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base: Alexander_KS:c26cc261c48f78e5e9137944541aa7d90c872bae
Branches Tags
Alexander_KS:master Alexander_KS:private_arrays Alexander_KS:libpredict_integration Alexander_KS:egormayorov Alexander_KS:replace_io_arrays Alexander_KS:analyze_loops_with_IR
..
compare: Alexander_KS:master
Branches Tags
Alexander_KS:master Alexander_KS:private_arrays Alexander_KS:libpredict_integration Alexander_KS:egormayorov Alexander_KS:replace_io_arrays Alexander_KS:analyze_loops_with_IR

5 Commits
c26cc261c4 ... master

Author SHA1 Message Date
ALEXks
a0cea2df91 added new function for visualizer 2025-11-08 20:17:32 +03:00
ALEXks
4b7df86b8a version updated 2025-11-08 20:08:22 +03:00
Alexander_KS
836894fef1 Merge pull request 'private_arrays' (#68) from private_arrays into master 2025-11-08 17:07:07 +00:00
Oleg Nikitin
9ac15eec79 fix codestyle 2025-11-08 20:06:07 +03:00
Oleg Nikitin
03f565f50b add multifile support 2025-11-08 20:06:07 +03:00
16 changed files with 141 additions and 487 deletions
Expand all files Collapse all files

4
CMakeLists.txt
View File

@@ -331,9 +331,7 @@ set(MAIN src/Sapfor.cpp
src/Utils/PassManager.h)
set(PREDICTOR src/Predictor/PredictScheme.cpp
src/Predictor/PredictScheme.h
src/Predictor/PredictSchemeWithLibrary.cpp
src/Predictor/PredictSchemeWithLibrary.h)
src/Predictor/PredictScheme.h)
set(LIBPREDICTOR ${libpred_sources}/cluster.cpp
${libpred_sources}/predictor.cpp

2
projects/dvm

Submodule projects/dvm updated: 4b7ef11871...4d4041a081

1
src/DirectiveProcessing/directive_creator_base.cpp
View File

@@ -122,7 +122,6 @@ static LoopGraph* createDirectiveForLoop(LoopGraph *currentLoop, MapToArray &mai
if (found == false)
{
directive->shadowRenew.push_back(make_pair(key, vector<pair<int, int>>()));
directive->shadowRenewCorner.push_back(false);
const DIST::Array *arrayRef = read;
for (int i = 0; i < arrayRef->GetDimSize(); ++i)

10
src/Distribution/DvmhDirective.cpp
View File

@@ -857,11 +857,6 @@ ParallelDirective::genDirective(File* file, const vector<pair<DIST::Array*, cons
shadowRenewShifts[i].resize(shadowRenew[i].second.size());
}
if (shadowRenewCorner.size() == 0)
{
shadowRenewCorner.resize(shadowRenew.size(), false);
}
string shadowAdd = ", SHADOW_RENEW(";
int inserted = 0;
@@ -904,10 +899,7 @@ ParallelDirective::genDirective(File* file, const vector<pair<DIST::Array*, cons
for (auto& elem : genSubscripts(shadowRenew[i1].second, shadowRenewShifts[i1]))
newArrayRef->addSubscript(*elem);
bool needCornerFlag = shadowRenew[i1].second.size() > 1 && needCorner(shadowArray, shiftsByAccess, loop);
shadowRenewCorner[i1] = needCornerFlag;
if (needCornerFlag)
if (shadowRenew[i1].second.size() > 1 && needCorner(shadowArray, shiftsByAccess, loop))
{
SgExpression* tmp = new SgExpression(ARRAY_OP, newArrayRef, NULL, NULL);
p->setLhs(*tmp);

3
src/Distribution/DvmhDirective.h
View File

@@ -102,7 +102,6 @@ public:
// origin_Name uniqName bounds
std::vector<std::pair<std::pair<std::string, std::string>, std::vector<std::pair<int, int>>>> shadowRenew;
std::vector<std::vector<std::pair<int, int>>> shadowRenewShifts;
std::vector<bool> shadowRenewCorner;
// origin_Name uniqName bounds
std::vector<std::pair<std::pair<std::string, std::string>, std::vector<std::pair<int, int>>>> across;
@@ -126,7 +125,6 @@ public:
privates = copyFrom.privates;
shadowRenew = copyFrom.shadowRenew;
shadowRenewShifts = copyFrom.shadowRenewShifts;
shadowRenewCorner = copyFrom.shadowRenewCorner;
across = copyFrom.across;
acrossShifts = copyFrom.acrossShifts;
remoteAccess = copyFrom.remoteAccess;
@@ -153,7 +151,6 @@ public:
on.clear();
privates.clear();
shadowRenew.clear();
shadowRenewCorner.clear();
across.clear();
acrossShifts.clear();
reduction.clear();

