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base: Alexander_KS:8905ef67b2e26674eb48e4d6e8dea5e86646498d
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
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compare: Alexander_KS:libpredict_integration
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

29 Commits
8905ef67b2 ... libpredict

Author SHA1 Message Date
IgorBobrov
9c3fa362ec libpredict_integration: add smart search by processes_per_processor 2026-02-22 14:00:16 +03:00
IgorBobrov
d51a5e0301 libpredict_integration: add using maxCoresCount 2026-02-21 21:46:52 +03:00
IgorBobrov
59af017e0b libpredict_integration: update libpredictor to origin/main 2026-02-21 21:44:47 +03:00
IgorBobrov
611cd8014c libpredict_integration: add iteration by processes_per_processor 2026-02-21 21:31:40 +03:00
IgorBobrov
2caaf1ce07 Update submodules to origin/main: 
- libpredictor: sync with origin/main
- dvm: sync with origin/main
 2026-02-21 20:57:56 +03:00
IgorBobrov
02d471b90f libpredict_integration: precompute libpredict params 2026-02-21 20:55:17 +03:00
IgorBobrov
ea0ee153ae libpredict_integration: template id mapping 2026-02-21 20:55:17 +03:00
IgorBobrov
c9134ddddd libpredict_integration: update libpredict 2026-02-21 20:55:09 +03:00
IgorBobrov
704646c1a5 libpredict_integration: fix signatures 2026-02-21 20:52:53 +03:00
IgorBobrov
4cb9f5070b libpredict_integration: init 2026-02-21 20:52:53 +03:00
Alexander_KS
ca77cc05d5 Merge pull request 'fix some compiler warnings' (#74) from minor_fixes into master 2026-02-19 05:49:32 +00:00
ALEXks
a04ee16023 improved fix_common_blocks 2026-02-19 08:48:44 +03:00
ALEXks
0c4f9465df fixed getModuleSymbols 2026-02-19 08:34:58 +03:00
xnpster
9dbbe9fcdc fix some compiler warnings 2026-02-19 08:32:42 +03:00
Alexander_KS
f5d2ecf549 Merge pull request 'PRIVATE_ANALYSIS_IR: handle unreachable loops' (#75) from fix_private_scalars_analysis into master 2026-02-19 05:32:13 +00:00
xnpster
eee6f30f94 PRIVATE_ANALYSIS_IR: handle unreachable loops 2026-02-19 00:03:13 +03:00
ALEXks
11b3ecba2e dvm updated 2026-02-18 20:43:04 +03:00
ALEXks
d4e7b39acd dvm updated 2026-02-18 19:58:50 +03:00
ALEXks
d8e5c1bdf6 fixed shadow grouping 2026-02-14 10:15:28 +03:00
ALEXks
9afdf2a98b added CFG_withUnreachable option 2026-02-14 10:05:25 +03:00
ALEXks
6091fa474d improved CFG settings 2026-02-14 09:59:20 +03:00
ALEXks
bc9c7cba5c turn on staticShadowAnalysis option 2026-02-14 08:39:57 +03:00
ALEXks
c1d94be0be fixed private filling 2026-02-10 09:18:44 +03:00
ALEXks
d78753888f fixed deps 2026-02-06 08:28:18 +03:00
ALEXks
025bbbe259 fixed getNameInLocation for module functions 2026-02-05 15:01:05 +03:00
ALEXks
076a0c9699 fixed unparsing COMMON list 2026-02-05 13:52:24 +03:00
ALEXks
90b311d049 fixed GetDeclSymbol 2026-02-04 16:34:19 +03:00
ALEXks
5a1377e7ea fixed ChangeName function for common 2026-02-03 09:26:06 +03:00
ALEXks
b90d200fad fixed different names of same arrays in common 2026-02-01 12:25:54 +03:00
31 changed files with 1034 additions and 268 deletions
Expand all files Collapse all files

4
CMakeLists.txt
View File

@@ -338,7 +338,9 @@ set(MAIN src/Sapfor.cpp
src/Utils/PassManager.h) src/Utils/PassManager.h)
set(PREDICTOR src/Predictor/PredictScheme.cpp set(PREDICTOR src/Predictor/PredictScheme.cpp
src/Predictor/PredictScheme.h) src/Predictor/PredictScheme.h
src/Predictor/PredictSchemeWithLibrary.cpp
src/Predictor/PredictSchemeWithLibrary.h)
set(LIBPREDICTOR ${libpred_sources}/cluster.cpp set(LIBPREDICTOR ${libpred_sources}/cluster.cpp
${libpred_sources}/predictor.cpp ${libpred_sources}/predictor.cpp

2
projects/dvm

Submodule projects/dvm updated: 3aad02affb...7d374b7cc1

2
projects/libpredictor

Submodule projects/libpredictor updated: d08cb25cc6...7e57477dfa

5
src/CFGraph/CFGraph.cpp
View File

@@ -1162,8 +1162,9 @@ 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__);
for (auto& [func, blocks] : result) if (!settings.withUnreachable)
removedUnreachableBlocks(blocks); for (auto& [func, blocks] : result)
removedUnreachableBlocks(blocks);
return result; return result;
} }

59
src/CFGraph/CFGraph.h
View File

@@ -105,23 +105,52 @@ 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 = true; bool withRD = false;
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 = true; bool withCallFrom = false;
bool withDominators = true; bool withDominators = false;
bool withUnreachable = false;
explicit CFG_Settings(int) { } explicit CFG_Settings(const std::set<setting> &settings = { CFG_withRD, CFG_withCallFrom, CFG_withDominators })
{
explicit CFG_Settings(bool atLeastOneIterInLoop = false, bool withRD = true, bool withRegisters = false, for (auto& set : settings)
bool withDVM = false, bool withSPF = false, bool withCallsInBlocks = false, {
bool withCallFrom = true, bool withDominators = true) : if (set == CFG_atLeastOneIterInLoop)
atLeastOneIterInLoop(atLeastOneIterInLoop), withRD(withRD), withRegisters(withRegisters), withDVM(withDVM), withSPF(withSPF), atLeastOneIterInLoop = true;
withCallsInBlocks(withCallsInBlocks), withCallFrom(withCallFrom), withDominators(withDominators) else if (set == CFG_withRD)
{ } 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__);
}
}
}; };
} }

