_elem_rules = first_elem_rules_it->second;
for (auto *array_to_merge : copy_arrays)
{
auto array_rules_it = array_alignment.find(array_to_merge);
if (array_rules_it == array_alignment.end())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
const auto &array_rules = array_rules_it->second;
if (!hasSameSizes(array_to_merge, first_element) || !hasSameAlignment(first_elem_rules, array_rules))
{
__spf_print(1, "Arrays %s and %s has different sizes or align rules\n",
array_to_merge->GetName().c_str(),
first_element->GetName().c_str());
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
}
}
__spf_print(1, "merge into %s (%s):\n", by_dest_array.first.c_str(), arrays_new_region_mapping[by_dest_array.first].c_str());
for (auto *array_to_merge : copy_arrays)
__spf_print(1, "%s\n", array_to_merge->GetName().c_str());
auto created_array_info = createNewArray(first_element, by_dest_array.first, allFuncInfo, inserted_arrays);
unordered_set<string> arrays_to_replace;
for (auto *array_to_merge : copy_arrays)
arrays_to_replace.insert(array_to_merge->GetShortName());
for (const auto &by_file : allFuncInfo)
{
if (SgFile::switchToFile(by_file.first) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
for (auto *func_info : by_file.second)
{
SgSymbol *func_symbol_hint = nullptr;
SgStatement *st = func_info->funcPointer;
auto *func_end = st->lastNodeOfStmt();
st = st->lexNext();
while (st && !isSgExecutableStatement(st) && st != func_end)
st = st->lexNext();
while (st && st != func_end)
{
for (int i = 0; i < 3; i++)
{
replaceArrayRec(
st->expr(i),
arrays_to_replace,
&func_symbol_hint,
created_array_info,
first_element,
func_info,
inserted_arrays);
}
replaceRegion(st, new_region_mapping);
st = st->lexNext();
}
}
}
}
}

8
src/ParallelizationRegions/parse_merge_dirs.h Normal file
View File

@@ -0,0 +1,8 @@
#include "../GraphCall/graph_calls.h"
#include "ParRegions.h"
#include <string>
#include <vector>
#include <map>
void mergeCopyArrays(std::vector<ParallelRegion*> &regions, const std::map<std::string, std::vector<FuncInfo*>> &allFuncInfo);

20
src/Predictor/PredictScheme.cpp
View File

@@ -33,7 +33,6 @@ using std::set;
using std::ofstream; using std::ofstream;
using std::pair; using std::pair;
using std::tuple; using std::tuple;
using SAPFOR::CFG_Settings;
using json = nlohmann::json; using json = nlohmann::json;
@@ -327,7 +326,7 @@ static json parseAlign(const map<DIST::Array*, int>& byPos, SgSymbol* srcArr, Sg
list = list->rhs(); list = list->rhs();
} }
vector<pair<int, int>> coeffs(srcSymbs.size()); vector<pair<int, int>> coefs(srcSymbs.size());
list = listTgt; list = listTgt;
while (list) while (list)
{ {
@@ -338,8 +337,8 @@ static json parseAlign(const map<DIST::Array*, int>& byPos, SgSymbol* srcArr, Sg
has = recSymbolFind(exp, srcSymbs[z].first, VAR_REF); has = recSymbolFind(exp, srcSymbs[z].first, VAR_REF);
if (has) if (has)
{ {
getCoefsOfSubscript(coeffs[z], exp, srcSymbs[z].second); getCoefsOfSubscript(coefs[z], exp, srcSymbs[z].second);
if (coeffs[z].first == 0) if (coefs[z].first == 0)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
break; break;
} }
@@ -347,14 +346,14 @@ static json parseAlign(const map<DIST::Array*, int>& byPos, SgSymbol* srcArr, Sg
list = list->rhs(); list = list->rhs();
} }
for (int z = 0; z < coeffs.size(); ++z) for (int z = 0; z < coefs.size(); ++z)
{ {
if (coeffs[z].first == 0) if (coefs[z].first == 0)
continue; continue;
if (coeffs[z].second) if (coefs[z].second)
align["rules"].push_back({ z, coeffs[z].first }); align["rules"].push_back({ z, coefs[z].first });
else else
align["rules"].push_back({ z, coeffs[z].first, coeffs[z].second }); align["rules"].push_back({ z, coefs[z].first, coefs[z].second });
} }
return align; return align;
} }
@@ -508,8 +507,7 @@ static void parallelDir(const map<DIST::Array*, int>& byPos, SgExpression* spec,
if (currF == NULL) if (currF == NULL)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop, CFG_Settings::CFG_withSPF, CFG_Settings::CFG_withDominators }); auto cfg = buildCFGforCurrentFunc(func, SAPFOR::CFG_Settings(true, false, false, true, false, false, true), commonBlocks, allFuncInfo);
auto cfg = buildCFGforCurrentFunc(func, settings, commonBlocks, allFuncInfo);
//TODO IP analysis //TODO IP analysis
unsigned countOfAccess = 0; unsigned countOfAccess = 0;

331
src/PrivateAnalyzer/private_arrays_search.cpp
View File

@@ -1,4 +1,3 @@
#include <algorithm>
#include <map> #include <map>
#include <unordered_set> #include <unordered_set>
#include <unordered_map> #include <unordered_map>
@@ -7,133 +6,56 @@
#include <numeric> #include <numeric>
#include <iostream> #include <iostream>
#include "ArrayConstantPropagation/propagation.h"
#include "CFGraph/CFGraph.h"
#include "Distribution/Array.h"
#include "graph_loops.h"
#include "private_arrays_search.h" #include "private_arrays_search.h"
#include "range_structures.h" #include "range_structures.h"
#include "region.h" #include "region.h"
#include "SgUtils.h" #include "SgUtils.h"
#include "graph_loops.h"
#include "CFGraph/CFGraph.h"
#include "utils.h" #include "utils.h"
#include "Utils/AstWrapper.h"
using namespace std; using namespace std;
extern std::map<std::tuple<int, std::string, std::string>, std::pair<DIST::Array*, DIST::ArrayAccessInfo*>> declaredArrays;
extern unordered_set<SgStatement*> statementsToRemove;
extern unordered_map<string, vector<pair<SgStatement*, SgStatement*>>> expToChange;
static unordered_set<Region*> collapsed;
static void RemoveEmptyPoints(ArrayAccessingIndexes& container)
{
ArrayAccessingIndexes resultContainer;
unordered_set<string> toRemove;
for (auto& [arrayName, accessingSet] : container)
{
vector<vector<ArrayDimension>> points;
for (auto& arrayPoint : accessingSet.GetElements())
{
if (!arrayPoint.empty())
points.push_back(arrayPoint);
}
if (!points.empty())
resultContainer[arrayName] = points;
else
toRemove.insert(arrayName);
}
for (const string& name : toRemove)
container.erase(name);
for (auto& [arrayName, accessingSet] : resultContainer)
container[arrayName] = accessingSet;
}
static void Collapse(Region* region) static void Collapse(Region* region)
{ {
if (region->getBasickBlocks().empty()) if (region->getBasickBlocks().empty())
return; return;
bool firstRegion = true; for (auto& [arrayName, arrayRanges] : region->getHeader()->array_out)
for (Region* basickBlock : region->getBasickBlocks())
{ {
if (basickBlock->getNextRegions().empty()) for (Region* byBlock : region->getBasickBlocks())
{ {
if (firstRegion) AccessingSet intersection = byBlock->array_def[arrayName].Intersect(arrayRanges);
{ region->array_def[arrayName] = region->array_def[arrayName].Union(intersection);
region->array_def = basickBlock->array_out;
firstRegion = false;
}
else
{
unordered_set<string> toErease;
for (auto& [arrayName, arrayRanges] : region->array_def)
{
if (basickBlock->array_out.find(arrayName) != basickBlock->array_out.end())
arrayRanges = arrayRanges.Intersect(basickBlock->array_out[arrayName]);
else
{
arrayRanges = AccessingSet();
toErease.insert(arrayName);
} }
} }
for (string arrayName : toErease)
region->array_def.erase(arrayName);
}
}
}
RegionInstruction instruction;
instruction.def = move(region->array_def);
for (auto& byBlock : region->getBasickBlocks()) for (auto& byBlock : region->getBasickBlocks())
{ {
for (auto& instruction : byBlock->instructions) for (auto& [arrayName, arrayRanges] : byBlock->array_use)
{ {
for (auto& [arrayName, _] : instruction.use) AccessingSet diff = byBlock->array_use[arrayName].Diff(byBlock->array_in[arrayName]);
{
AccessingSet diff = instruction.use[arrayName].Diff(instruction.in[arrayName]);
region->array_use[arrayName] = region->array_use[arrayName].Union(diff); region->array_use[arrayName] = region->array_use[arrayName].Union(diff);
} }
} }
} ArrayAccessingIndexes useUnion;
ArrayAccessingIndexes useUnionB;
for (auto& byBlock : region->getBasickBlocks()) for (auto& byBlock : region->getBasickBlocks())
for (auto& instruction : byBlock->instructions) for (auto& [arrayName, arrayRanges] : byBlock->array_use)
for (auto& [arrayName, _] : instruction.use) useUnion[arrayName] = useUnion[arrayName].Union(byBlock->array_use[arrayName]);
useUnionB[arrayName] = useUnionB[arrayName].Union(instruction.use[arrayName]);
for (auto& [arrayName, _] : useUnionB) for (auto& [arrayName, arrayRanges] : useUnion)
region->array_priv[arrayName] = useUnionB[arrayName].Diff(region->array_use[arrayName]); region->array_priv[arrayName] = useUnion[arrayName].Diff(region->array_use[arrayName]);
instruction.use = move(region->array_use);
for (Region* prevBlock : region->getHeader()->getPrevRegions()) for (Region* prevBlock : region->getHeader()->getPrevRegions())
{
prevBlock->replaceInNextRegions(region, region->getHeader()); prevBlock->replaceInNextRegions(region, region->getHeader());
region->addPrevRegion(prevBlock);
}
for (Region* nextBlock : region->getHeader()->getNextRegions()) for (Region* nextBlock : region->getHeader()->getNextRegions())
{
nextBlock->replaceInPrevRegions(region, region->getHeader()); nextBlock->replaceInPrevRegions(region, region->getHeader());
region->addNextRegion(nextBlock);
}
region->instructions.push_back(instruction);
} }
static void SolveDataFlowIteratively(Region* DFG) static void SolveDataFlowIteratively(Region* DFG)
{ {
auto blocks = DFG->getBasickBlocks(); unordered_set<Region*> worklist(DFG->getBasickBlocks());
std::unordered_set<Region*> worklist(blocks.begin(), blocks.end());
do do
{ {
Region* b = *worklist.begin(); Region* b = *worklist.begin();
@@ -151,9 +73,8 @@ static void SolveDataFlowIteratively(Region* DFG)
if (prevBlock->array_out.empty()) if (prevBlock->array_out.empty())
{ {
newIn.clear(); newIn.clear();
break; continue;
} }
for (const auto& [arrayName, accessSet] : prevBlock->array_out) for (const auto& [arrayName, accessSet] : prevBlock->array_out)
{ {
if (newIn.find(arrayName) != newIn.end()) if (newIn.find(arrayName) != newIn.end())
@@ -166,7 +87,6 @@ static void SolveDataFlowIteratively(Region* DFG)
b->array_in = move(newIn); b->array_in = move(newIn);
ArrayAccessingIndexes newOut; ArrayAccessingIndexes newOut;
if (b->array_def.empty()) if (b->array_def.empty())
newOut = b->array_in; newOut = b->array_in;
else if (b->array_in.empty()) else if (b->array_in.empty())
@@ -187,204 +107,45 @@ static void SolveDataFlowIteratively(Region* DFG)
b->array_out = newOut; b->array_out = newOut;
else else
worklist.erase(b); worklist.erase(b);
} while (!worklist.empty());
}
static void SolveForBasickBlock(Region* block)
{
ArrayAccessingIndexes newIn;
bool flagFirst = true;
for (Region* prevBlock : block->getPrevRegions())
{
if (flagFirst)
{
newIn = prevBlock->array_out;
flagFirst = false;
}
else
{
if (prevBlock->array_out.empty())
{
newIn.clear();
break;
}
for (const auto& [arrayName, accessSet] : prevBlock->array_out)
{
if (newIn.find(arrayName) != newIn.end())
newIn[arrayName] = newIn[arrayName].Intersect(accessSet);
else
newIn[arrayName] = AccessingSet();
}
}
}
if (block->instructions.empty())
block->instructions.push_back(RegionInstruction());
block->instructions[0].in = move(newIn);
for (int i = 0; i < block->instructions.size(); i++)
{
auto& instruction = block->instructions[i];
if (i > 0)
instruction.in = block->instructions[i - 1].out;
ArrayAccessingIndexes newOut;
if (instruction.def.empty())
newOut = instruction.in;
else if (instruction.in.empty())
newOut = instruction.def;
else
{
for (auto& [arrayName, accessSet] : instruction.def)
{
if (instruction.in.find(arrayName) != instruction.in.end())
newOut[arrayName] = instruction.def[arrayName].Union(instruction.in[arrayName]);
else
newOut[arrayName] = accessSet;
}
for (auto& [arrayName, accessSet] : instruction.in)
{
if (newOut.find(arrayName) == newOut.end())
{
newOut[arrayName] = accessSet;
}
}
}
instruction.out = move(newOut);
}
if (!block->instructions.empty())
block->array_out = block->instructions.back().out;
}
static void SolveDataFlowTopologically(Region* DFG)
{
for (Region* b : DFG->getBasickBlocks())
{
collapsed.insert(b);
SolveForBasickBlock(b);
} }
while (!worklist.empty());
} }
static void SolveDataFlow(Region* DFG) static void SolveDataFlow(Region* DFG)
{ {
if (!DFG) if (!DFG)
return; return;
SolveDataFlowIteratively(DFG);
for (Region* subRegion : DFG->getSubRegions()) for (Region* subRegion : DFG->getSubRegions())
{
SolveDataFlow(subRegion); SolveDataFlow(subRegion);
DFG->addBasickBlocks(subRegion);
}
vector<Region*>& blocks = DFG->getBasickBlocks();
auto pos = remove_if(blocks.begin(), blocks.end(), [](Region* r) { return collapsed.find(r) != collapsed.end(); });
blocks.erase(pos, blocks.end());
TopologySort(DFG->getBasickBlocks(), DFG->getHeader());
SolveDataFlowTopologically(DFG);
Collapse(DFG); Collapse(DFG);
} }
static bool getArrayDeclaredDimensions(SgArrayRefExp* arrayRef, vector<uint64_t>& declaredDims) unsigned long long CalculateLength(const AccessingSet& array)
{
if (!arrayRef || !arrayRef->symbol() || !isSgArrayType(arrayRef->symbol()->type()))
return false;
SgArrayType* arrayType = (SgArrayType*)arrayRef->symbol()->type();
int dimCount = arrayType->dimension();
for (int i = 0; i < dimCount; i++)
{
SgExpression* sizeExpr = arrayType->sizeInDim(i);
SgConstantSymb* constValSymb = isSgConstantSymb(sizeExpr->symbol());
SgSubscriptExp* subscriptExpr = isSgSubscriptExp(sizeExpr);
uint64_t dimLength;
if (sizeExpr && sizeExpr->variant() == INT_VAL)
dimLength = stol(sizeExpr->unparse());
else if (constValSymb)
dimLength = stol(constValSymb->constantValue()->unparse());
else if (subscriptExpr)
{
dimLength = stol(subscriptExpr->rhs()->unparse()) - stol(subscriptExpr->lhs()->unparse());
}
else
return false;
if (dimLength == 0)
return false;
declaredDims.push_back(dimLength);
}
return true;
}
static DIST::Array* getDistArrayBySymbol(SgSymbol* arrSym)
{
if (!arrSym)
return nullptr;
for (auto& [key, val] : declaredArrays)
{
DIST::Array* distArr = val.first;
if (!distArr)
continue;
Symbol* declSym = distArr->GetDeclSymbol();
if (!declSym)
continue;
SgSymbol* sgDecl = declSym->GetOriginal();
if (sgDecl && isEqSymbols(sgDecl, arrSym))
return distArr;
}
return nullptr;
}
static bool CheckDimensionLength(const AccessingSet& array)
{ {
if (array.GetElements().empty()) if (array.GetElements().empty())
return false; return 0;
size_t dimCount = array.GetElements()[0].size(); unsigned long long result = 1;
SgArrayRefExp* arrayRef = array.GetElements()[0][0].array; for (const auto& range : array.GetElements())
if (!arrayRef || !arrayRef->symbol())
return false;
vector<uint64_t> declaredDims;
declaredDims.reserve(dimCount);
DIST::Array* distArr = getDistArrayBySymbol(arrayRef->symbol());
if (distArr && distArr->GetDimSize() == (int)dimCount)
{ {
const auto& sizes = distArr->GetSizes(); for (const auto& dim : range)
bool valid = true;
for (size_t i = 0; i < dimCount && valid; ++i)
{ {
int lo = sizes[i].first; result *= (dim.step * dim.tripCount);
int hi = sizes[i].second;
if (lo > hi)
valid = false;
else
declaredDims.push_back((uint64_t)(hi - lo + 1));
}
if (valid && declaredDims.size() == dimCount)
{
vector<ArrayDimension> testArray(dimCount);
for (size_t i = 0; i < dimCount; i++)
testArray[i] = { 1, 1, declaredDims[i], nullptr };
return AccessingSet({ testArray }).Diff(array).GetElements().empty();
} }
} }
return result;
return false;
} }
static void AddPrivateArraysToLoop(LoopGraph* loop, const ArrayAccessingIndexes& privates, set<SgStatement*>& insertedPrivates) void AddPrivateArraysToLoop(LoopGraph* loop, const ArrayAccessingIndexes& privates, set<SgStatement*>& insertedPrivates)
{ {
SgStatement* spfStat = new SgStatement(SPF_ANALYSIS_DIR); SgStatement* spfStat = new SgStatement(SPF_ANALYSIS_DIR);
spfStat->setlineNumber(loop->loop->lineNumber()); spfStat->setlineNumber(loop->loop->lineNumber());
spfStat->setFileName(loop->loop->fileName()); spfStat->setFileName(loop->loop->fileName());
SgExpression* toAdd = new SgExpression(EXPR_LIST, new SgExpression(ACC_PRIVATE_OP), NULL, NULL); SgExpression* toAdd = new SgExpression(EXPR_LIST, new SgExpression(ACC_PRIVATE_OP), NULL, NULL);
set<SgSymbol*> arraysToInsert; set<SgSymbol*> arraysToInsert;
std::cout << "First bp\n";
for (const auto& [_, accessingSet] : privates) for (const auto& [_, accessingSet] : privates)
{ {
if (!CheckDimensionLength(accessingSet))
continue;
for (const auto& arrayElement : accessingSet.GetElements()) for (const auto& arrayElement : accessingSet.GetElements())
{ {
if (arrayElement.empty()) if (arrayElement.empty())
@@ -412,14 +173,14 @@ static void AddPrivateArraysToLoop(LoopGraph* loop, const ArrayAccessingIndexes&
toAdd->setLhs(new SgVarRefExp(elem)); toAdd->setLhs(new SgVarRefExp(elem));
} }
if (arraysToInsert.size() != 0) if (arraysToInsert.size() == 0)
{ printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
loop->loop->insertStmtBefore(*spfStat, *loop->loop->controlParent()); loop->loop->insertStmtBefore(*spfStat, *loop->loop->controlParent());
insertedPrivates.insert(spfStat); insertedPrivates.insert(spfStat);
}
} }
void FindPrivateArrays(map<string, vector<LoopGraph*>>& loopGraph, map<FuncInfo*, vector<SAPFOR::BasicBlock*>>& FullIR, set<SgStatement*>& insertedPrivates) void FindPrivateArrays(map<string, vector<LoopGraph*>> &loopGraph, map<FuncInfo*, vector<SAPFOR::BasicBlock*>>& FullIR, set<SgStatement*> &insertedPrivates)
{ {
map<LoopGraph*, ArrayAccessingIndexes> result; map<LoopGraph*, ArrayAccessingIndexes> result;
for (const auto& [fileName, loops] : loopGraph) for (const auto& [fileName, loops] : loopGraph)
@@ -427,55 +188,29 @@ void FindPrivateArrays(map<string, vector<LoopGraph*>>& loopGraph, map<FuncInfo*
SgFile::switchToFile(fileName); SgFile::switchToFile(fileName);
for (const auto& loop : loops) for (const auto& loop : loops)
{ {
if (!loop->isFor())
continue;
SgStatement* search_func = loop->loop->GetOriginal(); SgStatement* search_func = loop->loop->GetOriginal();
while (search_func && (!isSgProgHedrStmt(search_func))) while (search_func && (!isSgProgHedrStmt(search_func)))
search_func = search_func->controlParent(); search_func = search_func->controlParent();
for (const auto& [funcInfo, blocks] : FullIR) for (const auto& [funcInfo, blocks]: FullIR)
{ {
if (funcInfo->fileName == fileName && funcInfo->funcPointer->GetOriginal() == search_func) if (funcInfo->fileName == fileName && funcInfo->funcPointer->GetOriginal() == search_func)
{ {
Region* loopRegion; Region* loopRegion = new Region(loop, blocks);
try
{
loopRegion = new Region(loop, blocks);
}
catch (...)
{
continue;
}
if (loopRegion->getBasickBlocks().size() <= 1) if (loopRegion->getBasickBlocks().size() <= 1)
{ {
delete(loopRegion); delete(loopRegion);
continue; continue;
} }
SolveDataFlow(loopRegion); SolveDataFlow(loopRegion);
RemoveEmptyPoints(loopRegion->array_priv);
result[loop] = loopRegion->array_priv; result[loop] = loopRegion->array_priv;
delete(loopRegion); delete(loopRegion);
} }
} }
if (result.find(loop) != result.end() && !result[loop].empty()) if (result.find(loop) != result.end() && !result[loop].empty())
AddPrivateArraysToLoop(loop, result[loop], insertedPrivates); AddPrivateArraysToLoop(loop, result[loop], insertedPrivates);
} }
} }
for (SgStatement* st : statementsToRemove)
{
SgFile::switchToFile(st->fileName());
st->deleteStmt();
}
for (auto& [filename, statements] : expToChange)
{
SgFile::switchToFile(filename);
for (auto& [statement, statementCopy] : statements)
{
statement->insertStmtBefore(*statementCopy, *statement->controlParent());
statement->deleteStmt();
}
}
} }