104
src/Predictor/PredictScheme.cpp
View File

@@ -23,7 +23,6 @@
#include "expr_transform.h"
#include "../LoopAnalyzer/loop_analyzer.h"
#include "CFGraph/CFGraph.h"
#include "../Utils/utils.h"
#include "json.hpp"
@@ -37,109 +36,6 @@ using std::tuple;
using json = nlohmann::json;
void runPredictSchemeOld(SgProject &project,
vector<vector<size_t>> &topologies,
vector<ParallelRegion*> &parallelRegions,
map<string, vector<LoopGraph*>> &loopGraph,
map<string, vector<SpfInterval*>> &intervals,
map<string, vector<Messages>> &SPF_messages)
{
int maxSizeDist = 0;
for (int z = 0; z < parallelRegions.size(); ++z)
{
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
auto &tmp = dataDirectives.distrRules;
vector<pair<DIST::Array*, const DistrVariant*>> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(std::make_pair(tmp[z1].first, &tmp[z1].second[currentVariant[z1]]));
for (auto &elem : currentVar)
{
DIST::Array *array = elem.first;
const DistrVariant *var = elem.second;
int countBlock = 0;
for (int z = 0; z < var->distRule.size(); ++z)
if (var->distRule[z] == dist::BLOCK)
++countBlock;
maxSizeDist = std::max(maxSizeDist, countBlock);
}
}
SpfInterval *mainIterval = getMainInterval(&project, intervals, SPF_messages);
topologies.clear();
if (maxSizeDist)
{
const int procNum = 8;
//TODO:
//topologies = getTopologies(procNum, maxSizeDist);
throw -10;
const int countOfTop = topologies.size();
if (countOfTop < 0)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
for (auto &inter : intervals)
initTimeForIntervalTree(countOfTop, inter.second);
for (int z = 0; z < parallelRegions.size(); ++z)
{
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
DIST::Arrays<int> &allArrays = parallelRegions[z]->GetAllArraysToModify();
auto &tmp = dataDirectives.distrRules;
vector<pair<DIST::Array*, const DistrVariant*>> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(std::make_pair(tmp[z1].first, &tmp[z1].second[currentVariant[z1]]));
map<LoopGraph*, ParallelDirective*> parallelDirs;
vector<std::tuple<DIST::Array*, vector<long>, pair<string, int>>> allSingleRemotes;
for (int i = project.numberOfFiles() - 1; i >= 0; --i)
{
SgFile *file = &(project.file(i));
auto fountInfo = findAllDirectives(file, getObjectForFileFromMap(file->filename(), loopGraph), parallelRegions[z]->GetId());
parallelDirs.insert(fountInfo.begin(), fountInfo.end());
auto fountRem = findAllSingleRemotes(file, parallelRegions[z]->GetId(), parallelRegions);
allSingleRemotes.insert(allSingleRemotes.end(), fountRem.begin(), fountRem.end());
}
//TODO!
//int err = predictScheme(parallelRegions[z], currentVar, allArrays.GetArrays(), parallelDirs, intervals, SPF_messages, allSingleRemotes, maxSizeDist, procNum);
/*if (err != 0)
internalExit = err;*/
}
vector<SpfInterval*> tmp = { mainIterval };
aggregatePredictedTimes(tmp);
int idx = 0;
int best = -1;
double bestSpeedUp = 0;
for (auto &top : topologies)
{
string outStr = "";
for (auto &elem : top)
outStr += std::to_string(elem) + " ";
double currS = mainIterval->exec_time / mainIterval->predictedTimes[idx];
__spf_print(1, "%d: speed up %f for top. %s\n", idx, currS, outStr.c_str());
if (best == -1 || bestSpeedUp < currS)
{
bestSpeedUp = currS;
best = idx;
}
++idx;
}
__spf_print(1, "best topology %d with speed up %f\n", best, bestSpeedUp);
}
else
for (auto &inter : intervals)
initTimeForIntervalTree(0, inter.second);
}
static void fillParallel(SgExpression *exp, ParallelStats &parStats, int &totalScoreComm)
{
if (exp)