6
src/CFGraph/private_variables_analysis.cpp
View File

@@ -321,6 +321,12 @@ 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__);

1
src/DirectiveProcessing/directive_creator_base.cpp
View File

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

64
src/DirectiveProcessing/insert_directive.cpp
View File

@@ -853,12 +853,21 @@ 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;
@@ -877,7 +886,8 @@ getNewDirective(const string &fullArrayName,
for (int i = 0; i < dataDir.alignRules.size(); ++i) for (int i = 0; i < dataDir.alignRules.size(); ++i)
{ {
if (dataDir.alignRules[i].alignArray->GetName() == fullArrayName) auto alignArray = dataDir.alignRules[i].alignArray;
if (alignArray->GetName() == fullArrayName)
{ {
string rule = alignRules[i]; string rule = alignRules[i];
if (allocatableStmts.size()) if (allocatableStmts.size())
@@ -889,21 +899,21 @@ getNewDirective(const string &fullArrayName,
it = rule.find("ALIGN", it + 7); it = rule.find("ALIGN", it + 7);
} }
auto renamePair = getModuleRename(allocatableStmts, dataDir.alignRules[i].alignArray); auto renamePair = getModuleRename(allocatableStmts, alignArray);
if (renamePair.first != "") doRename(rule, renamePair);
{ }
it = rule.find(renamePair.first); else if (alignArray->GetLocation().first == DIST::l_COMMON)
if (it != string::npos) {
if (rule[it + renamePair.first.size()] == '(' && rule[it - 1] == ' ') auto symb = alignArray->GetDeclSymbol(position_decl);
rule = rule.replace(it, renamePair.first.size(), renamePair.second); if (symb->identifier() != alignArray->GetShortName())
} doRename(rule, make_pair(alignArray->GetShortName(), symb->identifier()));
} }
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(dataDir.alignRules[i].alignArray, out); return make_pair(alignArray, out);
} }
} }
@@ -1743,7 +1753,7 @@ 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); pair<DIST::Array*, string> dirWithArray = getNewDirective(fullArrayName, distrRules, alignRules, dataDir, allocatableStmts, make_pair(st->fileName(), st->lineNumber()));
string toInsert = dirWithArray.second; string toInsert = dirWithArray.second;
if (toInsert != "") if (toInsert != "")
@@ -1975,20 +1985,27 @@ 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(array->GetShortName()) != dynamicArraysAdded.end()) if (dynamicArraysAdded.find(name) != dynamicArraysAdded.end())
{ {
dynamicArraysAdded.erase(array->GetShortName()); dynamicArraysAdded.erase(name);
toInsertArrays.insert(array->GetShortName()); toInsertArrays.insert(name);
} }
} }
else else
{ {
if (dynamicArraysAdded.find(array->GetShortName()) == dynamicArraysAdded.end()) if (dynamicArraysAdded.find(name) == dynamicArraysAdded.end())
{ {
dynamicArraysAdded.insert(array->GetShortName()); dynamicArraysAdded.insert(name);
toInsertArrays.insert(array->GetShortName()); toInsertArrays.insert(name);
} }
} }
} }
@@ -2145,7 +2162,14 @@ void insertShadowSpecToFile(SgFile *file, const char *fin_name, const set<string
if (needToGen) if (needToGen)
{ {
string shadowSpecInsert = "!DVM$ SHADOW " + array->GetShortName() + "("; string name = 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];
@@ -2157,7 +2181,7 @@ 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(array->GetShortName(), currSpec)); pair<SgExpression*, SgExpression*> newSpec = genShadowSpec(file, make_pair(name, 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

@@ -26,6 +26,7 @@ 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;
@@ -1672,9 +1673,12 @@ void GroupShadow(const map<string, vector<FuncInfo*>>& allFuncs,
SgStatement* func = currF->funcPointer->GetOriginal(); SgStatement* func = currF->funcPointer->GetOriginal();
auto cfg = buildCFGforCurrentFunc(func, SAPFOR::CFG_Settings(true, false, false, true, false, true, false), commonBlocks, allFuncs); const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop, CFG_Settings::CFG_withDVM,
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

55
src/Distribution/Array.h
View File

@@ -336,9 +336,24 @@ namespace Distribution
if (pos != STRING::npos) if (pos != STRING::npos)
{ {
name.erase(pos, shortName.size()); name.erase(pos, shortName.size());
shortName = newName;
name += newName; 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;
GenUniqKey(); GenUniqKey();
} }
@@ -542,6 +557,44 @@ 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/DvmhDirective.cpp
View File

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

3
src/Distribution/DvmhDirective.h
View File

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

108
src/Predictor/PredictScheme.cpp
View File

@@ -23,6 +23,7 @@
#include "expr_transform.h" #include "expr_transform.h"
#include "../LoopAnalyzer/loop_analyzer.h" #include "../LoopAnalyzer/loop_analyzer.h"
#include "CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
#include "../Utils/utils.h"
#include "json.hpp" #include "json.hpp"
@@ -33,9 +34,113 @@ 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;
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) static void fillParallel(SgExpression *exp, ParallelStats &parStats, int &totalScoreComm)
{ {
if (exp) if (exp)
@@ -507,7 +612,8 @@ 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__);
auto cfg = buildCFGforCurrentFunc(func, SAPFOR::CFG_Settings(true, false, false, true, false, false, true), commonBlocks, allFuncInfo); const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop, CFG_Settings::CFG_withSPF, CFG_Settings::CFG_withDominators });
auto cfg = buildCFGforCurrentFunc(func, settings, commonBlocks, allFuncInfo);
//TODO IP analysis //TODO IP analysis
unsigned countOfAccess = 0; unsigned countOfAccess = 0;

4
src/Predictor/PredictScheme.h
View File

@@ -60,4 +60,6 @@ public:
void processFileToPredict(SgFile *file, PredictorStats &predictorCounts); 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 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 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);