39
src/PrivateAnalyzer/range_structures.cpp
View File

@@ -47,7 +47,7 @@ static ArrayDimension* DimensionIntersection(const ArrayDimension& dim1, const A
uint64_t start3 = dim1.start + x0 * dim1.step; uint64_t start3 = dim1.start + x0 * dim1.step;
uint64_t step3 = c * dim1.step; uint64_t step3 = c * dim1.step;
ArrayDimension* result = new(ArrayDimension){ start3, step3, tMax + 1 , dim1.array }; ArrayDimension* result = new(ArrayDimension){ start3, step3, tMax + 1 , dim1.array};
return result; return result;
} }
@@ -61,16 +61,21 @@ static vector<ArrayDimension> DimensionDifference(const ArrayDimension& dim1, co
vector<ArrayDimension> result; vector<ArrayDimension> result;
/* add the part before intersection */ /* add the part before intersection */
if (dim1.start < intersection->start) if (dim1.start < intersection->start)
result.push_back({ dim1.start, dim1.step, (intersection->start - dim1.start) / dim1.step, dim1.array }); result.push_back({ dim1.start, dim1.step, (intersection->start - dim1.start) / dim1.step, dim1.array});
/* add the parts between intersection steps */ /* add the parts between intersection steps */
if (intersection->step > dim1.step)
{
uint64_t start = (intersection->start - dim1.start) / dim1.step; uint64_t start = (intersection->start - dim1.start) / dim1.step;
uint64_t interValue = intersection->start; uint64_t interValue = intersection->start;
for (int64_t i = start; interValue <= intersection->start + intersection->step * (intersection->tripCount - 1); i++) for (int64_t i = start; dim1.start + i * dim1.step <= intersection->start + intersection->step * (intersection->tripCount - 1); i++)
{ {
result.push_back({ interValue + dim1.step, dim1.step, intersection->step / dim1.step, dim1.array }); uint64_t centerValue = dim1.start + i * dim1.step;
if (centerValue == interValue)
{
if (i - start > 1)
{
result.push_back({ dim1.start + (start + 1) * dim1.step, dim1.step, i - start - 1, dim1.array });
start = i;
}
interValue += intersection->step; interValue += intersection->step;
} }
} }
@@ -132,10 +137,8 @@ static vector<ArrayDimension> ElementsIntersection(const vector<ArrayDimension>&
static vector<vector<ArrayDimension>> ElementsDifference(const vector<ArrayDimension>& firstElement, static vector<vector<ArrayDimension>> ElementsDifference(const vector<ArrayDimension>& firstElement,
const vector<ArrayDimension>& secondElement) const vector<ArrayDimension>& secondElement)
{ {
if (firstElement.empty()) if (firstElement.empty() || secondElement.empty())
return {}; return {};
if (secondElement.empty())
return { firstElement };
vector<ArrayDimension> intersection = ElementsIntersection(firstElement, secondElement); vector<ArrayDimension> intersection = ElementsIntersection(firstElement, secondElement);
vector<vector<ArrayDimension>> result; vector<vector<ArrayDimension>> result;
@@ -190,7 +193,7 @@ bool AccessingSet::ContainsElement(const vector<ArrayDimension>& element) const
{ {
vector<vector<ArrayDimension>> tails; vector<vector<ArrayDimension>> tails;
FindUncovered(element, tails); FindUncovered(element, tails);
return tails.empty(); return !tails.empty();
} }
void AccessingSet::FindCoveredBy(const vector<ArrayDimension>& element, vector<vector<ArrayDimension>>& result) const void AccessingSet::FindCoveredBy(const vector<ArrayDimension>& element, vector<vector<ArrayDimension>>& result) const
@@ -213,10 +216,6 @@ void AccessingSet::Insert(const vector<ArrayDimension>& element)
} }
AccessingSet AccessingSet::Union(const AccessingSet& source) { AccessingSet AccessingSet::Union(const AccessingSet& source) {
if (source.GetElements().empty())
return *this;
if (allElements.empty())
return source;
AccessingSet result; AccessingSet result;
for (auto& element : source.GetElements()) for (auto& element : source.GetElements())
result.Insert(element); result.Insert(element);
@@ -254,15 +253,13 @@ AccessingSet AccessingSet::Diff(const AccessingSet& secondSet) const
return *this; return *this;
AccessingSet intersection = this->Intersect(secondSet); AccessingSet intersection = this->Intersect(secondSet);
vector<vector<ArrayDimension>> uncovered; AccessingSet uncovered = *this;
for (const auto& element : allElements) vector<vector<ArrayDimension>> result;
for (const auto& element : intersection.GetElements())
{ {
vector<vector<ArrayDimension>> current_uncovered; vector<vector<ArrayDimension>> current_uncovered;
intersection.FindUncovered(element, current_uncovered); uncovered.FindUncovered(element, current_uncovered);
uncovered.insert(uncovered.end(), uncovered = AccessingSet(current_uncovered);
std::move_iterator(current_uncovered.begin()),
std::move_iterator(current_uncovered.end())
);
} }
return uncovered; return uncovered;
} }