4
src/Predictor/PredictScheme.h
View File

@@ -60,6 +60,4 @@ public:
void processFileToPredict(SgFile *file, PredictorStats &predictorCounts);
void calculateStatsForPredictor(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo, const std::map<std::string, std::map<int, Gcov_info>>& gCovInfo);
void parseDvmDirForPredictor(const std::map<std::tuple<int, std::string, std::string>, std::pair<DIST::Array*, DIST::ArrayAccessInfo*>>& declaredArrays, const std::map<std::string, CommonBlock*>& commonBlocks, const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo, const std::map<std::string, std::map<int, Gcov_info>>& gCovInfo);
void runPredictSchemeOld(SgProject &project, std::vector<std::vector<size_t>> &topologies, std::vector<ParallelRegion*> &parallelRegions, std::map<std::string, std::vector<LoopGraph*>> &loopGraph, std::map<std::string, std::vector<SpfInterval*>> &intervals, std::map<std::string, std::vector<Messages>> &SPF_messages);
void parseDvmDirForPredictor(const std::map<std::tuple<int, std::string, std::string>, std::pair<DIST::Array*, DIST::ArrayAccessInfo*>>& declaredArrays, const std::map<std::string, CommonBlock*>& commonBlocks, const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo, const std::map<std::string, std::map<int, Gcov_info>>& gCovInfo);