470
src/Predictor/PredictSchemeWithLibrary.cpp Normal file
View File

@@ -0,0 +1,470 @@
#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::pair;
using std::string;
using std::tuple;
using std::vector;
map<size_t, size_t> createTemplateIdMapping(const vector<ParallelRegion*>& parallelRegions)
{
size_t maxArrayId = 0;
for (int z = 0; z < parallelRegions.size(); ++z) {
const DataDirective& dataDirectives = parallelRegions[z]->GetDataDir();
for (const auto& distrRule : dataDirectives.distrRules) {
if (distrRule.first && !distrRule.first->IsTemplate()) {
maxArrayId = std::max(maxArrayId, (size_t)distrRule.first->GetId());
}
}
for (const auto& alignRule : dataDirectives.alignRules) {
if (alignRule.alignArray && !alignRule.alignArray->IsTemplate()) {
maxArrayId = std::max(maxArrayId, (size_t)alignRule.alignArray->GetId());
}
}
}
map<size_t, size_t> templateIdMapping;
size_t nextTemplateId = maxArrayId + 1;
for (int z = 0; z < parallelRegions.size(); ++z) {
const DataDirective& dataDirectives = parallelRegions[z]->GetDataDir();
for (const auto& distrRule : dataDirectives.distrRules) {
if (distrRule.first && distrRule.first->IsTemplate()) {
size_t originalId = distrRule.first->GetId();
if (templateIdMapping.find(originalId) == templateIdMapping.end()) {
templateIdMapping[originalId] = nextTemplateId++;
}
}
}
for (const auto& alignRule : dataDirectives.alignRules) {
if (alignRule.alignWith && alignRule.alignWith->IsTemplate()) {
size_t originalId = alignRule.alignWith->GetId();
if (templateIdMapping.find(originalId) == templateIdMapping.end()) {
templateIdMapping[originalId] = nextTemplateId++;
}
}
}
}
return templateIdMapping;
}
PrecomputedLibpredictParams precomputeLibpredictParams(
SgProject& project,
const vector<ParallelRegion*>& parallelRegions,
const map<string, vector<LoopGraph*>>& loopGraph,
const map<size_t, size_t>& templateIdMapping)
{
PrecomputedLibpredictParams result;
// distribute and align from 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()) {
PrecomputedDistributeParams params;
size_t originalId = array->GetId();
params.arrayId = originalId;
if (array->IsTemplate()) {
auto it = templateIdMapping.find(originalId);
if (it != templateIdMapping.end()) {
params.arrayId = it->second;
}
}
params.elemSize = array->GetTypeSize();
params.array = array;
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) {
params.axisDistributions.emplace_back(dimSize, libpredict::TypeDistribute::BLOCK);
} else {
params.axisDistributions.emplace_back(dimSize, libpredict::TypeDistribute::NONE);
}
}
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) {
params.shadowEdges.emplace_back(shadowSpec[dim].first, shadowSpec[dim].second);
}
}
result.distributeParams.push_back(params);
}
}
// align
for (const auto& alignRule : dataDirectives.alignRules) {
DIST::Array* alignArray = alignRule.alignArray;
DIST::Array* alignWithArray = alignRule.alignWith;
if (alignArray && alignWithArray && !alignArray->IsNotDistribute()) {
PrecomputedAlignParams params;
params.arrayId = alignArray->GetId();
size_t originalDistributedArrayId = alignWithArray->GetId();
params.distributedArrayId = originalDistributedArrayId;
if (alignWithArray->IsTemplate()) {
auto it = templateIdMapping.find(originalDistributedArrayId);
if (it != templateIdMapping.end()) {
params.distributedArrayId = it->second;
}
}
params.elemSize = alignArray->GetTypeSize();
params.alignArray = alignArray;
params.alignWithArray = alignWithArray;
const auto& arraySizes = alignArray->GetSizes();
for (int dim = 0; dim < alignArray->GetDimSize(); ++dim) {
size_t dimSize = arraySizes[dim].second - arraySizes[dim].first + 1;
params.dimensions.push_back(dimSize);
}
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) {
// constant
params.distributionExpressions.emplace_back(rule.second);
} else {
// linear expression a * I + b
params.distributionExpressions.emplace_back(i, rule.first, rule.second);
}
found = true;
break;
}
}
if (!found) {
// There is no rule for this measurement
params.distributionExpressions.emplace_back();
}
}
const auto& shadowSpec = alignArray->GetShadowSpec();
for (int dim = 0; dim < shadowSpec.size() && dim < alignArray->GetDimSize(); ++dim) {
params.shadowEdges.emplace_back(shadowSpec[dim].first, shadowSpec[dim].second);
}
result.alignParams.push_back(params);
}
}
// 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(), const_cast<map<string, vector<LoopGraph*>>&>(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()) {
PrecomputedShadowRenewParams params;
params.arrayId = shadowArray->GetId();
params.shadowArray = shadowArray;
for (const auto& bound : bounds) {
params.shadow_renew.emplace_back(static_cast<size_t>(bound.first),
static_cast<size_t>(bound.second));
}
params.corner = directive->shadowRenewCorner[shadowIdx];
params.number_loop_iterations = loopPtr ? static_cast<size_t>(loopPtr->countOfIters) : 1;
result.shadowRenewParams.push_back(params);
}
}
}
}
}
return result;
}
double runLibpredictCalc(const vector<size_t>& topology,
const string& clusterConfStr,
const PrecomputedLibpredictParams& precomputedParams,
map<string, vector<Messages>>& SPF_messages)
{
libpredict::RetInitGrid retInitGrid = libpredict::InitGrid(topology[0], topology[1], topology[2], topology[3]);
if (retInitGrid != libpredict::INIT_GRID_SUCCESS) {
__spf_print(1, "ERROR: Failed to initialize libpredict grid with topology: %zu %zu %zu %zu, return code: %d\n",
topology[0], topology[1], topology[2], topology[3], (int)retInitGrid);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to initialize libpredict grid with topology: %zu %zu %zu %zu, return code: %d",
topology[0], topology[1], topology[2], topology[3], (int)retInitGrid);
__spf_printToLongBuf(messageR, R207);
getObjectForFileFromMap(clusterConfStr.c_str(), SPF_messages).push_back(Messages(ERROR, 1, messageR, messageE, 1064));
return -1;
}
// distribute
for (const auto& params : precomputedParams.distributeParams) {
libpredict::RetDistribute retDistribute = libpredict::Distribute(
params.arrayId, params.elemSize, params.axisDistributions, params.shadowEdges);