169
src/PrivateAnalyzer/region.cpp
View File

@@ -1,14 +1,13 @@
#include <algorithm> #include<vector>
#include <vector> #include<map>
#include <map> #include<unordered_set>
#include <unordered_set> #include<unordered_map>
#include <unordered_map> #include<string>
#include <string>
#include <numeric> #include <numeric>
#include <iostream>
#include "range_structures.h" #include "range_structures.h"
#include "region.h" #include "region.h"
#include "SgUtils.h" #include "SgUtils.h"
using namespace std; using namespace std;
@@ -93,7 +92,7 @@ static string FindIndexName(int pos, SAPFOR::BasicBlock* block, map<string, Loop
return ""; return "";
} }
static int GetDefUseArray(SAPFOR::BasicBlock* block, LoopGraph* loop, ArrayAccessingIndexes& def, ArrayAccessingIndexes& use, Region* region) { static int GetDefUseArray(SAPFOR::BasicBlock* block, LoopGraph* loop, ArrayAccessingIndexes& def, ArrayAccessingIndexes& use) {
auto instructions = block->getInstructions(); auto instructions = block->getInstructions();
map<string, LoopGraph*> loopForIndex; map<string, LoopGraph*> loopForIndex;
BuildLoopIndex(loopForIndex, loop); BuildLoopIndex(loopForIndex, loop);
@@ -105,37 +104,15 @@ static int GetDefUseArray(SAPFOR::BasicBlock* block, LoopGraph* loop, ArrayAcces
auto operation = instruction->getInstruction()->getOperation(); auto operation = instruction->getInstruction()->getOperation();
auto type = instruction->getInstruction()->getArg1()->getType(); auto type = instruction->getInstruction()->getArg1()->getType();
if (operation == SAPFOR::CFG_OP::ASSIGN && instruction->getInstruction()->getResult()->getType() == SAPFOR::CFG_ARG_TYPE::ARRAY)
{
SgStatement* op = instruction->getInstruction()->getOperator();
if (op && op->expr(0) && isArrayRef(op->expr(0)) && op->expr(0)->symbol() && op->expr(0)->type())
{
if (isSgArrayType(op->expr(0)->symbol()->type()))
{
SgArrayType* arrayType = (SgArrayType*)op->expr(0)->symbol()->type();
int dimCount = ((SgArrayType*)op->expr(0)->symbol()->type())->dimension();
vector<ArrayDimension> point;
for (int i = 0; i < dimCount; i++)
{
string strDimLength = arrayType->sizeInDim(i)->unparse();
if (arrayType->sizeInDim(i)->variant() == INT_VAL && strDimLength != "0")
point.push_back({ 1ULL, 1ULL, (uint64_t)stoi(strDimLength), (SgArrayRefExp*)op->expr(0) });
}
if (point.size() == dimCount)
{
def[instruction->getInstruction()->getResult()->getValue()] = AccessingSet({ point });
RegionInstruction regionInstruction;
regionInstruction.def[instruction->getInstruction()->getResult()->getValue()] = AccessingSet({ point });
}
}
}
}
if ((operation == SAPFOR::CFG_OP::STORE || operation == SAPFOR::CFG_OP::LOAD) && type == SAPFOR::CFG_ARG_TYPE::ARRAY) if ((operation == SAPFOR::CFG_OP::STORE || operation == SAPFOR::CFG_OP::LOAD) && type == SAPFOR::CFG_ARG_TYPE::ARRAY)
{ {
vector<SAPFOR::Argument*> index_vars; vector<SAPFOR::Argument*> index_vars;
vector<int> refPos; vector<int> refPos;
string array_name = instruction->getInstruction()->getArg1()->getValue(); string array_name;
if (operation == SAPFOR::CFG_OP::STORE)
array_name = instruction->getInstruction()->getArg1()->getValue();
else
array_name = instruction->getInstruction()->getArg2()->getValue();
int j = i - 1; int j = i - 1;
while (j >= 0 && instructions[j]->getInstruction()->getOperation() == SAPFOR::CFG_OP::REF) while (j >= 0 && instructions[j]->getInstruction()->getOperation() == SAPFOR::CFG_OP::REF)
@@ -150,31 +127,28 @@ static int GetDefUseArray(SAPFOR::BasicBlock* block, LoopGraph* loop, ArrayAcces
vector<ArrayDimension> accessPoint(n); vector<ArrayDimension> accessPoint(n);
auto* ref = isSgArrayRefExp(instruction->getInstruction()->getExpression()); auto* ref = isSgArrayRefExp(instruction->getInstruction()->getExpression());
if (!ref) vector<pair<int, int>> coefsForDims;
continue;
int fillCount = 0;
vector<pair<int, int>> coeffsForDims;
int subs = ref->numberOfSubscripts();
for (int i = 0; ref && i < ref->numberOfSubscripts(); ++i) for (int i = 0; ref && i < ref->numberOfSubscripts(); ++i)
{ {
const vector<int*>& coeffs = getAttributes<SgExpression*, int*>(ref->subscript(i), set<int>{ INT_VAL }); const vector<int*>& coefs = getAttributes<SgExpression*, int*>(ref->subscript(i), set<int>{ INT_VAL });
if (coeffs.size() == 1) if (coefs.size() == 1)
{ {
const pair<int, int> coef(coeffs[0][0], coeffs[0][1]); const pair<int, int> coef(coefs[0][0], coefs[0][1]);
coeffsForDims.push_back(coef); coefsForDims.push_back(coef);
} }
} }
coeffsForDims = { coeffsForDims.rbegin(), coeffsForDims.rend() };
while (!index_vars.empty() && !refPos.empty() && !coeffsForDims.empty()) int fillCount = 0;
while (!index_vars.empty() && !refPos.empty() && !coefsForDims.empty())
{ {
auto var = index_vars.back(); auto var = index_vars.back();
int currentVarPos = refPos.back(); int currentVarPos = refPos.back();
pair<int, int> currentCoefs = coefsForDims.back();
ArrayDimension current_dim; ArrayDimension current_dim;
if (var->getType() == SAPFOR::CFG_ARG_TYPE::CONST) if (var->getType() == SAPFOR::CFG_ARG_TYPE::CONST)
current_dim = { stoul(var->getValue()), 1, 1, ref }; current_dim = { stoul(var->getValue()), 1, 1, ref};
else else
{ {
string name, full_name = var->getValue(); string name, full_name = var->getValue();
@@ -200,42 +174,24 @@ static int GetDefUseArray(SAPFOR::BasicBlock* block, LoopGraph* loop, ArrayAcces
return -1; return -1;
} }
uint64_t start = coeffsForDims.back().second * currentLoop->startVal + coeffsForDims.back().first; uint64_t start = currentLoop->startVal * currentCoefs.first + currentCoefs.second;
uint64_t step = currentLoop->stepVal; uint64_t step = currentCoefs.first;
uint64_t iters = currentLoop->calculatedCountOfIters; current_dim = { start, step, (uint64_t)currentLoop->calculatedCountOfIters, ref };
current_dim = { start, step, iters, ref };
} }
if (current_dim.step != 0 && current_dim.tripCount != 0)
{
accessPoint[n - index_vars.size()] = current_dim; accessPoint[n - index_vars.size()] = current_dim;
fillCount++; fillCount++;
}
index_vars.pop_back(); index_vars.pop_back();
refPos.pop_back(); refPos.pop_back();
coeffsForDims.pop_back(); coefsForDims.pop_back();
} }
if (fillCount == accessPoint.size()) if (fillCount == accessPoint.size())
{ {
RegionInstruction instruction;
if (operation == SAPFOR::CFG_OP::STORE) if (operation == SAPFOR::CFG_OP::STORE)
{
def[array_name].Insert(accessPoint); def[array_name].Insert(accessPoint);
instruction.def[array_name] = { { accessPoint } };
}
else else
{
instruction.use[array_name] = { { accessPoint } };
if (def.find(array_name) == def.end())
use[array_name].Insert(accessPoint); use[array_name].Insert(accessPoint);
else
{
AccessingSet element({ accessPoint });
use[array_name] = use[array_name].Union(element.Diff(def[array_name]));
}
}
region->instructions.push_back(instruction);
} }
} }
} }
@@ -243,58 +199,6 @@ static int GetDefUseArray(SAPFOR::BasicBlock* block, LoopGraph* loop, ArrayAcces
} }
static void RemoveHeaderConnection(SAPFOR::BasicBlock* header, const unordered_set<SAPFOR::BasicBlock*>& blockSet, unordered_map<SAPFOR::BasicBlock*, Region*>& bbToRegion)
{
for (SAPFOR::BasicBlock* block : blockSet)
{
bool isCycleBlock = false;
for (SAPFOR::BasicBlock* prevBlock : block->getPrev())
isCycleBlock = isCycleBlock || (blockSet.find(prevBlock) != blockSet.end());
if (isCycleBlock)
{
bbToRegion[block]->removeNextRegion(bbToRegion[header]);
bbToRegion[header]->removePrevRegion(bbToRegion[block]);
}
}
}
static void DFS(Region* block, vector<Region*>& result, unordered_set<Region*> cycleBlocks)
{
for (Region* nextBlock : block->getNextRegions())
{
if (cycleBlocks.find(nextBlock) != cycleBlocks.end())
DFS(nextBlock, result, cycleBlocks);
}
result.push_back(block);
}
bool HasCycle(Region* block, const std::unordered_set<Region*>& cycleBlocks, std::unordered_set<Region*>& visitedBlocks)
{
if (visitedBlocks.find(block) != visitedBlocks.end())
return true;
visitedBlocks.insert(block);
for (Region* nextBlock : block->getNextRegions())
{
if (cycleBlocks.find(nextBlock) != cycleBlocks.end() && HasCycle(nextBlock, cycleBlocks, visitedBlocks))
return true;
}
return false;
}
bool TopologySort(std::vector<Region*>& basikBlocks, Region* header)
{
unordered_set<Region*> cycleBlocks(basikBlocks.begin(), basikBlocks.end());
unordered_set<Region*> visitedBlocks;
if (HasCycle(header, cycleBlocks, visitedBlocks))
return false;
vector<Region*> result;
DFS(header, result, cycleBlocks);
reverse(result.begin(), result.end());
basikBlocks = move(result);
return true;
}
static void SetConnections(unordered_map<SAPFOR::BasicBlock*, Region*>& bbToRegion, const unordered_set<SAPFOR::BasicBlock*>& blockSet) static void SetConnections(unordered_map<SAPFOR::BasicBlock*, Region*>& bbToRegion, const unordered_set<SAPFOR::BasicBlock*>& blockSet)
{ {
for (SAPFOR::BasicBlock* block : blockSet) for (SAPFOR::BasicBlock* block : blockSet)
@@ -309,11 +213,10 @@ static void SetConnections(unordered_map<SAPFOR::BasicBlock*, Region*>& bbToRegi
} }
} }
static Region* CreateSubRegion(LoopGraph* loop, const vector<SAPFOR::BasicBlock*>& Blocks, unordered_map<SAPFOR::BasicBlock*, Region*>& bbToRegion) static Region* CreateSubRegion(LoopGraph* loop, const vector<SAPFOR::BasicBlock*>& Blocks, const unordered_map<SAPFOR::BasicBlock*, Region*>& bbToRegion)
{ {
Region* region = new Region; Region* region = new Region;
auto [header, blockSet] = GetBasicBlocksForLoop(loop, Blocks); auto [header, blockSet] = GetBasicBlocksForLoop(loop, Blocks);
RemoveHeaderConnection(header, blockSet, bbToRegion);
if (bbToRegion.find(header) != bbToRegion.end()) if (bbToRegion.find(header) != bbToRegion.end())
region->setHeader(bbToRegion.at(header)); region->setHeader(bbToRegion.at(header));
else else
@@ -327,13 +230,8 @@ static Region* CreateSubRegion(LoopGraph* loop, const vector<SAPFOR::BasicBlock*
region->addBasickBlocks(bbToRegion.at(block)); region->addBasickBlocks(bbToRegion.at(block));
for (LoopGraph* childLoop : loop->children) for (LoopGraph* childLoop : loop->children)
{
if (!childLoop->isFor())
continue;
region->addSubRegions(CreateSubRegion(childLoop, Blocks, bbToRegion)); region->addSubRegions(CreateSubRegion(childLoop, Blocks, bbToRegion));
}
if (!TopologySort(region->getBasickBlocks(), region->getHeader()))
throw std::runtime_error("Unnoticed cycle");
return region; return region;
} }
@@ -344,20 +242,13 @@ Region::Region(LoopGraph* loop, const vector<SAPFOR::BasicBlock*>& Blocks)
for (auto poiner : blockSet) for (auto poiner : blockSet)
{ {
bbToRegion[poiner] = new Region(*poiner); bbToRegion[poiner] = new Region(*poiner);
this->basickBlocks.push_back(bbToRegion[poiner]); this->basickBlocks.insert(bbToRegion[poiner]);
GetDefUseArray(poiner, loop, bbToRegion[poiner]->array_def, bbToRegion[poiner]->array_use, bbToRegion[poiner]); GetDefUseArray(poiner, loop, bbToRegion[poiner]->array_def, bbToRegion[poiner]->array_use);
} }
this->header = bbToRegion[header]; this->header = bbToRegion[header];
SetConnections(bbToRegion, blockSet); SetConnections(bbToRegion, blockSet);
RemoveHeaderConnection(header, blockSet, bbToRegion);
//create subRegions //create subRegions
for (LoopGraph* childLoop : loop->children) for (LoopGraph* childLoop : loop->children)
{
if (!childLoop->isFor())
continue;
subRegions.insert(CreateSubRegion(childLoop, Blocks, bbToRegion)); subRegions.insert(CreateSubRegion(childLoop, Blocks, bbToRegion));
}
if (!TopologySort(basickBlocks, this->header))
throw std::runtime_error("Unnoticed cycle");
} }

32
src/PrivateAnalyzer/region.h
View File

@@ -8,11 +8,6 @@
#include "graph_loops.h" #include "graph_loops.h"
#include "CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
struct RegionInstruction
{
ArrayAccessingIndexes def, use, in, out;
};
class Region : public SAPFOR::BasicBlock { class Region : public SAPFOR::BasicBlock {
public: public:
Region() { header = nullptr; } Region() { header = nullptr; }
@@ -25,25 +20,13 @@ public:
void setHeader(Region* region) { header = region; } void setHeader(Region* region) { header = region; }
std::vector<Region*>& getBasickBlocks() { return basickBlocks; } std::unordered_set<Region*>& getBasickBlocks() { return basickBlocks; }
void addBasickBlocks(Region* region) { basickBlocks.push_back(region); } void addBasickBlocks(Region* region) { basickBlocks.insert(region); }
const std::unordered_set<Region*>& getPrevRegions() { return prevRegions; } const std::unordered_set<Region*>& getPrevRegions() { return prevRegions; }
std::unordered_set<Region*>& getNextRegions() { return nextRegions; } std::unordered_set<Region*> getNextRegions() { return nextRegions; }
void removeNextRegion(Region* region)
{
if (nextRegions.find(region) != nextRegions.end())
nextRegions.erase(region);
}
void removePrevRegion(Region* region)
{
if (prevRegions.find(region) != prevRegions.end())
prevRegions.erase(region);
}
void addPrevRegion(Region* region) { prevRegions.insert(region); } void addPrevRegion(Region* region) { prevRegions.insert(region); }
@@ -65,20 +48,13 @@ public:
void addSubRegions(Region* region) { subRegions.insert(region); } void addSubRegions(Region* region) { subRegions.insert(region); }
std::vector<RegionInstruction> instructions;
ArrayAccessingIndexes array_def, array_use, array_out, array_in, array_priv; ArrayAccessingIndexes array_def, array_use, array_out, array_in, array_priv;
private: private:
std::vector<Region*> basickBlocks; std::unordered_set<Region*> subRegions, basickBlocks;
std::unordered_set<Region*> subRegions;
/*next Region which is BB for current BB Region*/ /*next Region which is BB for current BB Region*/
std::unordered_set<Region*> nextRegions; std::unordered_set<Region*> nextRegions;
/*prev Regions which is BBs for current BB Region*/ /*prev Regions which is BBs for current BB Region*/
std::unordered_set<Region*> prevRegions; std::unordered_set<Region*> prevRegions;
Region* header; Region* header;
}; };
bool HasCycle(Region* block, const std::unordered_set<Region*>& cycleBlocks, std::unordered_set<Region*>& visitedBlocks);
bool TopologySort(std::vector<Region*>& basikBlocks, Region* header);

25
src/Sapfor.cpp
View File

@@ -1,4 +1,4 @@
#include "Utils/leak_detector.h" #include "Utils/leak_detector.h"
#pragma comment(linker, "/STACK:536870912") // 512 МБ #pragma comment(linker, "/STACK:536870912") // 512 МБ
@@ -23,6 +23,7 @@
#include "ParallelizationRegions/ParRegions_func.h" #include "ParallelizationRegions/ParRegions_func.h"
#include "ParallelizationRegions/resolve_par_reg_conflicts.h" #include "ParallelizationRegions/resolve_par_reg_conflicts.h"
#include "ParallelizationRegions/expand_extract_reg.h" #include "ParallelizationRegions/expand_extract_reg.h"
#include "ParallelizationRegions/parse_merge_dirs.h"
#include "Distribution/Distribution.h" #include "Distribution/Distribution.h"
#include "Distribution/GraphCSR.h" #include "Distribution/GraphCSR.h"
@@ -46,7 +47,6 @@
#include "DynamicAnalysis/gCov_parser_func.h" #include "DynamicAnalysis/gCov_parser_func.h"
#include "DynamicAnalysis/createParallelRegions.h" #include "DynamicAnalysis/createParallelRegions.h"
#include "ArrayConstantPropagation/propagation.h"
#include "DirectiveProcessing/directive_analyzer.h" #include "DirectiveProcessing/directive_analyzer.h"
#include "DirectiveProcessing/directive_creator.h" #include "DirectiveProcessing/directive_creator.h"
#include "DirectiveProcessing/insert_directive.h" #include "DirectiveProcessing/insert_directive.h"
@@ -90,7 +90,6 @@
#include "Transformations/DeadCodeRemoving/dead_code.h" #include "Transformations/DeadCodeRemoving/dead_code.h"
#include "Transformations/RenameSymbols/rename_symbols.h" #include "Transformations/RenameSymbols/rename_symbols.h"
#include "Transformations/FunctionInlining/inliner.h" #include "Transformations/FunctionInlining/inliner.h"
#include "Transformations/MoveOperators/move_operators.h"
#include "ProjectParameters/projectParameters.h" #include "ProjectParameters/projectParameters.h"
@@ -942,8 +941,6 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
internalExit = err; internalExit = err;
} }
} }
else if (curr_regime == MOVE_OPERATORS)
moveOperators(file, fullIR, countOfTransform);
else if (curr_regime == PRIVATE_REMOVING_ANALYSIS) else if (curr_regime == PRIVATE_REMOVING_ANALYSIS)
{ {
auto itFound = loopGraph.find(file->filename()); auto itFound = loopGraph.find(file->filename());
@@ -1040,8 +1037,7 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
PRIVATE_REMOVING, PRIVATE_REMOVING,
PRIVATE_ARRAYS_EXPANSION, PRIVATE_ARRAYS_EXPANSION,
PRIVATE_ARRAYS_SHRINKING, PRIVATE_ARRAYS_SHRINKING,
REMOVE_DEAD_CODE, REMOVE_DEAD_CODE };
MOVE_OPERATORS };
if ((countOfTransform == 0 || internalExit > 0) && applyFor.find(curr_regime) != applyFor.end()) if ((countOfTransform == 0 || internalExit > 0) && applyFor.find(curr_regime) != applyFor.end())
{ {
@@ -1893,7 +1889,7 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
findParameters(parametersOfProject, fullIR, declaredArrays); findParameters(parametersOfProject, fullIR, declaredArrays);
else if (curr_regime == BUILD_IR) else if (curr_regime == BUILD_IR)
{ {
auto CFG_forFile = buildCFG(commonBlocks, allFuncInfo_IR, SAPFOR::CFG_Settings()); auto CFG_forFile = buildCFG(commonBlocks, allFuncInfo_IR, SAPFOR::CFG_Settings(0));
for (auto& byFunc : CFG_forFile) for (auto& byFunc : CFG_forFile)
fullIR[byFunc.first].insert(fullIR[byFunc.first].end(), byFunc.second.begin(), byFunc.second.end()); fullIR[byFunc.first].insert(fullIR[byFunc.first].end(), byFunc.second.begin(), byFunc.second.end());
@@ -1922,9 +1918,10 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
transformAssumedSizeParameters(allFuncInfo); transformAssumedSizeParameters(allFuncInfo);
else if (curr_regime == FIND_PRIVATE_ARRAYS_ANALYSIS) else if (curr_regime == FIND_PRIVATE_ARRAYS_ANALYSIS)
FindPrivateArrays(loopGraph, fullIR, insertedPrivates); FindPrivateArrays(loopGraph, fullIR, insertedPrivates);
else if (curr_regime == MERGE_COPY_ARRAYS)
else if (curr_regime == ARRAY_PROPAGATION) {
ArrayConstantPropagation(project); mergeCopyArrays(parallelRegions, allFuncInfo);
}
const float elapsed = duration_cast<milliseconds>(high_resolution_clock::now() - timeForPass).count() / 1000.; const float elapsed = duration_cast<milliseconds>(high_resolution_clock::now() - timeForPass).count() / 1000.;
const float elapsedGlobal = duration_cast<milliseconds>(high_resolution_clock::now() - globalTime).count() / 1000.; const float elapsedGlobal = duration_cast<milliseconds>(high_resolution_clock::now() - globalTime).count() / 1000.;
@@ -2343,7 +2340,6 @@ void runPass(const int curr_regime, const char *proj_name, const char *folderNam
case INSERT_NO_DISTR_FLAGS_FROM_GUI: case INSERT_NO_DISTR_FLAGS_FROM_GUI:
case PRIVATE_REMOVING: case PRIVATE_REMOVING:
case RENAME_INLCUDES: case RENAME_INLCUDES:
case MOVE_OPERATORS:
runAnalysis(*project, curr_regime, true, "", folderName); runAnalysis(*project, curr_regime, true, "", folderName);
break; break;
case INLINE_PROCEDURES: case INLINE_PROCEDURES:
@@ -2379,6 +2375,7 @@ void runPass(const int curr_regime, const char *proj_name, const char *folderNam
case FIX_COMMON_BLOCKS: case FIX_COMMON_BLOCKS:
case TEST_PASS: case TEST_PASS:
case SET_IMPLICIT_NONE: case SET_IMPLICIT_NONE:
case MERGE_COPY_ARRAYS:
runAnalysis(*project, curr_regime, false); runAnalysis(*project, curr_regime, false);
case SUBST_EXPR_RD_AND_UNPARSE: case SUBST_EXPR_RD_AND_UNPARSE:
case SUBST_EXPR_AND_UNPARSE: case SUBST_EXPR_AND_UNPARSE:
@@ -2524,8 +2521,8 @@ int main(int argc, char **argv)
out_free_form = 1; out_free_form = 1;
out_line_unlimit = 1; out_line_unlimit = 1;
} }
/*else if (string(curr_arg) == "-sh") else if (string(curr_arg) == "-sh")
staticShadowAnalysis = 1;*/ staticShadowAnalysis = 1;
else if (string(curr_arg) == "-shWidth") else if (string(curr_arg) == "-shWidth")
{ {
i++; i++;