306
src/Predictor/PredictSchemeWithLibrary.cpp
View File

@@ -1,306 +0,0 @@
#include "leak_detector.h"
#include <limits>
#include <map>
#include <vector>
#include <string>
#include <tuple>
#include "dvm.h"
#include "PredictSchemeWithLibrary.h"
#include "../../projects/libpredictor/include/libpredict/predictor.h"
#include "../DirectiveProcessing/directive_parser.h"
#include "../Distribution/DvmhDirective.h"
#include "../ParallelizationRegions/ParRegions.h"
#include "../GraphLoop/graph_loops_func.h"
#include "../Utils/errors.h"
#include "../Utils/utils.h"
using std::map;
using std::string;
using std::vector;
using std::pair;
using std::tuple;
// МОЖЕТ КАК-ТО ВЫЧИСЛЯТЬ ДИРЕКТИВЫ, А ПОТОМ ДЕЛАТЬ ПРОГОНЫ?
double runLibpredictCalc(SgProject &project,
const vector<size_t> &topology,
const string &clusterConfStr,
const vector<ParallelRegion*> &parallelRegions,
map<string, vector<LoopGraph*>> &loopGraph,
map<string, vector<Messages>> &SPF_messages)
{
libpredict::RetInit retInit = libpredict::Init(clusterConfStr, topology[0], topology[1], topology[2], topology[3]);
if (retInit != libpredict::INIT_SUCCESS) {
__spf_print(1, "ERROR: Failed to initialize libpredict with cluster config: %s, return code: %d\n", clusterConfStr.c_str(), (int)retInit);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to initialize libpredict library with cluster config: %s, return code: %d",
to_wstring(clusterConfStr).c_str(), (int)retInit);
__spf_printToLongBuf(messageR, R206);
getObjectForFileFromMap(clusterConfStr.c_str(), SPF_messages).push_back(Messages(ERROR, 1, messageR, messageE, 1063));
return -1;
}
// distribute и align из parallelRegions
for (int z = 0; z < parallelRegions.size(); ++z) {
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
const DIST::Arrays<int> &allArrays = parallelRegions[z]->GetAllArrays();
auto &tmp = dataDirectives.distrRules;
vector<pair<DIST::Array*, const DistrVariant*>> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(std::make_pair(tmp[z1].first, &tmp[z1].second[currentVariant[z1]]));
// distribute
for (const auto& distrRule : currentVar) {
DIST::Array* array = distrRule.first;
const DistrVariant* variant = distrRule.second;
if (array && variant && !array->IsNotDistribute()) {
size_t arrayId = array->GetId();
size_t elemSize = array->GetTypeSize();
vector<libpredict::DistributeAxisRule> axisDistributions;
const auto& arraySizes = array->GetSizes();
for (int dim = 0; dim < array->GetDimSize(); ++dim) {
size_t dimSize = arraySizes[dim].second - arraySizes[dim].first + 1;
if (dim < variant->distRule.size() && variant->distRule[dim] == dist::BLOCK) {
axisDistributions.emplace_back(dimSize, libpredict::TypeDistribute::BLOCK);
} else {
axisDistributions.emplace_back(dimSize, libpredict::TypeDistribute::NONE);
}
}
vector<pair<size_t, size_t>> shadowEdges;
const auto& shadowSpec = array->GetShadowSpec();
for (int dim = 0; dim < shadowSpec.size() && dim < array->GetDimSize(); ++dim) {
if (dim < variant->distRule.size() && variant->distRule[dim] == dist::BLOCK) {
shadowEdges.emplace_back(shadowSpec[dim].first, shadowSpec[dim].second);
}
}
libpredict::RetDistribute retDistribute = libpredict::Distribute(arrayId, elemSize, axisDistributions, shadowEdges);
if (retDistribute != libpredict::DISTRIBUTE_SUCCESS) {
__spf_print(1, "ERROR: Failed to distribute array '%s' (id=%zu) with libpredict, return code: %d\n",
array->GetShortName().c_str(), arrayId, (int)retDistribute);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to distribute array '%s' with libpredict, return code: %d",
to_wstring(array->GetShortName()).c_str(), (int)retDistribute);
__spf_printToLongBuf(messageR, R207);
getObjectForFileFromMap(array->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(
Messages(ERROR, array->GetDeclInfo().begin()->second, messageR, messageE, 1064));
}
}
}
// align
for (const auto& alignRule : dataDirectives.alignRules) {
DIST::Array* alignArray = alignRule.alignArray;
DIST::Array* alignWithArray = alignRule.alignWith;
if (alignArray && alignWithArray && !alignArray->IsNotDistribute()) {
size_t arrayId = alignArray->GetId();
size_t distributedArrayId = alignWithArray->GetId();
size_t elemSize = alignArray->GetTypeSize();
const auto& arraySizes = alignArray->GetSizes();
vector<size_t> dimensions;
for (int dim = 0; dim < alignArray->GetDimSize(); ++dim)
dimensions.push_back(arraySizes[dim].second - arraySizes[dim].first + 1);
vector<libpredict::AlignDisplay> distributionExpressions;
for (int dim = 0; dim < alignWithArray->GetDimSize(); ++dim) {
bool found = false;
for (int i = 0; i < alignRule.alignRuleWith.size(); ++i) {
const auto& ruleWith = alignRule.alignRuleWith[i];
if (ruleWith.first == dim) {
const auto& rule = ruleWith.second;
if (rule.first == 0) {
// Константа
distributionExpressions.emplace_back(rule.second);
} else {
// Линейное выражение a * I + b
distributionExpressions.emplace_back(i, rule.first, rule.second);
}
found = true;
break;
}
}
if (!found) {
// Нет правила для этого измерения
distributionExpressions.emplace_back();
}
}
vector<pair<size_t, size_t>> shadowEdges;
const auto& shadowSpec = alignArray->GetShadowSpec();
for (int dim = 0; dim < shadowSpec.size() && dim < alignArray->GetDimSize(); ++dim) {
shadowEdges.emplace_back(shadowSpec[dim].first, shadowSpec[dim].second);
}