if (retDistribute != libpredict::DISTRIBUTE_SUCCESS) {
__spf_print(1, "ERROR: Failed to distribute array '%s' (id=%zu) with libpredict, return code: %d\n",
params.array->GetShortName().c_str(), params.arrayId, (int)retDistribute);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to distribute array '%s' with libpredict, return code: %d",
to_wstring(params.array->GetShortName()).c_str(), (int)retDistribute);
__spf_printToLongBuf(messageR, R208);
getObjectForFileFromMap(params.array->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(Messages(ERROR, params.array->GetDeclInfo().begin()->second, messageR, messageE, 1065));
}
}
// align
for (const auto& params : precomputedParams.alignParams) {
libpredict::RetAlign retAlign = libpredict::Align(
params.arrayId, params.distributedArrayId, params.elemSize,
params.dimensions, params.distributionExpressions, params.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",
params.alignArray->GetShortName().c_str(), params.arrayId,
params.alignWithArray->GetShortName().c_str(), params.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(params.alignArray->GetShortName()).c_str(),
to_wstring(params.alignWithArray->GetShortName()).c_str(), (int)retAlign);
__spf_printToLongBuf(messageR, R209);
getObjectForFileFromMap(params.alignArray->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(Messages(ERROR, params.alignArray->GetDeclInfo().begin()->second, messageR, messageE, 1066));
}
}
// shadow_renew
for (const auto& params : precomputedParams.shadowRenewParams) {
libpredict::RetShadowRenew retShadowRenew = libpredict::ShadowRenew(
params.arrayId, params.shadow_renew, params.corner, params.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",
params.shadowArray->GetShortName().c_str(), params.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(params.shadowArray->GetShortName()).c_str(), (int)retShadowRenew);
__spf_printToLongBuf(messageR, R210);
getObjectForFileFromMap(params.shadowArray->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(Messages(ERROR, params.shadowArray->GetDeclInfo().begin()->second, messageR, messageE, 1067));
}
}
return libpredict::GetTime();
}
void runPredictScheme(SgProject& project,
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";
}
// creating template ID display to avoid conflicts
map<size_t, size_t> templateIdMapping = createTemplateIdMapping(parallelRegions);
// Precomputing parameters of directive functions from libpredict
PrecomputedLibpredictParams precomputedParams = precomputeLibpredictParams(
project, parallelRegions, loopGraph, templateIdMapping);
// iterating through topologies and processes_per_processor to find most optimal one
if (maxSizeDist) {
if (maxSizeDist > 4) {
maxSizeDist = 4;
}
// Initialize cluster
int maxCoresCount = 0;
libpredict::RetInitCluster retInitCluster = libpredict::InitCluster(clusterConfStr, maxCoresCount);
if (retInitCluster != libpredict::INIT_CLUSTER_SUCCESS) {
__spf_print(1, "ERROR: Failed to initialize libpredict cluster with config: %s, return code: %d\n", clusterConfStr.c_str(), (int)retInitCluster);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to initialize libpredict cluster with config: %s, return code: %d",
to_wstring(clusterConfStr).c_str(), (int)retInitCluster);
__spf_printToLongBuf(messageR, R206);
getObjectForFileFromMap(clusterConfStr.c_str(), SPF_messages).push_back(Messages(ERROR, 1, messageR, messageE, 1063));
return;
}
vector<size_t> bestTopology;
double bestTime = std::numeric_limits<double>::max();
size_t bestProcessesPerProcessor = 0;
int prevProcCount = -1;
for (size_t processes_per_processor = 1; processes_per_processor <= maxCoresCount; ++processes_per_processor) {
int procCount = 0;
libpredict::RetInitMapping retInitMapping = libpredict::InitMapping(processes_per_processor, procCount);
if (retInitMapping != libpredict::INIT_MAPPING_SUCCESS) {
__spf_print(1, "ERROR: Failed to initialize libpredict mapping with processes_per_processor: %zu, return code: %d\n",
processes_per_processor, (int)retInitMapping);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to initialize libpredict mapping with processes_per_processor: %zu, return code: %d",
processes_per_processor, (int)retInitMapping);
__spf_printToLongBuf(messageR, R211);
getObjectForFileFromMap(clusterConfStr.c_str(), SPF_messages).push_back(Messages(ERROR, 1, messageR, messageE, 1068));
continue;
}
if (procCount == 0) {
break; // No more processors available
}
if (procCount == prevProcCount) {
continue; // Skip with procCount value unchanged for different processes_per_processor
}
prevProcCount = procCount;
__spf_print(1, "Calculate with processes_per_processor=%zu, procCount=%d\n", processes_per_processor, procCount);
for (size_t n1 = 2; n1 <= procCount; ++n1) {
for (size_t n2 = 1; n2 <= n1 && n1 * n2 <= procCount; ++n2) {
if (n2 != 1 && maxSizeDist < 2 || n2 == 1 && maxSizeDist == 2) {
continue;
}
for (size_t n3 = 1; n3 <= n2 && n1 * n2 * n3 <= procCount; ++n3) {
if (n3 != 1 && maxSizeDist < 3 || n3 == 1 && maxSizeDist == 3) {
continue;
}
for (size_t n4 = 1; n4 <= n3 && n1 * n2 * n3 * n4 <= procCount; ++n4) {
if (n4 != 1 && maxSizeDist < 4 || n4 == 1 && maxSizeDist == 4) {
continue;
}
vector<size_t> topology = {n1, n2, n3, n4};
double currTime = runLibpredictCalc(topology, clusterConfStr, precomputedParams, SPF_messages);
string outStr = "";
for (const auto& elem : topology) {
outStr += std::to_string(elem) + " ";
}
__spf_print(1, "topology %s has time %f\n", outStr.c_str(), currTime);
if (currTime == -1) {
continue;
}
if (currTime < bestTime) {
bestTime = currTime;
bestTopology = topology;
bestProcessesPerProcessor = processes_per_processor;
}
}
}
}
}
}
if (!bestTopology.empty()) {
string outStr;
for (const auto& elem : bestTopology) {
outStr += std::to_string(elem) + " ";
}
__spf_print(1, "best topology %s with time %f (processes_per_processor=%zu)\n",
outStr.c_str(), bestTime, bestProcessesPerProcessor);
}
} else {
__spf_print(1, "impossible to calculate best topology: project does not contain distribution directives\n");
}
}