8
src/Sapfor.h
View File

@@ -88,6 +88,8 @@ enum passes {
REMOVE_DVM_INTERVALS, REMOVE_DVM_INTERVALS,
VERIFY_DVM_DIRS, VERIFY_DVM_DIRS,
MERGE_COPY_ARRAYS,
REMOVE_DIST_ARRAYS_FROM_IO, REMOVE_DIST_ARRAYS_FROM_IO,
SUBST_EXPR, SUBST_EXPR,
@@ -122,8 +124,6 @@ enum passes {
CREATE_INTER_TREE, CREATE_INTER_TREE,
INSERT_INTER_TREE, INSERT_INTER_TREE,
MOVE_OPERATORS,
SHADOW_GROUPING, SHADOW_GROUPING,
INLINE_PROCEDURES, INLINE_PROCEDURES,
FILL_PARALLEL_REG_IR, FILL_PARALLEL_REG_IR,
@@ -189,7 +189,6 @@ enum passes {
FIND_PRIVATE_ARRAYS, FIND_PRIVATE_ARRAYS,
TRANSFORM_ASSUMED_SIZE_PARAMETERS, TRANSFORM_ASSUMED_SIZE_PARAMETERS,
ARRAY_PROPAGATION,
TEST_PASS, TEST_PASS,
EMPTY_PASS EMPTY_PASS
@@ -273,6 +272,7 @@ static void setPassValues()
passNames[VERIFY_DVM_DIRS] = "VERIFY_DVM_DIRS"; passNames[VERIFY_DVM_DIRS] = "VERIFY_DVM_DIRS";
passNames[REMOVE_DVM_DIRS_TO_COMMENTS] = "REMOVE_DVM_DIRS_TO_COMMENTS"; passNames[REMOVE_DVM_DIRS_TO_COMMENTS] = "REMOVE_DVM_DIRS_TO_COMMENTS";
passNames[REMOVE_SPF_DIRS] = "REMOVE_SPF_DIRS"; passNames[REMOVE_SPF_DIRS] = "REMOVE_SPF_DIRS";
passNames[MERGE_COPY_ARRAYS] = "MERGE_COPY_ARRAYS";
passNames[REMOVE_DIST_ARRAYS_FROM_IO] = "REMOVE_DIST_ARRAYS_FROM_IO"; passNames[REMOVE_DIST_ARRAYS_FROM_IO] = "REMOVE_DIST_ARRAYS_FROM_IO";
passNames[SUBST_EXPR] = "SUBST_EXPR"; passNames[SUBST_EXPR] = "SUBST_EXPR";
passNames[SUBST_EXPR_RD] = "SUBST_EXPR_RD"; passNames[SUBST_EXPR_RD] = "SUBST_EXPR_RD";
@@ -323,7 +323,6 @@ static void setPassValues()
passNames[CHECK_PAR_REG_DIR] = "CHECK_PAR_REG_DIR"; passNames[CHECK_PAR_REG_DIR] = "CHECK_PAR_REG_DIR";
passNames[CREATE_INTER_TREE] = "CREATE_INTER_TREE"; passNames[CREATE_INTER_TREE] = "CREATE_INTER_TREE";
passNames[INSERT_INTER_TREE] = "INSERT_INTER_TREE"; passNames[INSERT_INTER_TREE] = "INSERT_INTER_TREE";
passNames[MOVE_OPERATORS] = "MOVE_OPERATORS";
passNames[CREATE_PARALLEL_REGIONS] = "CREATE_PARALLEL_REGIONS"; passNames[CREATE_PARALLEL_REGIONS] = "CREATE_PARALLEL_REGIONS";
passNames[PRIVATE_REMOVING_ANALYSIS] = "PRIVATE_REMOVING_ANALYSIS"; passNames[PRIVATE_REMOVING_ANALYSIS] = "PRIVATE_REMOVING_ANALYSIS";
passNames[PRIVATE_REMOVING] = "PRIVATE_REMOVING"; passNames[PRIVATE_REMOVING] = "PRIVATE_REMOVING";
@@ -380,7 +379,6 @@ static void setPassValues()
passNames[FIND_PRIVATE_ARRAYS] = "FIND_PRIVATE_ARRAYS"; passNames[FIND_PRIVATE_ARRAYS] = "FIND_PRIVATE_ARRAYS";
passNames[TRANSFORM_ASSUMED_SIZE_PARAMETERS] = "TRANSFORM_ASSUMED_SIZE_PARAMETERS"; passNames[TRANSFORM_ASSUMED_SIZE_PARAMETERS] = "TRANSFORM_ASSUMED_SIZE_PARAMETERS";
passNames[ARRAY_PROPAGATION] = "ARRAY_PROPAGATION";
passNames[TEST_PASS] = "TEST_PASS"; passNames[TEST_PASS] = "TEST_PASS";
} }

2
src/SapforData.h
View File

@@ -19,7 +19,7 @@
extern std::map<std::string, std::string> shortFileNames; extern std::map<std::string, std::string> shortFileNames;
static int activeState = 0; static int activeState = 0;
int staticShadowAnalysis = 1; int staticShadowAnalysis = 0;
int staticPrivateAnalysis = 0; int staticPrivateAnalysis = 0;
int keepDvmDirectives = 0; int keepDvmDirectives = 0;
int keepFiles = 0; int keepFiles = 0;

4
src/Transformations/DeadCodeRemoving/dead_code.cpp
View File

@@ -12,7 +12,6 @@ using std::map;
using std::string; using std::string;
using std::vector; using std::vector;
using std::set; using std::set;
using SAPFOR::CFG_Settings;
using std::remove_if; using std::remove_if;
@@ -425,8 +424,7 @@ int removeDeadCode(SgStatement* func,
if (intervalDelEnd->lineNumber() < prog->lineNumber() || intervalDelEnd->lineNumber() > prog->lastNodeOfStmt()->lineNumber()) if (intervalDelEnd->lineNumber() < prog->lineNumber() || intervalDelEnd->lineNumber() > prog->lastNodeOfStmt()->lineNumber())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop }); auto cfg = buildCFGforCurrentFunc(func, SAPFOR::CFG_Settings(true, false, false, false, false, false, false), commonBlocks, allFuncs);
auto cfg = buildCFGforCurrentFunc(func, settings, commonBlocks, allFuncs);
if(cfg.size() != 1) if(cfg.size() != 1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);

2
src/Transformations/FunctionInlining/inliner.cpp
View File

@@ -1089,8 +1089,6 @@ static int clean(const string& funcName, SgStatement* funcSt, const map<string,
} }
SgGotoStmt* gotoSt = new SgGotoStmt(*contLab); SgGotoStmt* gotoSt = new SgGotoStmt(*contLab);
if (st->label())
gotoSt->setLabel(*st->label());
st->insertStmtBefore(*gotoSt, *st->controlParent()); st->insertStmtBefore(*gotoSt, *st->controlParent());
toDelete.push_back(st); toDelete.push_back(st);