libpredict::RetAlign retAlign = libpredict::Align(arrayId, distributedArrayId, elemSize, dimensions, distributionExpressions, shadowEdges);
if (retAlign != libpredict::ALIGN_SUCCESS) {
__spf_print(1, "ERROR: Failed to align array '%s' (id=%zu) with array '%s' (id=%zu), return code: %d\n",
alignArray->GetShortName().c_str(), arrayId,
alignWithArray->GetShortName().c_str(), distributedArrayId, (int)retAlign);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to align array '%s' with array '%s' using libpredict, return code: %d",
to_wstring(alignArray->GetShortName()).c_str(),
to_wstring(alignWithArray->GetShortName()).c_str(), (int)retAlign);
__spf_printToLongBuf(messageR, R208);
getObjectForFileFromMap(alignArray->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(
Messages(ERROR, alignArray->GetDeclInfo().begin()->second, messageR, messageE, 1065));
}
}
}
// shadow_renew
map<LoopGraph*, ParallelDirective*> parallelDirs;
for (int i = project.numberOfFiles() - 1; i >= 0; --i) {
SgFile *file = &(project.file(i));
auto fountInfo = findAllDirectives(file, getObjectForFileFromMap(file->filename(), loopGraph), parallelRegions[z]->GetId());
parallelDirs.insert(fountInfo.begin(), fountInfo.end());
}
for (auto& dirPair : parallelDirs) {
LoopGraph* loopPtr = dirPair.first;
ParallelDirective* directive = dirPair.second;
if (directive && !directive->shadowRenew.empty()) {
for (size_t shadowIdx = 0; shadowIdx < directive->shadowRenew.size(); ++shadowIdx) {
const auto& shadowRenewItem = directive->shadowRenew[shadowIdx];
const string& arrayName = shadowRenewItem.first.second; // uniqName
const vector<pair<int, int>>& bounds = shadowRenewItem.second;
DIST::Array* shadowArray = allArrays.GetArrayByName(arrayName);
if (shadowArray == NULL)
continue;
if (shadowArray && !shadowArray->IsNotDistribute()) {
size_t arrayId = shadowArray->GetId();
vector<pair<size_t, size_t>> shadow_renew;
for (const auto& bound : bounds) {
shadow_renew.emplace_back(static_cast<size_t>(bound.first),
static_cast<size_t>(bound.second));
}
bool corner = directive->shadowRenewCorner[shadowIdx];
size_t number_loop_iterations = loopPtr ? static_cast<size_t>(loopPtr->countOfIters) : 1;
libpredict::RetShadowRenew retShadowRenew = libpredict::ShadowRenew(arrayId, shadow_renew, corner, number_loop_iterations);
if (retShadowRenew != libpredict::SHADOW_RENEW_SUCCESS) {
__spf_print(1, "ERROR: Failed to process shadow_renew for array '%s' (id=%zu), return code: %d\n",
shadowArray->GetShortName().c_str(), arrayId, (int)retShadowRenew);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to process shadow_renew for array '%s' with libpredict, return code: %d",
to_wstring(shadowArray->GetShortName()).c_str(), (int)retShadowRenew);
__spf_printToLongBuf(messageR, R209);
getObjectForFileFromMap(shadowArray->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(
Messages(ERROR, shadowArray->GetDeclInfo().begin()->second, messageR, messageE, 1066));
}
}
}
}
}
}
return libpredict::GetTime();
}
void runPredictScheme(SgProject &project,
vector<vector<size_t>> &topologies,
const vector<ParallelRegion*> &parallelRegions,
map<string, vector<LoopGraph*>> &loopGraph,
map<string, vector<Messages>> &SPF_messages)
{
// calculating maximum dimension of distribution
int maxSizeDist = 0;
for (int z = 0; z < parallelRegions.size(); ++z) {
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
auto &tmp = dataDirectives.distrRules;
vector<const DistrVariant*> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(&tmp[z1].second[currentVariant[z1]]);
for (auto var : currentVar) {
int countBlock = 0;
for (int z = 0; z < var->distRule.size(); ++z)
if (var->distRule[z] == dist::BLOCK)
++countBlock;
maxSizeDist = std::max(maxSizeDist, countBlock);
}
}
// calculating name of a cluster configuration file
string clusterConfStr;
if (project.numberOfFiles() > 0) {
string firstFilePath = project.fileName(0);
size_t lastSlash = firstFilePath.find_last_of("/\\");
clusterConfStr = firstFilePath.substr(0, lastSlash + 1) + "cluster.conf";
}
// iterating through topologies to find most optimal one
topologies = vector<vector<size_t>>();
if (maxSizeDist) {
if (maxSizeDist > 4) maxSizeDist = 4;
// TODO: look at cluster configuration
size_t n1max = 10;
size_t n2max = (maxSizeDist >= 2) ? 10 : 1;
size_t n3max = (maxSizeDist >= 3) ? 10 : 1;
size_t n4max = (maxSizeDist >= 4) ? 10 : 1;
for (size_t n1 = 1; n1 <= n1max; ++n1) {
for (size_t n2 = 1; n2 <= n2max; ++n2) {
for (size_t n3 = 1; n3 <= n3max; ++n3) {
for (size_t n4 = 1; n4 <= n4max; ++n4) {
topologies.push_back(vector<size_t>{n1, n2, n3, n4});
}
}
}
}
vector<size_t> best;
double bestTime = std::numeric_limits<double>::max();
for (auto &topology : topologies) {
// if (DEBUG) {
// string outStr = "";
// for (const auto &elem : top)
// outStr += std::to_string(elem) + " ";
// __spf_print(1, "topology %s has time %f\n", outStr.c_str(), currTime);
// }
double currTime = runLibpredictCalc(project, topology, clusterConfStr, parallelRegions, loopGraph, SPF_messages);
if (currTime == -1)
return;
if (currTime < bestTime) {
bestTime = currTime;
best = topology;
}
}
string outStr;
for (const auto &elem : best)
outStr += std::to_string(elem) + " ";
__spf_print(1, "best topology %s with time %f\n", outStr.c_str(), bestTime);
} else {
__spf_print(1, "impossible to calculate best topology: project does not contain distribution directives\n");
}
}