56
src/Predictor/PredictSchemeWithLibrary.h Normal file
View File

@@ -0,0 +1,56 @@
#pragma once
#include <vector>
#include <map>
#include <string>
#include "dvm.h"
#include "graph_calls.h"
#include "../../projects/libpredictor/include/libpredict/predictor.h"
struct PrecomputedDistributeParams {
size_t arrayId;
size_t elemSize;
std::vector<libpredict::DistributeAxisRule> axisDistributions;
std::vector<std::pair<size_t, size_t>> shadowEdges;
DIST::Array* array;
};
struct PrecomputedAlignParams {
size_t arrayId;
size_t distributedArrayId;
size_t elemSize;
std::vector<size_t> dimensions;
std::vector<libpredict::AlignDisplay> distributionExpressions;
std::vector<std::pair<size_t, size_t>> shadowEdges;
DIST::Array* alignArray;
DIST::Array* alignWithArray;
};
struct PrecomputedShadowRenewParams {
size_t arrayId;
std::vector<std::pair<size_t, size_t>> shadow_renew;
bool corner;
size_t number_loop_iterations;
DIST::Array* shadowArray;
};
struct PrecomputedLibpredictParams {
std::vector<PrecomputedDistributeParams> distributeParams;
std::vector<PrecomputedAlignParams> alignParams;
std::vector<PrecomputedShadowRenewParams> shadowRenewParams;
};
PrecomputedLibpredictParams precomputeLibpredictParams(
SgProject& project,
const std::vector<ParallelRegion*>& parallelRegions,
const std::map<std::string, std::vector<LoopGraph*>>& loopGraph,
const std::map<size_t, size_t>& templateIdMapping);
void runPredictScheme(SgProject& project,
const std::vector<ParallelRegion*>& parallelRegions,
std::map<std::string, std::vector<LoopGraph*>>& loopGraph,
std::map<std::string, std::vector<Messages>>& SPF_messages);
double runLibpredictCalc(const std::vector<size_t>& topology,
const std::string& clusterConfStr,
const PrecomputedLibpredictParams& precomputedParams,
std::map<std::string, std::vector<Messages>>& SPF_messages);

110
src/Sapfor.cpp
View File

@@ -58,6 +58,7 @@
#include "expr_transform.h" #include "expr_transform.h"
#include "Predictor/PredictScheme.h" #include "Predictor/PredictScheme.h"
#include "Predictor/PredictSchemeWithLibrary.h"
#include "Predictor/PredictorModel.h" #include "Predictor/PredictorModel.h"
#include "SageAnalysisTool/depInterfaceExt.h" #include "SageAnalysisTool/depInterfaceExt.h"
#include "DvmhRegions/DvmhRegionInserter.h" #include "DvmhRegions/DvmhRegionInserter.h"
@@ -1732,103 +1733,7 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
} }
} }
else if (curr_regime == PREDICT_SCHEME) else if (curr_regime == PREDICT_SCHEME)
{ runPredictScheme(project, 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) else if (curr_regime == CREATE_INTER_TREE)
{ {
if (keepFiles) if (keepFiles)
@@ -1893,7 +1798,7 @@ 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(0)); auto CFG_forFile = buildCFG(commonBlocks, allFuncInfo_IR, SAPFOR::CFG_Settings());
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());
@@ -2229,9 +2134,8 @@ void runPass(const int curr_regime, const char *proj_name, const char *folderNam
runAnalysis(*project, CALCULATE_STATS_SCHEME, false); runAnalysis(*project, CALCULATE_STATS_SCHEME, false);
//TODO: need to rewrite this to new algo if (!folderName && !consoleMode || predictOn)
/*if (!folderName && !consoleMode || predictOn) runAnalysis(*project, PREDICT_SCHEME, false);
runAnalysis(*project, PREDICT_SCHEME, false); */
runAnalysis(*project, REMOVE_COPIES, false); runAnalysis(*project, REMOVE_COPIES, false);
runAnalysis(*project, SWAP_LOOPS, false); runAnalysis(*project, SWAP_LOOPS, false);
@@ -2524,8 +2428,8 @@ 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++;

4
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 = 0; int staticShadowAnalysis = 1;
int staticPrivateAnalysis = 0; int staticPrivateAnalysis = 0;
int keepDvmDirectives = 0; int keepDvmDirectives = 0;
int keepFiles = 0; int keepFiles = 0;
@@ -132,7 +132,7 @@ std::map<std::string, PredictorStats> allPredictorStats;
//for DVM INTERVALS //for DVM INTERVALS
std::map<std::string, std::vector<SpfInterval*>> intervals; // file -> intervals std::map<std::string, std::vector<SpfInterval*>> intervals; // file -> intervals
std::vector<std::vector<long>> topologies; // current topologies std::vector<std::vector<size_t>> topologies; // current topologies
// //
//for GCOV_PARSER //for GCOV_PARSER

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

@@ -12,6 +12,7 @@ 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;
@@ -424,7 +425,8 @@ 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__);
auto cfg = buildCFGforCurrentFunc(func, SAPFOR::CFG_Settings(true, false, false, false, false, false, false), commonBlocks, allFuncs); const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop });
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__);