165
src/Transformations/GlobalVariables/fix_common_blocks.cpp
View File

@@ -18,66 +18,69 @@ using std::tuple;
/// main function: /// main function:
// renew unions for all common blocks in the file // renew unions for all common blocks in the file
//void BuildNewCommDecls static void BuildNewCommDecls(SgFile* file, const map<string, CommonBlock*> allCommonBlocks,
map<string, deque<CommConstraint>>& newCommonDecls, map<string, map<string, deque<CommConstraint>>>& commDecls,
set<string>& badCommon, map<string, set<string>>& notUsedVars, vector<SgStatement*>& programUnits);
// get names of variables and array elements, which were referenced in programm unit // get names of variables and array elements, which were referenced in programm unit
//set<string> getUses static set<string> getUses(SgStatement* firstSt, const set<string>& commonVarNames);
//void getUsesFromExpr static void getUsesFromExpr(SgExpression* expr, const set<string>& commonVarNames, set<string>& used);
// splits arrays into elements and replaces not used vars with empty constraints // splits arrays into elements and replaces not used vars with empty constraints
//bool splitType static bool splitType(deque<CommConstraint>& d, bool check_use, const set<string>& namesOfUsedVars);
// create constraits set // create constraits set
//deque<CommConstraint> makeConstraints static deque<CommConstraint> makeConstraints(deque<CommConstraint>& constraints, const set<string>& namesOfUsedVars, set<string>& notUsedVars);
// build union // build union
//bool buildConstraintsUnion static bool buildConstraintsUnion(deque<CommConstraint>& U, deque<CommConstraint> B, const set<string>& namesOfUsedVars, pair<CommConstraint, CommConstraint>& problemConstraints);
//bool docheckUnequalConstraints static bool docheckUnequalConstraints(deque<CommConstraint>& U, deque<CommConstraint>& B, deque<CommConstraint>& newU, pair<CommConstraint, CommConstraint>& problemConstraints);
//bool check static bool check(deque<CommConstraint>& A, deque<CommConstraint>& B, pair<CommConstraint, CommConstraint>& problemConstraints);
/// small help functions: /// small help functions:
//string getParentName static string getParentName(const string& name);
//bool equalDims static bool equalDims(const CommConstraint& a, const CommConstraint& b);
//bool equalConstraints static bool equalConstraints(const CommConstraint& a, const CommConstraint& b);
//void addElem static void addElem(deque<CommConstraint>& comm, const CommConstraint& elem);
//////
// change names of variables in 'constraints' // change names of variables in 'constraints'
//void fixNames static void fixNames(deque<CommConstraint>& constraints, const string& commName);
////// step2: transformation ////// step2: transformation
/// main function /// main function
// peform transformation on every program unit in the file // peform transformation on every program unit in the file
//void fixFunctions static void fixFunctions(SgFile* file, vector<SgStatement*> programUnits, map<string, deque<CommConstraint>>& newCommonDecls,
map<string, map<string, deque<CommConstraint>>>& commDecls, const set<string>& badCommon, map<string, set<string>>& notUsedVars);
// get pairs of names (namesOldToNew) for renaming // get pairs of names (namesOldToNew) for renaming
//bool getNamesOldToNew static bool getNamesOldToNew(deque<CommConstraint> newDecl, deque<CommConstraint> oldDecl, map<string, string>& namesOldToNew);
// create new symbols for new variables in new common declaration (constraints) // create new symbols for new variables in new common declaration (constraints)
//void makeCommVarSymbs static void makeCommVarSymbs(const deque<CommConstraint>& constraints, SgFile* file, SgStatement* func, string commName,
map<string, SgSymbol*>& symbs, vector<SgSymbol*>& needNewDecl);
// delete from program unit all references to names in commVarNames // delete from program unit all references to names in commVarNames
//void deleteOldVars static void deleteOldVars(SgStatement* firstSt, const set<string>& commVarNames);
// calls fixExpression for each statement, replaces names in data statement // calls fixExpression for each statement, replaces names in data statement
//void renameVariables static void renameVariables(SgStatement* firstSt, const map<string, SgSymbol*>& newVarSymbs, const map<string, string>& namesOldToNew);
// replacing variables or array elements in expression expr if their names are in namesOldToNew // replacing variables or array elements in expression expr if their names are in namesOldToNew
//SgExpression* fixExpression static SgExpression* fixExpression(SgExpression* expr, const map<string, SgSymbol*>& newSymbs, const map<string, string>& namesOldToNew);
// make new exprList exprssion for new declaration decl with symbols from newSymbs // make new exprList exprssion for new declaration decl with symbols from newSymbs
//SgExpression* makeExprListForCommon static SgExpression* makeExprListForCommon(const deque<CommConstraint>& decl, const map<string, SgSymbol*>& newSymbs,
SgFile* file, SgStatement* firstSt);
// replace old common declarations with new ones // replace old common declarations with new ones
//void rewriteCommon static void rewriteCommon(SgStatement* firstSt, map<string, SgExpression*>& commListExprs);
/// help functions: /// help functions:
//SgExpression* makeIdxFromStr(const string& str); static SgExpression* makeIdxFromStr(const string& str);
// make new expression of array element // make new expression of array element
//SgExpression* newArrElemExpr static SgExpression* newArrElemExpr(const string& newName, const map<string, SgSymbol*>& newSymbs);
//bool variablePositionComp static bool variablePositionComp(const Variable* lhs, const Variable* rhs);
////// //////
CommConstraint::CommConstraint(const Variable* var, bool u, const string& funcName, const string& fileName) CommConstraint::CommConstraint(const Variable* var, bool u, const string& funcName, const string& fileName)
{ {
used = u; used = u;
@@ -122,6 +125,7 @@ CommConstraint::CommConstraint(const Variable* var, bool u, const string& funcNa
} }
} }
CommConstraint::CommConstraint(const string& name, SgType* t, bool u) : used(u), type(t), identifier(name) CommConstraint::CommConstraint(const string& name, SgType* t, bool u) : used(u), type(t), identifier(name)
{ {
typeVariant = type->variant(); typeVariant = type->variant();
@@ -135,7 +139,8 @@ CommConstraint::CommConstraint(const string& name, SgType* t, bool u, vector<Dec
size = getSizeOfType(type); size = getSizeOfType(type);
} }
static string getParentName(const string& name)
string getParentName(const string& name)
{ {
size_t len = name.find("%"); size_t len = name.find("%");
size_t posB = name.find("("); size_t posB = name.find("(");
@@ -149,7 +154,8 @@ static string getParentName(const string& name)
return name.substr(0, len); return name.substr(0, len);
} }
static void getUsesFromExpr(SgExpression* expr, const set<string>& commonVarNames, set<string>& used)
void getUsesFromExpr(SgExpression* expr, const set<string>& commonVarNames, set<string>& used)
{ {
if (expr == NULL) if (expr == NULL)
return; return;
@@ -188,7 +194,8 @@ static void getUsesFromExpr(SgExpression* expr, const set<string>& commonVarName
getUsesFromExpr(expr->rhs(), commonVarNames, used); getUsesFromExpr(expr->rhs(), commonVarNames, used);
} }
static set<string> getUses(SgStatement* firstSt, const set<string>& commonVarNames)
set<string> getUses(SgStatement* firstSt, const set<string>& commonVarNames)
{ {
set<string> used; set<string> used;
SgStatement* lastSt = firstSt->lastNodeOfStmt(); SgStatement* lastSt = firstSt->lastNodeOfStmt();
@@ -205,7 +212,8 @@ static set<string> getUses(SgStatement* firstSt, const set<string>& commonVarNam
return used; return used;
} }
static bool equalDims(const CommConstraint& a, const CommConstraint& b)
bool equalDims(const CommConstraint& a, const CommConstraint& b)
{ {
const vector<pair<int, int>>& adim = a.arrayInfo->GetSizes(); const vector<pair<int, int>>& adim = a.arrayInfo->GetSizes();
const vector<pair<int, int>>& bdim = b.arrayInfo->GetSizes(); const vector<pair<int, int>>& bdim = b.arrayInfo->GetSizes();
@@ -216,12 +224,11 @@ static bool equalDims(const CommConstraint& a, const CommConstraint& b)
if (adim[i].second - adim[i].first != bdim[i].second - bdim[i].first) if (adim[i].second - adim[i].first != bdim[i].second - bdim[i].first)
return false; return false;
} }
return true;
} }
// TODO: add attributes to CommConstraints, check if a and b have equal attributes // TODO: add attributes to CommConstraints, check if a and b have equal attributes
static bool equalConstraints(const CommConstraint& a, const CommConstraint& b) bool equalConstraints(const CommConstraint& a, const CommConstraint& b)
{ {
if ((a.arrayInfo != NULL && b.arrayInfo == NULL) || ((a.arrayInfo == NULL && b.arrayInfo != NULL))) if ((a.arrayInfo != NULL && b.arrayInfo == NULL) || ((a.arrayInfo == NULL && b.arrayInfo != NULL)))
return false; return false;
@@ -232,7 +239,8 @@ static bool equalConstraints(const CommConstraint& a, const CommConstraint& b)
return true; return true;
} }
static void addElem(deque<CommConstraint>& comm, const CommConstraint& elem)
void addElem(deque<CommConstraint>& comm, const CommConstraint& elem)
{ {
if (elem.typeVariant == 0 && !comm.empty() && comm.back().typeVariant == 0) if (elem.typeVariant == 0 && !comm.empty() && comm.back().typeVariant == 0)
comm.back().size += elem.size; comm.back().size += elem.size;
@@ -240,8 +248,9 @@ static void addElem(deque<CommConstraint>& comm, const CommConstraint& elem)
comm.push_back(elem); comm.push_back(elem);
} }
// TODO: check attributes: do not split arrays with pointer or target attributes if check_use == true // TODO: check attributes: do not split arrays with pointer or target attributes if check_use == true
static bool splitType(deque<CommConstraint>& d, bool check_use, const set<string>& namesOfUsedVars = {}) bool splitType(deque<CommConstraint>& d, bool check_use, const set<string>& namesOfUsedVars = {})
{ {
CommConstraint var = d.front(); CommConstraint var = d.front();
string name = var.identifier; string name = var.identifier;
@@ -289,7 +298,8 @@ static bool splitType(deque<CommConstraint>& d, bool check_use, const set<string
} }
} }
static deque<CommConstraint> makeConstraints(deque<CommConstraint>& constraints, const set<string>& namesOfUsedVars, set<string>& notUsedVars)
deque<CommConstraint> makeConstraints(deque<CommConstraint>& constraints, const set<string>& namesOfUsedVars, set<string>& notUsedVars)
{ {
deque<CommConstraint> res; deque<CommConstraint> res;
while (!constraints.empty()) while (!constraints.empty())
@@ -306,7 +316,8 @@ static deque<CommConstraint> makeConstraints(deque<CommConstraint>& constraints,
return res; return res;
} }
static bool check(deque<CommConstraint>& A, deque<CommConstraint>& B, pair<CommConstraint, CommConstraint>& problemConstraints)
bool check(deque<CommConstraint>& A, deque<CommConstraint>& B, pair<CommConstraint, CommConstraint>& problemConstraints)
{ {
while (!A.empty() && !B.empty()) while (!A.empty() && !B.empty())
{ {
@@ -345,8 +356,8 @@ static bool check(deque<CommConstraint>& A, deque<CommConstraint>& B, pair<CommC
return true; return true;
} }
static bool docheckUnequalConstraints(deque<CommConstraint>& U, deque<CommConstraint>& B, deque<CommConstraint>& newU,
pair<CommConstraint, CommConstraint>& problemConstraints) bool docheckUnequalConstraints(deque<CommConstraint>& U, deque<CommConstraint>& B, deque<CommConstraint>& newU, pair<CommConstraint, CommConstraint>& problemConstraints)
{ {
if (U.front().typeVariant == 0) if (U.front().typeVariant == 0)
{ {
@@ -369,8 +380,8 @@ static bool docheckUnequalConstraints(deque<CommConstraint>& U, deque<CommConstr
return true; return true;
} }
static bool buildConstraintsUnion(deque<CommConstraint>& U, deque<CommConstraint> B,
const set<string>& namesOfUsedVars, pair<CommConstraint, CommConstraint>& problemConstraints) bool buildConstraintsUnion(deque<CommConstraint>& U, deque<CommConstraint> B, const set<string>& namesOfUsedVars, pair<CommConstraint, CommConstraint>& problemConstraints)
{ {
deque<CommConstraint> newU; deque<CommConstraint> newU;
while (!U.empty() && !B.empty()) while (!U.empty() && !B.empty())
@@ -425,8 +436,8 @@ static bool buildConstraintsUnion(deque<CommConstraint>& U, deque<CommConstraint
return true; return true;
} }
//TODO: check this: newDecl and oldDecl => do these variables need references?
static bool getNamesOldToNew(deque<CommConstraint> newDecl, deque<CommConstraint> oldDecl, map<string, string>& namesOldToNew) bool getNamesOldToNew(deque<CommConstraint> newDecl, deque<CommConstraint> oldDecl, map<string, string>& namesOldToNew)
{ {
bool needChange = false; bool needChange = false;
map<string, string> rename; map<string, string> rename;
@@ -491,17 +502,15 @@ static bool getNamesOldToNew(deque<CommConstraint> newDecl, deque<CommConstraint
newDecl.pop_front(); newDecl.pop_front();
} }
} }
if (!oldDecl.empty() || !newDecl.empty()) if (!oldDecl.empty() || !newDecl.empty())
needChange = true; needChange = true;
if (needChange) if (needChange)
namesOldToNew.insert(rename.begin(), rename.end()); namesOldToNew.insert(rename.begin(), rename.end());
return needChange; return needChange;
} }
static void makeCommVarSymbs(const deque<CommConstraint>& constraints, SgFile* file, SgStatement* func, const string& commName,
void makeCommVarSymbs(const deque<CommConstraint>& constraints, SgFile* file, SgStatement* func, string commName,
map<string, SgSymbol*>& symbs, vector<SgSymbol*>& needNewDecl) map<string, SgSymbol*>& symbs, vector<SgSymbol*>& needNewDecl)
{ {
for (const CommConstraint& var : constraints) for (const CommConstraint& var : constraints)
@@ -515,7 +524,8 @@ static void makeCommVarSymbs(const deque<CommConstraint>& constraints, SgFile* f
} }
} }
static void deleteOldVars(SgStatement* firstSt, const set<string>& commVarNames)
void deleteOldVars(SgStatement* firstSt, const set<string>& commVarNames)
{ {
SgStatement* lastSt = firstSt->lastNodeOfStmt(); SgStatement* lastSt = firstSt->lastNodeOfStmt();
vector<SgStatement*> stmtsToDelete; vector<SgStatement*> stmtsToDelete;
@@ -561,12 +571,12 @@ static void deleteOldVars(SgStatement* firstSt, const set<string>& commVarNames)
} }
// TODO: delete common variables form attributes statements (like DIM_STAT) // TODO: delete common variables form attributes statements (like DIM_STAT)
} }
for (SgStatement* st : stmtsToDelete) for (SgStatement* st : stmtsToDelete)
st->deleteStmt(); st->deleteStmt();
} }
static SgExpression* makeIdxFromStr(const string& str)
SgExpression* makeIdxFromStr(const string& str)
{ {
vector<SgExpression*> items; vector<SgExpression*> items;
int num = 0; int num = 0;
@@ -581,13 +591,13 @@ static SgExpression* makeIdxFromStr(const string& str)
num = 0; num = 0;
} }
} }
reverse(items.begin(), items.end()); reverse(items.begin(), items.end());
SgExpression* exprList = makeExprList(items, false); SgExpression* exprList = makeExprList(items, false);
return exprList; return exprList;
} }
static SgExpression* newArrElemExpr(const string& newName, const map<string, SgSymbol*>& newSymbs)
SgExpression* newArrElemExpr(const string& newName, const map<string, SgSymbol*>& newSymbs)
{ {
size_t pos = newName.find('('); size_t pos = newName.find('(');
SgExpression* newExpr = new SgArrayRefExp(*newSymbs.at(newName.substr(0, pos))); SgExpression* newExpr = new SgArrayRefExp(*newSymbs.at(newName.substr(0, pos)));
@@ -595,11 +605,11 @@ static SgExpression* newArrElemExpr(const string& newName, const map<string, SgS
return newExpr; return newExpr;
} }
static SgExpression* fixExpression(SgExpression* expr, const map<string, SgSymbol*>& newSymbs, const map<string, string>& namesOldToNew)
SgExpression* fixExpression(SgExpression* expr, const map<string, SgSymbol*>& newSymbs, const map<string, string>& namesOldToNew)
{ {
if (expr == NULL) if (expr == NULL)
return NULL; return NULL;
if (expr->variant() == VAR_REF || expr->variant() == ARRAY_REF) if (expr->variant() == VAR_REF || expr->variant() == ARRAY_REF)
{ {
string name = expr->symbol()->identifier(); string name = expr->symbol()->identifier();
@@ -635,18 +645,17 @@ static SgExpression* fixExpression(SgExpression* expr, const map<string, SgSymbo
} }
} }
} }
SgExpression* lhs = fixExpression(expr->lhs(), newSymbs, namesOldToNew); SgExpression* lhs = fixExpression(expr->lhs(), newSymbs, namesOldToNew);
if (lhs != NULL) if (lhs != NULL)
expr->setLhs(lhs); expr->setLhs(lhs);
SgExpression* rhs = fixExpression(expr->rhs(), newSymbs, namesOldToNew); SgExpression* rhs = fixExpression(expr->rhs(), newSymbs, namesOldToNew);
if (rhs != NULL) if (rhs != NULL)
expr->setRhs(rhs); expr->setRhs(rhs);
return NULL; return NULL;
} }
static void renameVariables(SgStatement* firstSt, const map<string, SgSymbol*>& newVarSymbs, const map<string, string>& namesOldToNew)
void renameVariables(SgStatement* firstSt, const map<string, SgSymbol*>& newVarSymbs, const map<string, string>& namesOldToNew)
{ {
SgStatement* lastSt = firstSt->lastNodeOfStmt(); SgStatement* lastSt = firstSt->lastNodeOfStmt();
for (SgStatement* curSt = firstSt; curSt != NULL && curSt != lastSt; curSt = curSt->lexNext()) for (SgStatement* curSt = firstSt; curSt != NULL && curSt != lastSt; curSt = curSt->lexNext())
@@ -694,7 +703,8 @@ static void renameVariables(SgStatement* firstSt, const map<string, SgSymbol*>&
} }
} }
static SgExpression* makeExprListForCommon(const deque<CommConstraint>& decl, const map<string, SgSymbol*>& newSymbs,
SgExpression* makeExprListForCommon(const deque<CommConstraint>& decl, const map<string, SgSymbol*>& newSymbs,
SgFile* file, SgStatement* firstSt) SgFile* file, SgStatement* firstSt)
{ {
vector<SgExpression*> items; vector<SgExpression*> items;
@@ -728,7 +738,8 @@ static SgExpression* makeExprListForCommon(const deque<CommConstraint>& decl, co
return exprList; return exprList;
} }
static void rewriteCommon(SgStatement* firstSt, map<string, SgExpression*>& commListExprs)
void rewriteCommon(SgStatement* firstSt, map<string, SgExpression*>& commListExprs)
{ {
vector<SgStatement*> commonStmtsToDelete; vector<SgStatement*> commonStmtsToDelete;
for (SgStatement* st = firstSt; st != firstSt->lastDeclaration()->lexNext(); st = st->lexNext()) for (SgStatement* st = firstSt; st != firstSt->lastDeclaration()->lexNext(); st = st->lexNext())
@@ -779,12 +790,12 @@ static void rewriteCommon(SgStatement* firstSt, map<string, SgExpression*>& comm
commonStmtsToDelete.push_back(st); commonStmtsToDelete.push_back(st);
} }
} }
for (SgStatement* st : commonStmtsToDelete) for (SgStatement* st : commonStmtsToDelete)
st->deleteStmt(); st->deleteStmt();
} }
static void fixNames(deque<CommConstraint>& constraints, const string& commName)
void fixNames(deque<CommConstraint>& constraints, const string& commName)
{ {
for (auto& var : constraints) for (auto& var : constraints)
{ {
@@ -799,12 +810,14 @@ static void fixNames(deque<CommConstraint>& constraints, const string& commName)
} }
} }
static bool variablePositionComp(const Variable* lhs, const Variable* rhs)
bool variablePositionComp(const Variable* lhs, const Variable* rhs)
{ {
return lhs->getPosition() < rhs->getPosition(); return lhs->getPosition() < rhs->getPosition();
} }
static void fixFunctions(SgFile* file, const vector<SgStatement*>& programUnits, map<string, deque<CommConstraint>>& newCommonDecls,
void fixFunctions(SgFile* file, vector<SgStatement*> programUnits, map<string, deque<CommConstraint>>& newCommonDecls,
map<string, map<string, deque<CommConstraint>>>& commDecls, const set<string>& badCommon, map<string, set<string>>& notUsedVars) map<string, map<string, deque<CommConstraint>>>& commDecls, const set<string>& badCommon, map<string, set<string>>& notUsedVars)
{ {
for (SgStatement* unitSt : programUnits) for (SgStatement* unitSt : programUnits)
@@ -812,13 +825,11 @@ static void fixFunctions(SgFile* file, const vector<SgStatement*>& programUnits,
string funcName = unitSt->symbol()->identifier(); string funcName = unitSt->symbol()->identifier();
if (commDecls.find(funcName) == commDecls.end()) if (commDecls.find(funcName) == commDecls.end())
continue; continue;
SgStatement* firstSt = unitSt; SgStatement* firstSt = unitSt;
map<string, SgExpression*> commListExprs; map<string, SgExpression*> commListExprs;
map<string, SgSymbol*> newVarSymbs; // new symbols for new variables map<string, SgSymbol*> newVarSymbs; // new symbols for new variables
map<string, string> namesOldToNew; // for ranaming: old name -> new name map<string, string> namesOldToNew; // for ranaming: old name -> new name
vector<SgSymbol*> needNewDecl; vector<SgSymbol*> needNewDecl;
for (auto& common : commDecls[funcName]) for (auto& common : commDecls[funcName])
{ {
string commName = common.first; string commName = common.first;
@@ -829,11 +840,9 @@ static void fixFunctions(SgFile* file, const vector<SgStatement*>& programUnits,
bool needChange = getNamesOldToNew(newDecl, common.second, namesOldToNew); bool needChange = getNamesOldToNew(newDecl, common.second, namesOldToNew);
if (!needChange) if (!needChange)
continue; continue;
makeCommVarSymbs(newDecl, file, firstSt, commName, newVarSymbs, needNewDecl); makeCommVarSymbs(newDecl, file, firstSt, commName, newVarSymbs, needNewDecl);
commListExprs[commName] = makeExprListForCommon(newDecl, newVarSymbs, file, firstSt); commListExprs[commName] = makeExprListForCommon(newDecl, newVarSymbs, file, firstSt);
} }
if (!commListExprs.empty()) if (!commListExprs.empty())
{ {
for (const auto& item : commListExprs) for (const auto& item : commListExprs)
@@ -847,7 +856,8 @@ static void fixFunctions(SgFile* file, const vector<SgStatement*>& programUnits,
} }
} }
static void buildNewCommDecls(SgFile* file, const map<string, CommonBlock*>& allCommonBlocks,
void BuildNewCommDecls(SgFile* file, const map<string, CommonBlock*> allCommonBlocks,
map<string, deque<CommConstraint>>& newCommonDecls, map<string, map<string, deque<CommConstraint>>>& commDecls, map<string, deque<CommConstraint>>& newCommonDecls, map<string, map<string, deque<CommConstraint>>>& commDecls,
set<string>& badCommon, map<string, set<string>>& notUsedVars, vector<SgStatement*>& programUnits) set<string>& badCommon, map<string, set<string>>& notUsedVars, vector<SgStatement*>& programUnits)
{ {
@@ -888,8 +898,7 @@ static void buildNewCommDecls(SgFile* file, const map<string, CommonBlock*>& all
constraints.push_back(newConstr); constraints.push_back(newConstr);
} }
if (hasChar && hasNotChar) // TDOO: make proper warning message or separate such common blocks if (hasChar && hasNotChar) // TDOO: make proper warning message or separate such common blocks
__spf_print(1, "common block '%s' ('%s':%d) contains variables of symbolic and numeric types. It is required to divide\n", __spf_print(1, "common block '%s' ('%s':%d) contains variables of symbolic and numeric types. It is required to divide\n", commName.c_str(), fileName.c_str(), constraints.back().uses.back().lineNum);
commName.c_str(), fileName.c_str(), constraints.back().uses.back().getLineNum());
if (hasChar) if (hasChar)
{ {
badCommon.insert(commName); badCommon.insert(commName);
@@ -906,7 +915,7 @@ static void buildNewCommDecls(SgFile* file, const map<string, CommonBlock*>& all
for (auto x : problemConstraints.first.uses) // TODO: make proper warning message for (auto x : problemConstraints.first.uses) // TODO: make proper warning message
for (auto y : problemConstraints.second.uses) for (auto y : problemConstraints.second.uses)
__spf_print(1, "variables '%s' and '%s' in one storage association (common block '%s') have different types (files - %s:%d and %s:%d)\n", __spf_print(1, "variables '%s' and '%s' in one storage association (common block '%s') have different types (files - %s:%d and %s:%d)\n",
x.getVarName(), y.getVarName(), commName.c_str(), x.getFileName(), x.getLineNum(), y.getFileName(), y.getLineNum()); x.varName.c_str(), y.varName.c_str(), commName.c_str(), x.fileName.c_str(), x.lineNum, y.fileName.c_str(), y.lineNum);
} }
} }
curSt = curSt->lastNodeOfStmt(); curSt = curSt->lastNodeOfStmt();
@@ -918,7 +927,7 @@ static void buildNewCommDecls(SgFile* file, const map<string, CommonBlock*>& all
// main function // main function
void fixCommonBlocks(const map<string, vector<FuncInfo*>>& allFuncInfo, const map<string, CommonBlock*>& allCommonBlocks, SgProject* project) // TODO: separate into 2 steps? void fixCommonBlocks(const map<string, vector<FuncInfo*>> allFuncInfo, const map<string, CommonBlock*> allCommonBlocks, SgProject* project) // TODO: separate into 2 steps?
{ {
int filesNum = project->numberOfFiles(); int filesNum = project->numberOfFiles();
map<string, map<string, map<string, deque<CommConstraint>>>> commDecls; // file_name -> function_name -> common block name -> old declaration of common block map<string, map<string, map<string, deque<CommConstraint>>>> commDecls; // file_name -> function_name -> common block name -> old declaration of common block
@@ -932,12 +941,10 @@ void fixCommonBlocks(const map<string, vector<FuncInfo*>>& allFuncInfo, const ma
SgFile* file = &project->file(i); SgFile* file = &project->file(i);
string fileName = file->filename(); string fileName = file->filename();
file->switchToFile(fileName); file->switchToFile(fileName);
buildNewCommDecls(file, allCommonBlocks, newCommonDecls, commDecls[fileName], badCommon, notUsedVars, programUnitsInFile[fileName]); BuildNewCommDecls(file, allCommonBlocks, newCommonDecls, commDecls[fileName], badCommon, notUsedVars, programUnitsInFile[fileName]);
} }
for (auto& elem : newCommonDecls) for (auto& elem : newCommonDecls)
fixNames(elem.second, elem.first); fixNames(elem.second, elem.first);
for (int i = 0; i < filesNum; i++) // second step for (int i = 0; i < filesNum; i++) // second step
{ {
SgFile* file = &project->file(i); SgFile* file = &project->file(i);