19
src/Predictor/PredictSchemeWithLibrary.h
View File

@@ -1,19 +0,0 @@
#pragma once
#include <vector>
#include <map>
#include <string>
#include "dvm.h"
#include "graph_calls.h"
void runPredictScheme(SgProject &project,
std::vector<std::vector<size_t>> &topologies,
const std::vector<ParallelRegion*> &parallelRegions,
std::map<std::string, std::vector<LoopGraph*>> &loopGraph,
std::map<std::string, std::vector<Messages>> &SPF_messages);
double runLibpredictCalc(SgProject &project,
const std::vector<size_t> &topology,
const std::string &clusterConfStr,
const std::vector<ParallelRegion*> &parallelRegions,
std::map<std::string, std::vector<LoopGraph*>> &loopGraph,
std::map<std::string, std::vector<Messages>> &SPF_messages);

24
src/PrivateAnalyzer/private_arrays_search.cpp
View File

@@ -124,16 +124,30 @@ static void SolveDataFlow(Region* DFG)
map<LoopGraph*, ArrayAccessingIndexes> FindPrivateArrays(map<string, vector<LoopGraph*>> &loopGraph, map<FuncInfo*, vector<SAPFOR::BasicBlock*>>& FullIR)
{
map<LoopGraph*, ArrayAccessingIndexes> result;
for (const auto& [loopName, loops] : loopGraph)
for (const auto& [fileName, loops] : loopGraph)
{
SgFile::switchToFile(fileName);
for (const auto& loop : loops)
{
SgStatement* search_func = loop->loop->GetOriginal();
while (search_func && (!isSgProgHedrStmt(search_func)))
search_func = search_func->controlParent();
for (const auto& [funcInfo, blocks]: FullIR)
{
Region* loopRegion = new Region(loop, blocks);
SolveDataFlow(loopRegion);
result[loop] = loopRegion->array_priv;
delete(loopRegion);
if (funcInfo->fileName == fileName && funcInfo->funcPointer->GetOriginal() == search_func)
{
Region* loopRegion = new Region(loop, blocks);
if (loopRegion->getBasickBlocks().size() <= 1)
{
delete(loopRegion);
continue;
}
SolveDataFlow(loopRegion);
result[loop] = loopRegion->array_priv;
delete(loopRegion);
}
}
}
}