173
src/Transformations/GlobalVariables/fix_common_blocks.cpp
View File

@@ -18,69 +18,66 @@ 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
static void BuildNewCommDecls(SgFile* file, const map<string, CommonBlock*> allCommonBlocks, //void BuildNewCommDecls
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
static set<string> getUses(SgStatement* firstSt, const set<string>& commonVarNames); //set<string> getUses
static void getUsesFromExpr(SgExpression* expr, const set<string>& commonVarNames, set<string>& used); //void getUsesFromExpr
// splits arrays into elements and replaces not used vars with empty constraints // splits arrays into elements and replaces not used vars with empty constraints
static bool splitType(deque<CommConstraint>& d, bool check_use, const set<string>& namesOfUsedVars); //bool splitType
// create constraits set // create constraits set
static deque<CommConstraint> makeConstraints(deque<CommConstraint>& constraints, const set<string>& namesOfUsedVars, set<string>& notUsedVars); //deque<CommConstraint> makeConstraints
// build union // build union
static bool buildConstraintsUnion(deque<CommConstraint>& U, deque<CommConstraint> B, const set<string>& namesOfUsedVars, pair<CommConstraint, CommConstraint>& problemConstraints); //bool buildConstraintsUnion
static bool docheckUnequalConstraints(deque<CommConstraint>& U, deque<CommConstraint>& B, deque<CommConstraint>& newU, pair<CommConstraint, CommConstraint>& problemConstraints); //bool docheckUnequalConstraints
static bool check(deque<CommConstraint>& A, deque<CommConstraint>& B, pair<CommConstraint, CommConstraint>& problemConstraints); //bool check
/// small help functions: /// small help functions:
static string getParentName(const string& name); //string getParentName
static bool equalDims(const CommConstraint& a, const CommConstraint& b); //bool equalDims
static bool equalConstraints(const CommConstraint& a, const CommConstraint& b); //bool equalConstraints
static void addElem(deque<CommConstraint>& comm, const CommConstraint& elem); //void addElem
//////
// change names of variables in 'constraints' // change names of variables in 'constraints'
static void fixNames(deque<CommConstraint>& constraints, const string& commName); //void fixNames
////// 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
static void fixFunctions(SgFile* file, vector<SgStatement*> programUnits, map<string, deque<CommConstraint>>& newCommonDecls, //void fixFunctions
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
static bool getNamesOldToNew(deque<CommConstraint> newDecl, deque<CommConstraint> oldDecl, map<string, string>& namesOldToNew); //bool getNamesOldToNew
// create new symbols for new variables in new common declaration (constraints) // create new symbols for new variables in new common declaration (constraints)
static void makeCommVarSymbs(const deque<CommConstraint>& constraints, SgFile* file, SgStatement* func, string commName, //void makeCommVarSymbs
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
static void deleteOldVars(SgStatement* firstSt, const set<string>& commVarNames); //void deleteOldVars
// calls fixExpression for each statement, replaces names in data statement // calls fixExpression for each statement, replaces names in data statement
static void renameVariables(SgStatement* firstSt, const map<string, SgSymbol*>& newVarSymbs, const map<string, string>& namesOldToNew); //void renameVariables
// 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
static SgExpression* fixExpression(SgExpression* expr, const map<string, SgSymbol*>& newSymbs, const map<string, string>& namesOldToNew); //SgExpression* fixExpression
// make new exprList exprssion for new declaration decl with symbols from newSymbs // make new exprList exprssion for new declaration decl with symbols from newSymbs
static SgExpression* makeExprListForCommon(const deque<CommConstraint>& decl, const map<string, SgSymbol*>& newSymbs, //SgExpression* makeExprListForCommon
SgFile* file, SgStatement* firstSt);
// replace old common declarations with new ones // replace old common declarations with new ones
static void rewriteCommon(SgStatement* firstSt, map<string, SgExpression*>& commListExprs); //void rewriteCommon
/// help functions: /// help functions:
static SgExpression* makeIdxFromStr(const string& str); //SgExpression* makeIdxFromStr(const string& str);
// make new expression of array element // make new expression of array element
static SgExpression* newArrElemExpr(const string& newName, const map<string, SgSymbol*>& newSymbs); //SgExpression* newArrElemExpr
static bool variablePositionComp(const Variable* lhs, const Variable* rhs); //bool variablePositionComp
////// //////
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;
@@ -125,7 +122,6 @@ 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();
@@ -139,8 +135,7 @@ 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("(");
@@ -154,8 +149,7 @@ 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;
@@ -194,8 +188,7 @@ void getUsesFromExpr(SgExpression* expr, const set<string>& commonVarNames, set<
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();
@@ -212,8 +205,7 @@ set<string> getUses(SgStatement* firstSt, const set<string>& commonVarNames)
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();
@@ -224,11 +216,12 @@ 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
bool equalConstraints(const CommConstraint& a, const CommConstraint& b) static 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;
@@ -239,8 +232,7 @@ 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;
@@ -248,9 +240,8 @@ 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
bool splitType(deque<CommConstraint>& d, bool check_use, const set<string>& namesOfUsedVars = {}) static 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;
@@ -298,8 +289,7 @@ bool splitType(deque<CommConstraint>& d, bool check_use, const set<string>& name
} }
} }
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())
@@ -316,8 +306,7 @@ deque<CommConstraint> makeConstraints(deque<CommConstraint>& constraints, const
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())
{ {
@@ -356,8 +345,8 @@ bool check(deque<CommConstraint>& A, deque<CommConstraint>& B, pair<CommConstrai
return true; return true;
} }
static bool docheckUnequalConstraints(deque<CommConstraint>& U, deque<CommConstraint>& B, deque<CommConstraint>& newU,
bool docheckUnequalConstraints(deque<CommConstraint>& U, deque<CommConstraint>& B, deque<CommConstraint>& newU, pair<CommConstraint, CommConstraint>& problemConstraints) pair<CommConstraint, CommConstraint>& problemConstraints)
{ {
if (U.front().typeVariant == 0) if (U.front().typeVariant == 0)
{ {
@@ -380,8 +369,8 @@ bool docheckUnequalConstraints(deque<CommConstraint>& U, deque<CommConstraint>&
return true; return true;
} }
static bool buildConstraintsUnion(deque<CommConstraint>& U, deque<CommConstraint> B,
bool buildConstraintsUnion(deque<CommConstraint>& U, deque<CommConstraint> B, const set<string>& namesOfUsedVars, pair<CommConstraint, CommConstraint>& problemConstraints) const set<string>& namesOfUsedVars, pair<CommConstraint, CommConstraint>& problemConstraints)
{ {
deque<CommConstraint> newU; deque<CommConstraint> newU;
while (!U.empty() && !B.empty()) while (!U.empty() && !B.empty())
@@ -436,8 +425,8 @@ bool buildConstraintsUnion(deque<CommConstraint>& U, deque<CommConstraint> B, co
return true; return true;
} }
//TODO: check this: newDecl and oldDecl => do these variables need references?
bool getNamesOldToNew(deque<CommConstraint> newDecl, deque<CommConstraint> oldDecl, map<string, string>& namesOldToNew) static 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;
@@ -502,16 +491,18 @@ bool getNamesOldToNew(deque<CommConstraint> newDecl, deque<CommConstraint> oldDe
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)
{ {
@@ -524,8 +515,7 @@ void makeCommVarSymbs(const deque<CommConstraint>& constraints, SgFile* file, Sg
} }
} }
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;
@@ -571,12 +561,12 @@ 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;
@@ -591,13 +581,13 @@ 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)));
@@ -605,11 +595,11 @@ SgExpression* newArrElemExpr(const string& newName, const map<string, SgSymbol*>
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();
@@ -645,17 +635,18 @@ SgExpression* fixExpression(SgExpression* expr, const map<string, SgSymbol*>& ne
} }
} }
} }
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())
@@ -703,8 +694,7 @@ void renameVariables(SgStatement* firstSt, const map<string, SgSymbol*>& newVarS
} }
} }
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;
@@ -738,8 +728,7 @@ SgExpression* makeExprListForCommon(const deque<CommConstraint>& decl, const map
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())
@@ -790,12 +779,12 @@ void rewriteCommon(SgStatement* firstSt, map<string, SgExpression*>& commListExp
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)
{ {
@@ -810,26 +799,26 @@ 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)
{ {
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;
@@ -840,9 +829,11 @@ void fixFunctions(SgFile* file, vector<SgStatement*> programUnits, map<string, d
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)
@@ -856,10 +847,9 @@ void fixFunctions(SgFile* file, vector<SgStatement*> programUnits, map<string, d
} }
} }
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)
{ {
string fileName = file->filename(); string fileName = file->filename();
SgStatement* curSt = file->firstStatement(); SgStatement* curSt = file->firstStatement();
@@ -898,7 +888,8 @@ void BuildNewCommDecls(SgFile* file, const map<string, CommonBlock*> allCommonBl
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", commName.c_str(), fileName.c_str(), constraints.back().uses.back().lineNum); __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().getLineNum());
if (hasChar) if (hasChar)
{ {
badCommon.insert(commName); badCommon.insert(commName);
@@ -915,7 +906,7 @@ void BuildNewCommDecls(SgFile* file, const map<string, CommonBlock*> allCommonBl
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.varName.c_str(), y.varName.c_str(), commName.c_str(), x.fileName.c_str(), x.lineNum, y.fileName.c_str(), y.lineNum); x.getVarName(), y.getVarName(), commName.c_str(), x.getFileName(), x.getLineNum(), y.getFileName(), y.getLineNum());
} }
} }
curSt = curSt->lastNodeOfStmt(); curSt = curSt->lastNodeOfStmt();
@@ -927,7 +918,7 @@ void BuildNewCommDecls(SgFile* file, const map<string, CommonBlock*> allCommonBl
// 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
@@ -941,10 +932,12 @@ void fixCommonBlocks(const map<string, vector<FuncInfo*>> allFuncInfo, const map
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