8
src/Transformations/GlobalVariables/fix_common_blocks.h
View File

@@ -16,18 +16,12 @@
struct DeclInfo // for error messages struct DeclInfo // for error messages
{ {
private:
std::string varName; std::string varName;
std::string fileName; std::string fileName;
int lineNum; int lineNum;
public:
DeclInfo() : varName(""), fileName(""), lineNum(0) {}; DeclInfo() : varName(""), fileName(""), lineNum(0) {};
DeclInfo(const std::string& vn, const std::string& fn, int ln) : varName(vn), fileName(fn), lineNum(ln) {}; DeclInfo(const std::string& vn, const std::string& fn, int ln) : varName(vn), fileName(fn), lineNum(ln) {};
const char* getVarName() const { return varName.c_str(); }
const char* getFileName() const { return fileName.c_str(); }
int getLineNum() const { return lineNum; }
}; };
struct CommConstraint // TODO: add variable attributes struct CommConstraint // TODO: add variable attributes
@@ -48,4 +42,4 @@ struct CommConstraint // TODO: add variable attributes
}; };
void fixCommonBlocks(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo, const std::map<std::string, CommonBlock*>& allCommonBlocks, SgProject* project); void fixCommonBlocks(const std::map<std::string, std::vector<FuncInfo*>> allFuncInfo, const std::map<std::string, CommonBlock*> allCommonBlocks, SgProject* project);

66
src/Transformations/LoopCombining/loops_combiner.cpp
View File

@@ -1123,7 +1123,7 @@ static bool hasDependenciesBetweenArrays(LoopGraph* firstLoop, LoopGraph* loop,
for (int d = 0; d < dimensions; ++d) for (int d = 0; d < dimensions; ++d)
{ {
//по измерениям массива отображение на цикл вложенности d //по измерениям массива отображение на цикл вложенности d
vector<set<pair<int, int>>> coeffsRead[2], coeffsWrite[2]; vector<set<pair<int, int>>> coefsRead[2], coefsWrite[2];
checkNull(currLoop[0], convertFileName(__FILE__).c_str(), __LINE__); checkNull(currLoop[0], convertFileName(__FILE__).c_str(), __LINE__);
checkNull(currLoop[1], convertFileName(__FILE__).c_str(), __LINE__); checkNull(currLoop[1], convertFileName(__FILE__).c_str(), __LINE__);
@@ -1133,31 +1133,31 @@ static bool hasDependenciesBetweenArrays(LoopGraph* firstLoop, LoopGraph* loop,
auto it = currLoop[k]->readOpsForLoop.find(array); auto it = currLoop[k]->readOpsForLoop.find(array);
if (it != currLoop[k]->readOpsForLoop.end()) if (it != currLoop[k]->readOpsForLoop.end())
{ {
if (coeffsRead[k].size() == 0) if (coefsRead[k].size() == 0)
coeffsRead[k].resize(it->second.size()); coefsRead[k].resize(it->second.size());
for (int z = 0; z < it->second.size(); ++z) for (int z = 0; z < it->second.size(); ++z)
if (it->second[z].coefficients.size()) if (it->second[z].coefficients.size())
for (auto& coef : it->second[z].coefficients) for (auto& coef : it->second[z].coefficients)
coeffsRead[k][z].insert(coef.first); coefsRead[k][z].insert(coef.first);
} }
auto itW = currLoop[k]->writeOpsForLoop.find(array); auto itW = currLoop[k]->writeOpsForLoop.find(array);
if (itW != currLoop[k]->writeOpsForLoop.end()) if (itW != currLoop[k]->writeOpsForLoop.end())
{ {
if (coeffsWrite[k].size() == 0) if (coefsWrite[k].size() == 0)
coeffsWrite[k].resize(itW->second.size()); coefsWrite[k].resize(itW->second.size());
for (int z = 0; z < itW->second.size(); ++z) for (int z = 0; z < itW->second.size(); ++z)
if (itW->second[z].coefficients.size()) if (itW->second[z].coefficients.size())
for (auto& coef : itW->second[z].coefficients) for (auto& coef : itW->second[z].coefficients)
coeffsWrite[k][z].insert(coef.first); coefsWrite[k][z].insert(coef.first);
} }
} }
//нет записей, значит нет зависимости //нет записей, значит нет зависимости
bool nulWrite = true; bool nulWrite = true;
for (auto& wr : coeffsWrite) for (auto& wr : coefsWrite)
for (auto& elem : wr) for (auto& elem : wr)
if (elem.size() != 0) if (elem.size() != 0)
nulWrite = false; nulWrite = false;
@@ -1168,62 +1168,62 @@ static bool hasDependenciesBetweenArrays(LoopGraph* firstLoop, LoopGraph* loop,
// если чтение в одном цикле и запись (и наоборот) в другом идут по разным правилам, то пока что это зависимость. // если чтение в одном цикле и запись (и наоборот) в другом идут по разным правилам, то пока что это зависимость.
// здесь можно уточнить. // здесь можно уточнить.
const int len = std::max(coeffsWrite[0].size(), coeffsRead[0].size()); const int len = std::max(coefsWrite[0].size(), coefsRead[0].size());
int countW[2] = { 0, 0 }; int countW[2] = { 0, 0 };
int countR[2] = { 0, 0 }; int countR[2] = { 0, 0 };
for (int L = 0; L < 2; ++L) for (int L = 0; L < 2; ++L)
for (int z = 0; z < coeffsWrite[L].size(); ++z) for (int z = 0; z < coefsWrite[L].size(); ++z)
countW[L] += (coeffsWrite[L][z].size() ? 1 : 0); countW[L] += (coefsWrite[L][z].size() ? 1 : 0);
for (int L = 0; L < 2; ++L) for (int L = 0; L < 2; ++L)
for (int z = 0; z < coeffsRead[L].size(); ++z) for (int z = 0; z < coefsRead[L].size(); ++z)
countR[L] += (coeffsRead[L][z].size() ? 1 : 0); countR[L] += (coefsRead[L][z].size() ? 1 : 0);
for (int p = 0; p < len; ++p) for (int p = 0; p < len; ++p)
{ {
if (coeffsWrite[1].size() && coeffsWrite[0].size()) if (coefsWrite[1].size() && coefsWrite[0].size())
if (coeffsWrite[0][p].size() != 0 && coeffsWrite[1][p].size() != 0) if (coefsWrite[0][p].size() != 0 && coefsWrite[1][p].size() != 0)
if (coeffsWrite[0][p] != coeffsWrite[1][p]) if (coefsWrite[0][p] != coefsWrite[1][p])
return true; return true;
if (coeffsRead[1].size() && coeffsWrite[0].size()) if (coefsRead[1].size() && coefsWrite[0].size())
if (coeffsWrite[0][p].size() != 0 && coeffsRead[1][p].size() != 0) if (coefsWrite[0][p].size() != 0 && coefsRead[1][p].size() != 0)
if (coeffsWrite[0][p] != coeffsRead[1][p]) if (coefsWrite[0][p] != coefsRead[1][p])
return true; return true;
if (coeffsWrite[1].size() && coeffsRead[0].size()) if (coefsWrite[1].size() && coefsRead[0].size())
if (coeffsWrite[1][p].size() != 0 && coeffsRead[0][p].size() != 0) if (coefsWrite[1][p].size() != 0 && coefsRead[0][p].size() != 0)
if (coeffsWrite[1][p] != coeffsRead[0][p]) if (coefsWrite[1][p] != coefsRead[0][p])
return true; return true;
//отображение на разные измерения //отображение на разные измерения
if (coeffsWrite[1].size() && coeffsWrite[0].size()) if (coefsWrite[1].size() && coefsWrite[0].size())
{ {
if (coeffsWrite[0][p].size() != 0 && coeffsWrite[1][p].size() == 0 && countW[1] || if (coefsWrite[0][p].size() != 0 && coefsWrite[1][p].size() == 0 && countW[1] ||
coeffsWrite[0][p].size() == 0 && coeffsWrite[1][p].size() != 0 && countW[0]) coefsWrite[0][p].size() == 0 && coefsWrite[1][p].size() != 0 && countW[0])
return true; return true;
} }
if (coeffsRead[1].size() && coeffsWrite[0].size()) if (coefsRead[1].size() && coefsWrite[0].size())
{ {
if (coeffsWrite[0][p].size() != 0 && coeffsRead[1][p].size() == 0 && countR[1] || if (coefsWrite[0][p].size() != 0 && coefsRead[1][p].size() == 0 && countR[1] ||
coeffsWrite[0][p].size() == 0 && coeffsRead[1][p].size() != 0 && countW[0]) coefsWrite[0][p].size() == 0 && coefsRead[1][p].size() != 0 && countW[0])
return true; return true;
} }
if (coeffsWrite[1].size() && coeffsRead[1].size()) if (coefsWrite[1].size() && coefsRead[1].size())
{ {
if (coeffsWrite[1][p].size() != 0 && coeffsRead[0][p].size() == 0 && countR[0] || if (coefsWrite[1][p].size() != 0 && coefsRead[0][p].size() == 0 && countR[0] ||
coeffsWrite[1][p].size() == 0 && coeffsRead[0][p].size() != 0 && countW[1]) coefsWrite[1][p].size() == 0 && coefsRead[0][p].size() != 0 && countW[1])
return true; return true;
} }
//где то нет правил отображения вообще, но есть факт его наличия. //где то нет правил отображения вообще, но есть факт его наличия.
if ( ((coeffsWrite[0].size() == 0 && coeffsRead[0].size() == 0) && (countW[0] == 0 && countR[0] == 0)) if ( ((coefsWrite[0].size() == 0 && coefsRead[0].size() == 0) && (countW[0] == 0 && countR[0] == 0))
|| ||
((coeffsWrite[1].size() == 0 && coeffsRead[1].size() == 0) && (countW[1] == 0 && countR[1] == 0)) ) ((coefsWrite[1].size() == 0 && coefsRead[1].size() == 0) && (countW[1] == 0 && countR[1] == 0)) )
return true; return true;
} }

6
src/Transformations/LoopSplitting/loops_splitter.cpp
View File

@@ -19,7 +19,6 @@ using std::pair;
using std::make_pair; using std::make_pair;
using std::wstring; using std::wstring;
using std::stack; using std::stack;
using SAPFOR::CFG_Settings;
#define PRINT_SPLITTED_FRAGMENTS 0 #define PRINT_SPLITTED_FRAGMENTS 0
@@ -316,7 +315,7 @@ static map<SgStatement*, pair<set<SgStatement*>, set<SgStatement*>>>
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
map<SAPFOR::Argument*, set<int>> outForCurr; map<SAPFOR::Argument*, set<int>> outForCurr;
buildGenKillForCFG(itCFG->second, funcByName, outForFunc, gen, kill, &genForIR, &killForIR, notInitedGlobals, SAPFOR::CFG_Settings()); buildGenKillForCFG(itCFG->second, funcByName, outForFunc, gen, kill, &genForIR, &killForIR, notInitedGlobals, SAPFOR::CFG_Settings(0));
if (outForFunc.count(byFunc)) if (outForFunc.count(byFunc))
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
@@ -1052,8 +1051,7 @@ int splitLoops(SgFile *file, vector<LoopGraph*> &loopGraphs, vector<Messages> &m
checkNull(listExp, convertFileName(__FILE__).c_str(), __LINE__); checkNull(listExp, convertFileName(__FILE__).c_str(), __LINE__);
int deep = listExp->length(); int deep = listExp->length();
const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop, CFG_Settings::CFG_withRD, CFG_Settings::CFG_withCallFrom, CFG_Settings::CFG_withDominators }); currIR = buildCFGforCurrentFunc(loop->loop, SAPFOR::CFG_Settings(true, true), commonBlocks, allFuncInfo);
currIR = buildCFGforCurrentFunc(loop->loop, settings, commonBlocks, allFuncInfo);
totalErr = splitLoop(loop, messages, deep, depInfoForLoopGraph); totalErr = splitLoop(loop, messages, deep, depInfoForLoopGraph);
if (totalErr > 0) if (totalErr > 0)