108
src/Sapfor.cpp
View File

@@ -57,7 +57,6 @@
#include "expr_transform.h"
#include "Predictor/PredictScheme.h"
#include "Predictor/PredictSchemeWithLibrary.h"
#include "Predictor/PredictorModel.h"
#include "SageAnalysisTool/depInterfaceExt.h"
#include "DvmhRegions/DvmhRegionInserter.h"
@@ -1020,8 +1019,6 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
if(func->funcPointer->variant() != ENTRY_STAT)
countOfTransform += removeDeadCode(func->funcPointer, allFuncInfo, commonBlocks);
}
else if (curr_regime == FIND_PRIVATE_ARRAYS)
FindPrivateArrays(loopGraph, fullIR);
else if (curr_regime == TEST_PASS)
{
//test pass
@@ -1729,7 +1726,103 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
}
}
else if (curr_regime == PREDICT_SCHEME)
runPredictScheme(project, topologies, parallelRegions, loopGraph, SPF_messages);
{
int maxSizeDist = 0;
for (int z = 0; z < parallelRegions.size(); ++z)
{
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
auto &tmp = dataDirectives.distrRules;
vector<pair<DIST::Array*, const DistrVariant*>> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(make_pair(tmp[z1].first, &tmp[z1].second[currentVariant[z1]]));
for (auto &elem : currentVar)
{
DIST::Array *array = elem.first;
const DistrVariant *var = elem.second;
int countBlock = 0;
for (int z = 0; z < var->distRule.size(); ++z)
if (var->distRule[z] == dist::BLOCK)
++countBlock;
maxSizeDist = std::max(maxSizeDist, countBlock);
}
}
SpfInterval *mainIterval = getMainInterval(&project, intervals, SPF_messages);
topologies.clear();
if (maxSizeDist)
{
const int procNum = 8;
//TODO:
//topologies = getTopologies(procNum, maxSizeDist);
throw -10;
const int countOfTop = topologies.size();
if (countOfTop < 0)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
for (auto &inter : intervals)
initTimeForIntervalTree(countOfTop, inter.second);
for (int z = 0; z < parallelRegions.size(); ++z)
{
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
DIST::Arrays<int> &allArrays = parallelRegions[z]->GetAllArraysToModify();
auto &tmp = dataDirectives.distrRules;
vector<pair<DIST::Array*, const DistrVariant*>> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(make_pair(tmp[z1].first, &tmp[z1].second[currentVariant[z1]]));
map<LoopGraph*, ParallelDirective*> parallelDirs;
vector<std::tuple<DIST::Array*, vector<long>, pair<string, int>>> allSingleRemotes;
for (int i = n - 1; i >= 0; --i)
{
SgFile *file = &(project.file(i));
auto fountInfo = findAllDirectives(file, getObjectForFileFromMap(file->filename(), loopGraph), parallelRegions[z]->GetId());
parallelDirs.insert(fountInfo.begin(), fountInfo.end());
auto fountRem = findAllSingleRemotes(file, parallelRegions[z]->GetId(), parallelRegions);
allSingleRemotes.insert(allSingleRemotes.end(), fountRem.begin(), fountRem.end());
}
//TODO!
//int err = predictScheme(parallelRegions[z], currentVar, allArrays.GetArrays(), parallelDirs, intervals, SPF_messages, allSingleRemotes, maxSizeDist, procNum);
/*if (err != 0)
internalExit = err;*/
}
vector<SpfInterval*> tmp = { mainIterval };
aggregatePredictedTimes(tmp);
int idx = 0;
int best = -1;
double bestSpeedUp = 0;
for (auto &top : topologies)
{
string outStr = "";
for (auto &elem : top)
outStr += std::to_string(elem) + " ";
double currS = mainIterval->exec_time / mainIterval->predictedTimes[idx];
__spf_print(1, "%d: speed up %f for top. %s\n", idx, currS, outStr.c_str());
if (best == -1 || bestSpeedUp < currS)
{
bestSpeedUp = currS;
best = idx;
}
++idx;
}
__spf_print(1, "best topology %d with speed up %f\n", best, bestSpeedUp);
}
else
for (auto &inter : intervals)
initTimeForIntervalTree(0, inter.second);
}
else if (curr_regime == CREATE_INTER_TREE)
{
if (keepFiles)
@@ -1821,6 +1914,8 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
}
else if (curr_regime == TRANSFORM_ASSUMED_SIZE_PARAMETERS)
transformAssumedSizeParameters(allFuncInfo);
else if (curr_regime == FIND_PRIVATE_ARRAYS)
auto result = FindPrivateArrays(loopGraph, fullIR);
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.;
@@ -2125,8 +2220,9 @@ void runPass(const int curr_regime, const char *proj_name, const char *folderNam
runAnalysis(*project, CALCULATE_STATS_SCHEME, false);
if (!folderName && !consoleMode || predictOn)
runAnalysis(*project, PREDICT_SCHEME, false);
//TODO: need to rewrite this to new algo
/*if (!folderName && !consoleMode || predictOn)
runAnalysis(*project, PREDICT_SCHEME, false); */
runAnalysis(*project, REMOVE_COPIES, false);
runAnalysis(*project, SWAP_LOOPS, false);

2
src/SapforData.h
View File

@@ -132,7 +132,7 @@ std::map<std::string, PredictorStats> allPredictorStats;
//for DVM INTERVALS
std::map<std::string, std::vector<SpfInterval*>> intervals; // file -> intervals
std::vector<std::vector<size_t>> topologies; // current topologies
std::vector<std::vector<long>> topologies; // current topologies
//
//for GCOV_PARSER

14
src/Utils/errors.h
View File

@@ -78,10 +78,6 @@ enum typeMessage { WARR, ERROR, NOTE };
// 60 "Format misplaced"
// 61 "Array has declaration area conflict"
// 62 "need to move common declaration to main for DECLATE"
// 63 "Failed to initialize libpredict library"
// 64 "Failed to distribute array with libpredict"
// 65 "Failed to align array with libpredict"
// 66 "Failed to process shadow_renew with libpredict"
//
// 20xx TRANSFORM GROUP
// 01 "can not convert array assign to loop"
@@ -309,7 +305,7 @@ static void printStackTrace() { };
} \
} while (0)
// Свободный - R209
// Свободный - R206
// Гайд по русификации сообщений: При добавлении нового сообщения, меняется последний сводобный идентификатор.
// В этом файле остаются только спецификаторы, для которых будет заполнен текст. Полный текст пишется в файле
// russian_errors_text.txt. Спецификаторы там тоже сохраняются, по ним в визуализаторе будет восстановлен
@@ -508,14 +504,6 @@ static const wchar_t *R183 = L"R183:";
static const wchar_t *R184 = L"R184:%s";
//1062
static const wchar_t* R205 = L"R205:%s#%s";
//1063
static const wchar_t* R206 = L"R206:";
//1064
static const wchar_t* R207 = L"R207:";
//1065
static const wchar_t* R208 = L"R208:";
//1066
static const wchar_t* R209 = L"R209:";
//2001
static const wchar_t *R94 = L"R94:";