@@ -16,12 +16,18 @@
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
@@ -42,4 +48,4 @@ 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);

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

@@ -19,6 +19,7 @@ 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
@@ -315,7 +316,7 @@ 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(0)); buildGenKillForCFG(itCFG->second, funcByName, outForFunc, gen, kill, &genForIR, &killForIR, notInitedGlobals, SAPFOR::CFG_Settings());
if (outForFunc.count(byFunc)) if (outForFunc.count(byFunc))
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
@@ -1051,7 +1052,8 @@ 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();
currIR = buildCFGforCurrentFunc(loop->loop, SAPFOR::CFG_Settings(true, true), commonBlocks, allFuncInfo); 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, settings, commonBlocks, allFuncInfo);
totalErr = splitLoop(loop, messages, deep, depInfoForLoopGraph); totalErr = splitLoop(loop, messages, deep, depInfoForLoopGraph);
if (totalErr > 0) if (totalErr > 0)

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

@@ -13,6 +13,7 @@ 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*>>;
@@ -2207,8 +2208,8 @@ static void removePrivateAnalyze(Context *ctx)
makeDeclaration(ctx->loopStmt, vector<SgSymbol*> {receiverVar}, nullptr) makeDeclaration(ctx->loopStmt, vector<SgSymbol*> {receiverVar}, nullptr)
)); ));
CFG_Type CFG_ForFunc = buildCFGforCurrentFunc(ctx->loopStmt, const auto settings = CFG_Settings({ CFG_Settings::CFG_atLeastOneIterInLoop, CFG_Settings::CFG_withRD, CFG_Settings::CFG_withCallFrom, CFG_Settings::CFG_withDominators });
SAPFOR::CFG_Settings(true, true), CFG_Type CFG_ForFunc = buildCFGforCurrentFunc(ctx->loopStmt, settings,
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__);

8
src/Utils/PassManager.h
View File

@@ -206,7 +206,9 @@ 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, 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 }); 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 });
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);
@@ -217,7 +219,7 @@ 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(GET_ALL_ARRAY_DECL) <= list({ CALL_GRAPH_IR, INSERT_NO_DISTR_FLAGS_FROM_GUI }); Pass(FILL_COMMON_BLOCKS) <= 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 });
@@ -227,7 +229,7 @@ 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({ GET_ALL_ARRAY_DECL, FILL_COMMON_BLOCKS, PARSE_OMP_DIRS }) <= Pass(PREPROC_SPF); 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);
Pass(CHECK_PAR_REG_DIR) <= Pass(FILL_PARALLEL_REG_IR); Pass(CHECK_PAR_REG_DIR) <= Pass(FILL_PARALLEL_REG_IR);

58
src/Utils/SgUtils.cpp
View File

@@ -934,8 +934,14 @@ 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()) {
privatesVars.insert(itD->second.first->GetShortName()); const auto array = itD->second.first;
if (array->IsNotDistribute())
{
auto symb = array->GetDeclSymbol(make_pair(st->fileName(), st->lineNumber()));
privatesVars.insert(symb->identifier());
}
}
} }
} }
} }
@@ -953,9 +959,21 @@ DIST::Array* getArrayFromDeclarated(SgStatement *st, const string &arrayName)
for (auto itSet = it->second.begin(); itSet != it->second.end() && !found; ++itSet) for (auto itSet = it->second.begin(); itSet != it->second.end() && !found; ++itSet)
{ {
auto itD = declaredArrays.find(*itSet); auto itD = declaredArrays.find(*itSet);
if (itD != declaredArrays.end()) if (itD != declaredArrays.end())
if (itD->second.first->GetShortName() == arrayName) {
found = itD->second.first; DIST::Array* array = 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;
@@ -1264,6 +1282,32 @@ 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)
{ {
@@ -1272,6 +1316,7 @@ 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
@@ -1307,6 +1352,7 @@ 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;
} }
} }
@@ -1314,7 +1360,7 @@ 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), string(symb->identifier())); retVal = make_tuple(commonPos, string("common_") + getCommonName(foundCommon), symbCommn);
else else
retVal = make_tuple(decl->lineNumber(), string(decl->fileName()), string(symb->identifier())); retVal = make_tuple(decl->lineNumber(), string(decl->fileName()), string(symb->identifier()));