602
src/Transformations/MoveOperators/move_operators.cpp
View File

@@ -1,602 +0,0 @@
#include <map>
#include <set>
#include <vector>
#include <iostream>
#include <algorithm>
#include <cstring>
#include <cstdlib>
#include "../../Utils/errors.h"
#include "../../Utils/SgUtils.h"
#include "../../GraphCall/graph_calls.h"
#include "../../GraphCall/graph_calls_func.h"
#include "../../CFGraph/CFGraph.h"
#include "../../CFGraph/IR.h"
#include "../../GraphLoop/graph_loops.h"
#include "move_operators.h"
using namespace std;
set<int> loop_tags = {FOR_NODE};
set<int> control_tags = {IF_NODE, ELSEIF_NODE, DO_WHILE_NODE, WHILE_NODE, LOGIF_NODE};
set<int> control_end_tags = {CONTROL_END};
static vector<SAPFOR::IR_Block*> findInstructionsFromStatement(SgStatement* st, const vector<SAPFOR::BasicBlock*>& blocks)
{
vector<SAPFOR::IR_Block*> result;
if (!st)
return result;
const int stmtId = st->id();
for (auto* bb : blocks)
{
if (!bb)
continue;
for (auto* ir : bb->getInstructions())
{
if (!ir || !ir->getInstruction())
continue;
SgStatement* op = ir->getInstruction()->getOperator();
if (op && op->id() == stmtId)
result.push_back(ir);
}
}
sort(result.begin(), result.end(),
[](const SAPFOR::IR_Block* a, const SAPFOR::IR_Block* b) { return a->getNumber() < b->getNumber(); });
return result;
}
vector<SAPFOR::BasicBlock*> findFuncBlocksByFuncStatement(SgStatement *st, const map<FuncInfo*, vector<SAPFOR::BasicBlock*>>& FullIR) {
vector<SAPFOR::BasicBlock*> result;
if (!st)
return result;
Statement* forSt = (Statement*)st;
const string stmtFile = st->fileName();
const int stmtLine = st->lineNumber();
for (auto& func: FullIR) {
if (!func.first || !func.first->funcPointer)
continue;
const string funcFile = func.first->fileName;
const int funcLine = func.first->funcPointer->lineNumber();
// Important: select CFG blocks only for the same file and function header.
if (funcFile == stmtFile && funcLine == stmtLine)
{
result = func.second;
break;
}
}
return result;
}
map<SgForStmt*, vector<SAPFOR::BasicBlock*>> findAndAnalyzeLoops(SgStatement *st, const vector<SAPFOR::BasicBlock*>& blocks) {
map<SgForStmt*, vector<SAPFOR::BasicBlock*>> result;
SgStatement *lastNode = st->lastNodeOfStmt();
while (st && st != lastNode) {
if (loop_tags.find(st -> variant()) != loop_tags.end()) {
SgForStmt *forSt = (SgForStmt*)st;
SgStatement *loopBody = forSt -> body();
SgStatement *lastLoopNode = st->lastNodeOfStmt();
set<int> blocks_nums;
while (loopBody && loopBody != lastLoopNode) {
vector<SAPFOR::IR_Block*> irBlocks = findInstructionsFromStatement(loopBody, blocks);
if (!irBlocks.empty()) {
SAPFOR::IR_Block* IR = irBlocks.front();
if (IR && IR->getBasicBlock()) {
if (blocks_nums.find(IR -> getBasicBlock() -> getNumber()) == blocks_nums.end()) {
result[forSt].push_back(IR -> getBasicBlock());
blocks_nums.insert(IR -> getBasicBlock() -> getNumber());
}
}
}
loopBody = loopBody -> lexNext();
}
sort(result[forSt].begin(), result[forSt].end());
}
st = st -> lexNext();
}
return result;
}
vector<SAPFOR::BasicBlock*> findBlocksInLoopsByFullIR(
SgStatement* funcStmt,
const map<FuncInfo*, vector<SAPFOR::BasicBlock*>>& FullIR)
{
vector<SAPFOR::BasicBlock*> result;
if (!funcStmt)
return result;
const vector<SAPFOR::BasicBlock*> funcBlocks = findFuncBlocksByFuncStatement(funcStmt, FullIR);
const auto loopsMapping = findAndAnalyzeLoops(funcStmt, funcBlocks);
set<SAPFOR::BasicBlock*> uniq;
for (const auto& kv : loopsMapping)
for (auto* bb : kv.second)
if (bb)
uniq.insert(bb);
result.assign(uniq.begin(), uniq.end());
sort(result.begin(), result.end(),
[](const SAPFOR::BasicBlock* a, const SAPFOR::BasicBlock* b)
{
if (!a || !b)
return a < b;
return a->getNumber() < b->getNumber();
});
return result;
}
static map<SgStatement*, vector<SgStatement*>> analyzeBasicBlockIntraDependencies(const SAPFOR::BasicBlock* bb)
{
map<SgStatement*, vector<SgStatement*>> result;
if (!bb)
return result;
auto isCompoundStmt = [](SgStatement* st) -> bool
{
if (!st)
return true;
const int v = st->variant();
return loop_tags.count(v) || control_tags.count(v) || control_end_tags.count(v);
};
auto isTrackable = [](const SAPFOR::Argument* a) -> bool
{
if (!a)
return false;
const auto t = a->getType();
return t == SAPFOR::CFG_ARG_TYPE::VAR || t == SAPFOR::CFG_ARG_TYPE::REG;
};
auto argKey = [&](const SAPFOR::Argument* a) -> string
{
if (!a)
return string();
return to_string((int)a->getType()) + "#" + to_string((int)a->getMemType()) + "#" + a->getValue();
};
auto memKeyFromInstr = [&](const SAPFOR::Instruction* instr) -> string
{
if (!instr)
return string();
SgExpression* ex = instr->getExpression();
if (!ex)
return string();
auto exprKey = [&](auto&& self, SgExpression* e) -> string
{
if (!e)
return string("_");
if (auto* ar = isSgArrayRefExp(e))
{
SgSymbol* sym = ar->symbol() ? OriginalSymbol(ar->symbol()) : nullptr;
string key = string("A(") + (sym ? sym->identifier() : "?");
const int n = ar->numberOfSubscripts();
for (int i = 0; i < n; ++i)
{
key += ",";
key += self(self, ar->subscript(i));
}
key += ")";
return key;
}
if (e->variant() == VAR_REF || e->variant() == CONST_REF)
{
SgSymbol* sym = e->symbol() ? OriginalSymbol(e->symbol()) : nullptr;
return string((e->variant() == VAR_REF) ? "V(" : "C(") + (sym ? sym->identifier() : "?") + ")";
}
if (auto* v = isSgValueExp(e))
{
if (e->variant() == INT_VAL)
return string("I(") + to_string(v->intValue()) + ")";
if (e->variant() == BOOL_VAL)
return string("B(") + (v->boolValue() ? "1" : "0") + ")";
if (e->variant() == CHAR_VAL)
return string("CH(") + string(1, v->charValue()) + ")";
if (e->variant() == FLOAT_VAL)
return string("F(") + (v->floatValue() ? v->floatValue() : "") + ")";
if (e->variant() == DOUBLE_VAL)
return string("D(") + (v->doubleValue() ? v->doubleValue() : "") + ")";
if (e->variant() == STRING_VAL)
return string("S(") + (v->stringValue() ? v->stringValue() : "") + ")";
}
string key = string("N(") + to_string(e->variant());
if (e->lhs())
key += ",L=" + self(self, e->lhs());
if (e->rhs())
key += ",R=" + self(self, e->rhs());
key += ")";
return key;
};
return "MEMEX#" + exprKey(exprKey, ex);
};
auto isBarrier = [&](const SAPFOR::Instruction* instr) -> bool
{
if (!instr)
return true;
const auto op = instr->getOperation();
switch (op)
{
case SAPFOR::CFG_OP::F_CALL:
case SAPFOR::CFG_OP::IO_PARAM:
case SAPFOR::CFG_OP::DVM_DIR:
case SAPFOR::CFG_OP::SPF_DIR:
case SAPFOR::CFG_OP::POINTER_ASS:
case SAPFOR::CFG_OP::EXIT:
return true;
default:
return false;
}
};
auto isDef = [&](const SAPFOR::Instruction* instr) -> bool
{
if (!instr)
return false;
SAPFOR::Argument* r = instr->getResult();
if (!isTrackable(r))
return false;
const auto op = instr->getOperation();
if (op == SAPFOR::CFG_OP::STORE || op == SAPFOR::CFG_OP::REC_REF_STORE)
return false;
return true;
};
// Reaching definitions inside the BasicBlock in straight-line order:
// lastDef[var] = last operator in this block that defined it.
map<string, pair<SgStatement*, const SAPFOR::Argument*>> lastDef;
map<string, pair<SgStatement*, const SAPFOR::Argument*>> lastMemDef;
map<SgStatement*, set<SgStatement*>> depsSets;
for (auto* ir : bb->getInstructions())
{
if (!ir || !ir->getInstruction())
continue;
const SAPFOR::Instruction* instr = ir->getInstruction();
SgStatement* opStmt = instr->getOperator();
if (!opStmt)
continue;
if (isCompoundStmt(opStmt))
continue;
if (isBarrier(instr))
{
for (auto it = lastDef.begin(); it != lastDef.end();)
{
const SAPFOR::Argument* a = it->second.second;
if (!a || a->isMemGlobal() || a->isParameter())
it = lastDef.erase(it);
else
++it;
}
for (auto it = lastMemDef.begin(); it != lastMemDef.end();)
{
const SAPFOR::Argument* a = it->second.second;
if (!a || a->isMemGlobal() || a->isParameter())
it = lastMemDef.erase(it);
else
++it;
}
}
if (!result.count(opStmt))
result[opStmt] = {};
auto addDep = [&](SAPFOR::Argument* use)
{
if (!isTrackable(use))
return;
const string k = argKey(use);
auto it = lastDef.find(k);
if (it == lastDef.end())
return;
if (it->second.first && it->second.first != opStmt)
depsSets[opStmt].insert(it->second.first);
};
auto addMemDep = [&](const string& key)
{
if (key.empty())
return;
auto it = lastMemDef.find(key);
if (it == lastMemDef.end())
return;
if (it->second.first && it->second.first != opStmt)
depsSets[opStmt].insert(it->second.first);
};
addDep(instr->getArg1());
addDep(instr->getArg2());
if (instr->getOperation() == SAPFOR::CFG_OP::RANGE)
addDep(instr->getResult());
if (instr->getOperation() == SAPFOR::CFG_OP::STORE || instr->getOperation() == SAPFOR::CFG_OP::REC_REF_STORE)
addDep(instr->getResult());
if (instr->getOperation() == SAPFOR::CFG_OP::LOAD || instr->getOperation() == SAPFOR::CFG_OP::REC_REF_LOAD)
{
const string memKey = memKeyFromInstr(instr);
addMemDep(memKey);
}
if (isDef(instr))
{
const string dk = argKey(instr->getResult());
lastDef[dk] = { opStmt, instr->getResult() };
}
if (instr->getOperation() == SAPFOR::CFG_OP::STORE || instr->getOperation() == SAPFOR::CFG_OP::REC_REF_STORE)
{
const string k = memKeyFromInstr(instr);
SAPFOR::Argument* base = instr->getArg1();
if (!k.empty() && base)
lastMemDef[k] = { opStmt, base };
addMemDep(k);
}
}
for (auto& kv : result)
{
SgStatement* op = kv.first;
auto it = depsSets.find(op);
if (it == depsSets.end())
continue;
kv.second.assign(it->second.begin(), it->second.end());
sort(kv.second.begin(), kv.second.end(),
[](SgStatement* a, SgStatement* b)
{
const int la = a ? a->lineNumber() : -1;
const int lb = b ? b->lineNumber() : -1;
if (la != lb)
return la < lb;
return a < b;
});
}
return result;
}
static bool reorderOperatorsInBasicBlockUsingDeps(SAPFOR::BasicBlock* bb, const char* expectedFile)
{
if (!bb)
return false;
auto isCompoundStmt = [](SgStatement* st) -> bool
{
if (!st)
return true;
const int v = st->variant();
return loop_tags.count(v) || control_tags.count(v) || control_end_tags.count(v);
};
vector<SgStatement*> ops;
ops.reserve(bb->getInstructions().size());
set<SgStatement*> seen;
for (auto* ir : bb->getInstructions())
{
if (!ir || !ir->getInstruction())
continue;
SgStatement* st = ir->getInstruction()->getOperator();
if (!st || isCompoundStmt(st))
continue;
if (seen.insert(st).second)
ops.push_back(st);
}
if (ops.size() < 2)
return false;
// Check that analyzed BB is in the same file as the expected file
const char* bbFile = ops.front()->fileName();
if (!bbFile)
bbFile = "(unknown)";
if (expectedFile && strcmp(expectedFile, bbFile) != 0)
return false;
for (auto* st : ops)
{
if (!st || !st->fileName() || strcmp(st->fileName(), bbFile) != 0)
return false;
}
SgStatement* parent = ops.front()->controlParent();
if (!parent)
return false;
for (auto* st : ops)
if (!st || st->controlParent() != parent)
return false;
set<SgStatement*> opSet(ops.begin(), ops.end());
{
SgStatement* lastNode = parent->lastNodeOfStmt();
SgStatement* cur = ops.front();
size_t idx = 0;
{
SgStatement* scan = parent->lexNext();
SgStatement* end = lastNode;
bool found = false;
set<SgStatement*> visited;
while (scan && scan != end)
{
if (!visited.insert(scan).second)
return false;
if (scan == ops.front())
{
found = true;
break;
}
scan = scan->lexNext();
}
if (!found)
return false;
}
while (cur && cur != lastNode && idx < ops.size())
{
if (cur == ops[idx])
++idx;
else if (isSgExecutableStatement(cur) && !opSet.count(cur))
return false;
if (idx == ops.size())
break;
cur = cur->lexNext();
}
if (idx != ops.size())
return false;
}
// Compute dependencies (inside BB) and build a new order by moving each statement
// as close as possible after its last dependency (if any).
const auto depsMap = analyzeBasicBlockIntraDependencies(bb);
vector<SgStatement*> order = ops;
auto indexIn = [](const vector<SgStatement*>& v, SgStatement* s) -> int
{
for (int i = 0; i < (int)v.size(); ++i)
if (v[i] == s)
return i;
return -1;
};
for (SgStatement* s : ops)
{
auto itDeps = depsMap.find(s);
if (itDeps == depsMap.end() || itDeps->second.empty())
continue;
int posS = indexIn(order, s);
if (posS < 0)
continue;
int lastDepIdx = -1;
for (SgStatement* dep : itDeps->second)
{
const int j = indexIn(order, dep);
if (j >= 0)
lastDepIdx = max(lastDepIdx, j);
}
if (lastDepIdx < 0)
continue;
if (posS == lastDepIdx + 1)
continue;
order.erase(order.begin() + posS);
int lp = lastDepIdx;
if (posS < lastDepIdx)
lp = lastDepIdx - 1;
const int insertAt = lp + 1;
order.insert(order.begin() + insertAt, s);
}
bool changed = false;
for (size_t i = 0; i < ops.size(); ++i)
if (ops[i] != order[i])
{
changed = true;
break;
}
if (!changed)
return false;
SgStatement* anchor = parent;
{
SgStatement* scan = parent->lexNext();
SgStatement* end = parent->lastNodeOfStmt();
while (scan && scan != end)
{
if (scan == ops.front())
break;
anchor = scan;
scan = scan->lexNext();
}
}
// apply AST reordering
map<SgStatement*, int> savedLine;
map<SgStatement*, char*> savedComments;
map<SgStatement*, SgStatement*> extracted;
for (SgStatement* st : ops)
{
if (!st)
return false;
savedLine[st] = st->lineNumber();
savedComments[st] = st->comments() ? strdup(st->comments()) : nullptr;
SgStatement* ex = st->extractStmt();
if (!ex)
return false;
extracted[st] = ex;
}
SgStatement* insertAfter = anchor;
for (SgStatement* st : order)
{
SgStatement* ex = extracted[st];
if (!ex)
continue;
auto itC = savedComments.find(st);
if (itC != savedComments.end() && itC->second)
ex->setComments(itC->second);
auto itL = savedLine.find(st);
if (itL != savedLine.end())
ex->setlineNumber(itL->second);
insertAfter->insertStmtAfter(*ex, *parent);
insertAfter = ex;
}
for (auto& kv : savedComments)
if (kv.second)
free(kv.second);
return true;
}
void moveOperators(SgFile* file, const map<FuncInfo*, vector<SAPFOR::BasicBlock*>>& FullIR, int& countOfTransform) {
if (!file)
return;
if (SgFile::switchToFile(file->filename()) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
const int funcNum = file->numberOfFunctions();
for (int i = 0; i < funcNum; ++i)
{
SgStatement* st = file->functions(i);
const auto loopBlocks = findBlocksInLoopsByFullIR(st, FullIR);
for (auto* bb : loopBlocks)
{
if (!bb)
continue;
if (reorderOperatorsInBasicBlockUsingDeps(bb, file->filename()))
countOfTransform += 1;
}
}
}

6
src/Transformations/MoveOperators/move_operators.h
View File

@@ -1,6 +0,0 @@
#pragma once
#include "../../GraphLoop/graph_loops.h"
#include "../../CFGraph/CFGraph.h"
void moveOperators(SgFile* file, const std::map<FuncInfo*, std::vector<SAPFOR::BasicBlock*>>& FullIR, int& countOfTransform);

5
src/Transformations/PrivateArrayRemoving/private_removing.cpp
View File

@@ -13,7 +13,6 @@ using std::set;
using std::string; using std::string;
using std::vector; using std::vector;
using std::wstring; using std::wstring;
using SAPFOR::CFG_Settings;
using CFG_Type = map<FuncInfo*, vector<SAPFOR::BasicBlock*>>; using CFG_Type = map<FuncInfo*, vector<SAPFOR::BasicBlock*>>;
using UsersDirectives = map<pair<string, int>, set<SgStatement*>>; using UsersDirectives = map<pair<string, int>, set<SgStatement*>>;
@@ -2208,8 +2207,8 @@ static void removePrivateAnalyze(Context *ctx)
makeDeclaration(ctx->loopStmt, vector<SgSymbol*> {receiverVar}, nullptr) makeDeclaration(ctx->loopStmt, vector<SgSymbol*> {receiverVar}, nullptr)
)); ));
const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop, CFG_Settings::CFG_withRD, CFG_Settings::CFG_withCallFrom, CFG_Settings::CFG_withDominators }); CFG_Type CFG_ForFunc = buildCFGforCurrentFunc(ctx->loopStmt,
CFG_Type CFG_ForFunc = buildCFGforCurrentFunc(ctx->loopStmt, settings, SAPFOR::CFG_Settings(true, true),
ctx->commonBlocks, ctx->allFuncInfo); ctx->commonBlocks, ctx->allFuncInfo);
if (CFG_ForFunc.empty()) if (CFG_ForFunc.empty())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);