10
src/Utils/russian_errors_text.txt
View File

@@ -184,16 +184,8 @@ R182 = "Редукционная операция по элементу масс
R183 = "Расположение операторов FORMAT не поддерживается, попробуйте применить проход Коррекция стиля кода".
//1061
R184 = "Область объявления массива '%s' конфликтует с предыдущей областью. Возможно, это вызвано использованием include-файлов. Попробуйте применить проход 'Подстановка заголовочных файлов'".
//1062
//1042
R205 = "Массив '%s' состоящий в common блоке '%s' должен иметь описание в главной программной единице для объявления в директиве DECLARE"
//1063
R206 = "Ошибка инициализации библиотеки libpredict с конфигурацией кластера: %s, код возврата: %d"
//1064
R207 = "Ошибка распределения массива '%s' с помощью libpredict, код возврата: %d"
//1065
R208 = "Ошибка выравнивания массива '%s' с массивом '%s' с помощью libpredict, код возврата: %d"
//1066
R209 = "Ошибка обработки shadow_renew для массива '%s' с помощью libpredict, код возврата: %d"
//2001
R94 = "Невозможно автоматически преобразовать данное присваивание к циклу"

2
src/Utils/version.h
View File

@@ -1,3 +1,3 @@
#pragma once
#define VERSION_SPF "2446"
#define VERSION_SPF "2447"

15
src/VisualizerCalls/get_information.cpp
View File

@@ -950,7 +950,7 @@ int SPF_ModifyArrayDistribution(void*& context, int winHandler, short *options,
extern map<string, PredictorStats> allPredictorStats;
extern map<string, vector<SpfInterval*>> intervals;
extern vector<vector<size_t>> topologies;
extern vector<vector<long>> topologies;
int SPF_CreateParallelVariant(void*& context, int winHandler, short *options, short *projName, short *folderName, int64_t *variants, int *varLen,
string &output, string &outputMessage, string &predictorStats)
@@ -1793,6 +1793,13 @@ int SPF_RenameIncludes(void*& context, int winHandler, short* options, short* pr
return simpleTransformPass(RENAME_INLCUDES, options, projName, folderName, output, outputMessage);
}
int SPF_InsertPrivateArrayDirectives(void*& context, int winHandler, short* options, short* projName, short* folderName, string& output, string& outputMessage)
{
MessageManager::clearCache();
MessageManager::setWinHandler(winHandler);
return simpleTransformPass(FIND_PRIVATE_ARRAYS, options, projName, folderName, output, outputMessage);
}
static inline void convertBackSlash(char *str, int strL)
{
for (int z = 0; z < strL; ++z)
@@ -1807,7 +1814,7 @@ static int inline runModificationPass(passes passName, short* projName, short* f
runPassesForVisualizer(projName, { passName }, folderName);
//fill data
// newFiles: <<3C><><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD> <20><><EFBFBD>, <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD>>
// newFiles: <<3C><><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD> <20><><EFBFBD>, <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD>>
string newFile;
if (SgFile::switchToFile(outFileName.c_str()) == -1)
@@ -2376,7 +2383,7 @@ const wstring Sapfor_RunAnalysis(const char* analysisName_c, const char* options
retCode = SPF_GetArrayLinks(context, winHandler, optSh, projSh, result, output, outputMessage);
else if (whichRun == "SPF_GetMaxMinBlockDistribution")
retCode = SPF_GetMaxMinBlockDistribution(context, winHandler, optSh, projSh, result, output, outputMessage);
else if (whichRun == "SPF_<EFBFBD>hangeDirectory") // russian C
else if (whichRun == "SPF_<EFBFBD>hangeDirectory") // russian C
{
if (options_c == NULL)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
@@ -2499,6 +2506,8 @@ const wstring Sapfor_RunTransformation(const char* transformName_c, const char*
retCode = SPF_InsertImplicitNone(context, winHandler, optSh, projSh, fold, output, outputMessage);
else if (whichRun == "SPF_RenameIncludes")
retCode = SPF_RenameIncludes(context, winHandler, optSh, projSh, fold, output, outputMessage);
else if (whichRun == "SPF_InsertPrivateArrayDirectives")
retCode = SPF_InsertPrivateArrayDirectives(context, winHandler, optSh, projSh, fold, output, outputMessage);
else if (whichRun == "SPF_CreateParallelVariant")
{
vector<string> splited;