12
src/Utils/PassManager.h
View File

@@ -206,9 +206,7 @@ void InitPassesDependencies(map<passes, vector<passes>> &passDepsIn, set<passes>
Pass(DEF_USE_STAGE1) <= Pass(DEF_USE_STAGE2); Pass(DEF_USE_STAGE1) <= Pass(DEF_USE_STAGE2);
list({ VERIFY_DVM_DIRS, VERIFY_COMMON, FILL_COMMON_BLOCKS, PRIVATE_CALL_GRAPH_STAGE1, PRIVATE_CALL_GRAPH_STAGE2, MACRO_EXPANSION, CONVERT_ASSIGN_TO_LOOP, DEF_USE_STAGE1, DEF_USE_STAGE2, FILL_PARALLEL_REG_IR, CALL_GRAPH_IR }) <= list({ SUBST_EXPR, SUBST_EXPR_RD, BUILD_IR }); list({ VERIFY_DVM_DIRS, PRIVATE_CALL_GRAPH_STAGE1, PRIVATE_CALL_GRAPH_STAGE2, MACRO_EXPANSION, CONVERT_ASSIGN_TO_LOOP, DEF_USE_STAGE1, DEF_USE_STAGE2, FILL_PARALLEL_REG_IR, VERIFY_COMMON, FILL_COMMON_BLOCKS, CALL_GRAPH_IR }) <= list({ SUBST_EXPR, SUBST_EXPR_RD, BUILD_IR });
Pass(VERIFY_COMMON) <= Pass(FILL_COMMON_BLOCKS);
Pass(BUILD_IR) <= Pass(SUBST_EXPR) <= Pass(SUBST_EXPR_AND_UNPARSE); Pass(BUILD_IR) <= Pass(SUBST_EXPR) <= Pass(SUBST_EXPR_AND_UNPARSE);
@@ -219,7 +217,7 @@ void InitPassesDependencies(map<passes, vector<passes>> &passDepsIn, set<passes>
Pass(RESTORE_LOOP_FROM_ASSIGN) <= list({ SUBST_EXPR_AND_UNPARSE, SUBST_EXPR_RD_AND_UNPARSE }); Pass(RESTORE_LOOP_FROM_ASSIGN) <= list({ SUBST_EXPR_AND_UNPARSE, SUBST_EXPR_RD_AND_UNPARSE });
Pass(FILL_COMMON_BLOCKS) <= Pass(GET_ALL_ARRAY_DECL) <= list({ CALL_GRAPH_IR, INSERT_NO_DISTR_FLAGS_FROM_GUI }); Pass(GET_ALL_ARRAY_DECL) <= list({ CALL_GRAPH_IR, INSERT_NO_DISTR_FLAGS_FROM_GUI });
Pass(LOOP_GRAPH) <= Pass(PRIVATE_CALL_GRAPH_STAGE3) <= list(FIND_FUNC_TO_INCLUDE, PRIVATE_ANALYSIS_IR) <= list({ LOOP_ANALYZER_DATA_DIST_S0, LOOP_ANALYZER_DATA_DIST_S1, ONLY_ARRAY_GRAPH, LOOP_ANALYZER_ALIGNS }); Pass(LOOP_GRAPH) <= Pass(PRIVATE_CALL_GRAPH_STAGE3) <= list(FIND_FUNC_TO_INCLUDE, PRIVATE_ANALYSIS_IR) <= list({ LOOP_ANALYZER_DATA_DIST_S0, LOOP_ANALYZER_DATA_DIST_S1, ONLY_ARRAY_GRAPH, LOOP_ANALYZER_ALIGNS });
@@ -229,7 +227,7 @@ void InitPassesDependencies(map<passes, vector<passes>> &passDepsIn, set<passes>
list({ VERIFY_OPERATORS, VERIFY_ENDDO, VERIFY_INCLUDES, PREPROC_SPF, PREPROC_ALLOCATES, GET_ALL_ARRAY_DECL, GCOV_PARSER }) <= list({ CALL_GRAPH, MACRO_EXPANSION, DEF_USE_STAGE1 }); list({ VERIFY_OPERATORS, VERIFY_ENDDO, VERIFY_INCLUDES, PREPROC_SPF, PREPROC_ALLOCATES, GET_ALL_ARRAY_DECL, GCOV_PARSER }) <= list({ CALL_GRAPH, MACRO_EXPANSION, DEF_USE_STAGE1 });
list({ VERIFY_OPERATORS, VERIFY_ENDDO, VERIFY_INCLUDES, PREPROC_ALLOCATES, FILL_PARALLEL_REG_IR }) <= list({ FILL_COMMON_BLOCKS, GET_ALL_ARRAY_DECL, PARSE_OMP_DIRS }) <= Pass(PREPROC_SPF); list({ VERIFY_OPERATORS, VERIFY_ENDDO, VERIFY_INCLUDES, PREPROC_ALLOCATES, FILL_PARALLEL_REG_IR }) <= list({ GET_ALL_ARRAY_DECL, FILL_COMMON_BLOCKS, PARSE_OMP_DIRS }) <= Pass(PREPROC_SPF);
Pass(CHECK_PAR_REG_DIR) <= Pass(FILL_PARALLEL_REG_IR); Pass(CHECK_PAR_REG_DIR) <= Pass(FILL_PARALLEL_REG_IR);
@@ -318,10 +316,10 @@ void InitPassesDependencies(map<passes, vector<passes>> &passDepsIn, set<passes>
list({ VERIFY_INCLUDES, CORRECT_VAR_DECL }) <= Pass(SET_IMPLICIT_NONE); list({ VERIFY_INCLUDES, CORRECT_VAR_DECL }) <= Pass(SET_IMPLICIT_NONE);
list({ ARRAY_PROPAGATION, CALL_GRAPH2, CALL_GRAPH, BUILD_IR, LOOP_GRAPH, LOOP_ANALYZER_DATA_DIST_S2 }) <= Pass(FIND_PRIVATE_ARRAYS_ANALYSIS); list({ CALL_GRAPH2, CALL_GRAPH, BUILD_IR, LOOP_GRAPH, LOOP_ANALYZER_DATA_DIST_S2 }) <= Pass(FIND_PRIVATE_ARRAYS_ANALYSIS);
list({ FIND_PRIVATE_ARRAYS_ANALYSIS, CONVERT_LOOP_TO_ASSIGN, RESTORE_LOOP_FROM_ASSIGN, REVERT_SUBST_EXPR_RD }) <= Pass(FIND_PRIVATE_ARRAYS); list({ FIND_PRIVATE_ARRAYS_ANALYSIS, CONVERT_LOOP_TO_ASSIGN, RESTORE_LOOP_FROM_ASSIGN, REVERT_SUBST_EXPR_RD }) <= Pass(FIND_PRIVATE_ARRAYS);
list({ BUILD_IR, CALL_GRAPH2, RESTORE_LOOP_FROM_ASSIGN, REVERT_SUBST_EXPR_RD }) <= Pass(MOVE_OPERATORS); Pass(CREATE_TEMPLATE_LINKS) <= Pass(MERGE_COPY_ARRAYS);
passesIgnoreStateDone.insert({ CREATE_PARALLEL_DIRS, INSERT_PARALLEL_DIRS, INSERT_SHADOW_DIRS, EXTRACT_PARALLEL_DIRS, passesIgnoreStateDone.insert({ CREATE_PARALLEL_DIRS, INSERT_PARALLEL_DIRS, INSERT_SHADOW_DIRS, EXTRACT_PARALLEL_DIRS,
EXTRACT_SHADOW_DIRS, CREATE_REMOTES, UNPARSE_FILE, REMOVE_AND_CALC_SHADOW, EXTRACT_SHADOW_DIRS, CREATE_REMOTES, UNPARSE_FILE, REMOVE_AND_CALC_SHADOW,

74
src/Utils/SgUtils.cpp
View File

@@ -577,20 +577,10 @@ string removeIncludeStatsAndUnparse(SgFile *file, const char *fileName, const ch
for (auto& incl : inclByPos.second) for (auto& incl : inclByPos.second)
inlcude += (renameIncludes ? renameInclude(incl) : incl); inlcude += (renameIncludes ? renameInclude(incl) : incl);
//check inserted operators if (st->comments())
SgStatement* toInsert = st; st->setComments((inlcude + st->comments()).c_str());
do {
auto lexPrev = toInsert->lexPrev();
if (lexPrev && lexPrev->variant() > 0 && lexPrev->lineNumber() < 0)
toInsert = lexPrev;
else else
break; st->addComment(inlcude.c_str());
} while (true);
if (toInsert->comments())
toInsert->setComments((inlcude + toInsert->comments()).c_str());
else
toInsert->addComment(inlcude.c_str());
} }
} }
@@ -658,7 +648,7 @@ string removeIncludeStatsAndUnparse(SgFile *file, const char *fileName, const ch
if (wasDeleted) if (wasDeleted)
{ {
if (str.size() && str.back() != '\n') if (str.size() || str.back() != '\n')
str += '\n'; str += '\n';
st->setComments(str.c_str()); st->setComments(str.c_str());
} }
@@ -944,14 +934,8 @@ void fillNonDistrArraysAsPrivate(SgStatement *st,
{ {
auto itD = declaredArrays.find(*itSet); auto itD = declaredArrays.find(*itSet);
if (itD != declaredArrays.end()) if (itD != declaredArrays.end())
{ if (itD->second.first->IsNotDistribute())
const auto array = itD->second.first; privatesVars.insert(itD->second.first->GetShortName());
if (array->IsNotDistribute())
{
auto symb = array->GetDeclSymbol(make_pair(st->fileName(), st->lineNumber()));
privatesVars.insert(symb->identifier());
}
}
} }
} }
} }
@@ -970,20 +954,8 @@ DIST::Array* getArrayFromDeclarated(SgStatement *st, const string &arrayName)
{ {
auto itD = declaredArrays.find(*itSet); auto itD = declaredArrays.find(*itSet);
if (itD != declaredArrays.end()) if (itD != declaredArrays.end())
{ if (itD->second.first->GetShortName() == arrayName)
DIST::Array* array = itD->second.first; found = itD->second.first;
if (array->GetLocation().first == DIST::l_COMMON)
{
auto symb = array->GetDeclSymbol(make_pair(st->fileName(), st->lineNumber()));
if (symb && symb->identifier() == arrayName)
found = array;
}
else
{
if (array->GetShortName() == arrayName)
found = array;
}
}
} }
} }
return found; return found;
@@ -1292,32 +1264,6 @@ static SgExpression* isInCommon(const vector<SgExpression*> &commonBlocks, const
return NULL; return NULL;
} }
//all common block in project
extern map<string, CommonBlock*> commonBlocks;
static string getCommonNameOnPos(const string& name, const int commonPos)
{
if (commonBlocks.size() == 0)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto it = commonBlocks.find(name);
if (it == commonBlocks.end())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto inPos = it->second->getGroupedVars().find(commonPos);
if (inPos == it->second->getGroupedVars().end())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
set<string> namesOnPos;
for (auto& var : inPos->second)
namesOnPos.insert(var->getName());
if (namesOnPos.size() == 0)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
return *namesOnPos.begin();
}
static map<tuple<string, string, int>, tuple<int, string, string>> tableOfUniqNames; static map<tuple<string, string, int>, tuple<int, string, string>> tableOfUniqNames;
tuple<int, string, string> getUniqName(const map<string, vector<SgExpression*>> &commonBlocks, SgStatement *decl, SgSymbol *symb) tuple<int, string, string> getUniqName(const map<string, vector<SgExpression*>> &commonBlocks, SgStatement *decl, SgSymbol *symb)
{ {
@@ -1326,7 +1272,6 @@ tuple<int, string, string> getUniqName(const map<string, vector<SgExpression*>>
int commonPos = 0; int commonPos = 0;
SgExpression *foundCommon = NULL; SgExpression *foundCommon = NULL;
string symbCommn = "";
SgStatement *declCP = decl->controlParent(); SgStatement *declCP = decl->controlParent();
// find symbol in parameter list of functions // find symbol in parameter list of functions
@@ -1362,7 +1307,6 @@ tuple<int, string, string> getUniqName(const map<string, vector<SgExpression*>>
if (foundCommon) if (foundCommon)
{ {
inCommon = true; inCommon = true;
symbCommn = getCommonNameOnPos(common.first, commonPos);
break; break;
} }
} }
@@ -1370,7 +1314,7 @@ tuple<int, string, string> getUniqName(const map<string, vector<SgExpression*>>
tuple<int, string, string> retVal; tuple<int, string, string> retVal;
if (inCommon) if (inCommon)
retVal = make_tuple(commonPos, string("common_") + getCommonName(foundCommon), symbCommn); retVal = make_tuple(commonPos, string("common_") + getCommonName(foundCommon), string(symb->identifier()));
else else
retVal = make_tuple(decl->lineNumber(), string(decl->fileName()), string(symb->identifier())); retVal = make_tuple(decl->lineNumber(), string(decl->fileName()), string(symb->identifier()));

18
src/Utils/module_utils.cpp
View File

@@ -337,15 +337,10 @@ const set<SgSymbol*>& getModuleSymbols(SgStatement *func)
//if function or module in contains //if function or module in contains
auto cp = func->controlParent(); auto cp = func->controlParent();
if (isSgProgHedrStmt(cp) || cp->variant() == MODULE_STMT) if (isSgProgHedrStmt(cp) || cp->variant() == MODULE_STMT)
{
getModuleSymbols(cp, symbs); getModuleSymbols(cp, symbs);
if (func->variant() == FUNC_HEDR)
symbs.insert(func->symbol());
}
symbolsForFunc[func->symbol()->identifier()] = symbs; symbolsForFunc[func->symbol()->identifier()] = symbs;
return symbolsForFunc[func->symbol()->identifier()]; return symbs;
} }
static void findSymbol(SgStatement* func, const string& varName, const string& locName, static void findSymbol(SgStatement* func, const string& varName, const string& locName,
@@ -354,20 +349,10 @@ static void findSymbol(SgStatement* func, const string& varName, const string& l
for (const auto& s : getModuleSymbols(func)) for (const auto& s : getModuleSymbols(func))
{ {
SgSymbol* orig = OriginalSymbol(s); SgSymbol* orig = OriginalSymbol(s);
printf("%s == %s\n", orig->identifier(), s->identifier());
//any suitable symbol can be used //any suitable symbol can be used
if (orig->variant() == FUNCTION_NAME)
{
if (orig->identifier() == varName)
altNames[s->identifier()] = s;
}
else
{
if (orig->identifier() == varName && orig->scope()->symbol()->identifier() == locName) if (orig->identifier() == varName && orig->scope()->symbol()->identifier() == locName)
altNames[s->identifier()] = s; altNames[s->identifier()] = s;
} }
}
} }
SgSymbol* getNameInLocation(SgStatement* func, const string& varName, const string& locName) SgSymbol* getNameInLocation(SgStatement* func, const string& varName, const string& locName)
@@ -384,7 +369,6 @@ SgSymbol* getNameInLocation(SgStatement* func, const string& varName, const stri
return altNames.begin()->second; return altNames.begin()->second;
else { else {
__spf_print(1, "%s (%s %s) %s\n", func->symbol()->identifier(), clearName.c_str(), varName.c_str(), locName.c_str()); __spf_print(1, "%s (%s %s) %s\n", func->symbol()->identifier(), clearName.c_str(), varName.c_str(), locName.c_str());
findSymbol(func, varName, locName, altNames);
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
} }

4
src/Utils/utils.cpp
View File

@@ -569,8 +569,8 @@ void copyIncludes(const set<string> &allIncludeFiles, const map<string, map<int,
while (!feof(oldFile)) while (!feof(oldFile))
{ {
char buf[16384]; char buf[8192];
char *res = fgets(buf, sizeof(buf), oldFile); char *res = fgets(buf, 16384, oldFile);
if (res == NULL) if (res == NULL)
break; break;

2
src/Utils/version.h
View File

@@ -1,3 +1,3 @@
#pragma once #pragma once
#define VERSION_SPF "2474" #define VERSION_SPF "2448"

11
src/VisualizerCalls/get_information.cpp
View File

@@ -152,7 +152,7 @@ static void setOptions(const short* options, bool isBuildParallel = false, const
intOptions[z] = -1; intOptions[z] = -1;
} }
//staticShadowAnalysis = intOptions[STATIC_SHADOW_ANALYSIS]; staticShadowAnalysis = intOptions[STATIC_SHADOW_ANALYSIS];
staticPrivateAnalysis = intOptions[STATIC_PRIVATE_ANALYSIS]; staticPrivateAnalysis = intOptions[STATIC_PRIVATE_ANALYSIS];
out_free_form = intOptions[FREE_FORM]; out_free_form = intOptions[FREE_FORM];
if (out_free_form == 1) if (out_free_form == 1)
@@ -1802,13 +1802,6 @@ int SPF_InsertPrivateArrayDirectives(void*& context, int winHandler, short* opti
return simpleTransformPass(FIND_PRIVATE_ARRAYS, options, projName, folderName, output, outputMessage); return simpleTransformPass(FIND_PRIVATE_ARRAYS, options, projName, folderName, output, outputMessage);
} }
int SPF_MoveOperators(void*& context, int winHandler, short* options, short* projName, short* folderName, string& output, string& outputMessage)
{
MessageManager::clearCache();
MessageManager::setWinHandler(winHandler);
return simpleTransformPass(MOVE_OPERATORS, options, projName, folderName, output, outputMessage);
}
static inline void convertBackSlash(char *str, int strL) static inline void convertBackSlash(char *str, int strL)
{ {
for (int z = 0; z < strL; ++z) for (int z = 0; z < strL; ++z)
@@ -2517,8 +2510,6 @@ const wstring Sapfor_RunTransformation(const char* transformName_c, const char*
retCode = SPF_RenameIncludes(context, winHandler, optSh, projSh, fold, output, outputMessage); retCode = SPF_RenameIncludes(context, winHandler, optSh, projSh, fold, output, outputMessage);
else if (whichRun == "SPF_InsertPrivateArrayDirectives") else if (whichRun == "SPF_InsertPrivateArrayDirectives")
retCode = SPF_InsertPrivateArrayDirectives(context, winHandler, optSh, projSh, fold, output, outputMessage); retCode = SPF_InsertPrivateArrayDirectives(context, winHandler, optSh, projSh, fold, output, outputMessage);
else if (whichRun == "SPF_MoveOperators")
retCode = SPF_MoveOperators(context, winHandler, optSh, projSh, fold, output, outputMessage);
else if (whichRun == "SPF_CreateParallelVariant") else if (whichRun == "SPF_CreateParallelVariant")
{ {
vector<string> splited; vector<string> splited;