21
src/Utils/errors.h
View File

@@ -78,7 +78,12 @@ enum typeMessage { WARR, ERROR, NOTE };
// 60 "Format misplaced" // 60 "Format misplaced"
// 61 "Array has declaration area conflict" // 61 "Array has declaration area conflict"
// 62 "need to move common declaration to main for DECLATE" // 62 "need to move common declaration to main for DECLATE"
// // 63 "Failed to initialize libpredict cluster"
// 64 "Failed to initialize libpredict grid"
// 65 "Failed to distribute array with libpredict"
// 66 "Failed to align array with libpredict"
// 67 "Failed to process shadow_renew with libpredict"
//
// 20xx TRANSFORM GROUP // 20xx TRANSFORM GROUP
// 01 "can not convert array assign to loop" // 01 "can not convert array assign to loop"
// 02 "converted arithmetic IF to simple IF" // 02 "converted arithmetic IF to simple IF"
@@ -305,7 +310,7 @@ static void printStackTrace() { };
} \ } \
} while (0) } while (0)
// Свободный - R206 // Свободный - R210
// Гайд по русификации сообщений: При добавлении нового сообщения, меняется последний сводобный идентификатор. // 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 // 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 // russian_errors_text.txt. Спецификаторы там тоже сохраняются, по ним в визуализаторе будет восстановлен
@@ -504,6 +509,18 @@ static const wchar_t *R183 = L"R183:";
static const wchar_t *R184 = L"R184:%s"; static const wchar_t *R184 = L"R184:%s";
//1062 //1062
static const wchar_t* R205 = L"R205:%s#%s"; 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:";
//1067
static const wchar_t* R210 = L"R210:";
//1068
static const wchar_t* R211 = L"R211:";
//2001 //2001
static const wchar_t *R94 = L"R94:"; static const wchar_t *R94 = L"R94:";

22
src/Utils/module_utils.cpp
View File

@@ -337,10 +337,15 @@ 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 symbs; return symbolsForFunc[func->symbol()->identifier()];
} }
static void findSymbol(SgStatement* func, const string& varName, const string& locName, static void findSymbol(SgStatement* func, const string& varName, const string& locName,
@@ -349,9 +354,19 @@ 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->identifier() == varName && orig->scope()->symbol()->identifier() == locName)
altNames[s->identifier()] = s; if (orig->variant() == FUNCTION_NAME)
{
if (orig->identifier() == varName)
altNames[s->identifier()] = s;
}
else
{
if (orig->identifier() == varName && orig->scope()->symbol()->identifier() == locName)
altNames[s->identifier()] = s;
}
} }
} }
@@ -369,6 +384,7 @@ 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__);
} }

14
src/Utils/russian_errors_text.txt
View File

@@ -184,8 +184,20 @@ R182 = "Редукционная операция по элементу масс
R183 = "Расположение операторов FORMAT не поддерживается, попробуйте применить проход Коррекция стиля кода". R183 = "Расположение операторов FORMAT не поддерживается, попробуйте применить проход Коррекция стиля кода".
//1061 //1061
R184 = "Область объявления массива '%s' конфликтует с предыдущей областью. Возможно, это вызвано использованием include-файлов. Попробуйте применить проход 'Подстановка заголовочных файлов'". R184 = "Область объявления массива '%s' конфликтует с предыдущей областью. Возможно, это вызвано использованием include-файлов. Попробуйте применить проход 'Подстановка заголовочных файлов'".
//1042 //1062
R205 = "Массив '%s' состоящий в common блоке '%s' должен иметь описание в главной программной единице для объявления в директиве DECLARE" 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 инициализации сетки libpredict с топологией: %zu %zu %zu %zu, код возврата: %d"
//1065
R208 = "Ошибка распределения массива '%s' с помощью libpredict, код возврата: %d"
//1066
R209 = "Ошибка выравнивания массива '%s' с массивом '%s' с помощью libpredict, код возврата: %d"
//1067
R210 = "Ошибка обработки shadow_renew для массива '%s' с помощью libpredict, код возврата: %d"
//1068
R211 = "Ошибка инициализации отображения libpredict с processes_per_processor: %zu, код возврата: %d"
//2001 //2001
R94 = "Невозможно автоматически преобразовать данное присваивание к циклу" R94 = "Невозможно автоматически преобразовать данное присваивание к циклу"

4
src/Utils/utils.cpp
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@@ -569,8 +569,8 @@ void copyIncludes(const set<string> &allIncludeFiles, const map<string, map<int,
while (!feof(oldFile)) while (!feof(oldFile))
{ {
char buf[8192]; char buf[16384];
char *res = fgets(buf, 16384, oldFile); char *res = fgets(buf, sizeof(buf), oldFile);
if (res == NULL) if (res == NULL)
break; break;

2
src/Utils/version.h
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@@ -1,3 +1,3 @@
#pragma once #pragma once
#define VERSION_SPF "2453" #define VERSION_SPF "2465"

8
src/VisualizerCalls/get_information.cpp
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@@ -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)
@@ -950,7 +950,7 @@ int SPF_ModifyArrayDistribution(void*& context, int winHandler, short *options,
extern map<string, PredictorStats> allPredictorStats; extern map<string, PredictorStats> allPredictorStats;
extern map<string, vector<SpfInterval*>> intervals; extern map<string, vector<SpfInterval*>> intervals;
extern vector<vector<long>> topologies; extern vector<vector<size_t>> topologies;
int SPF_CreateParallelVariant(void*& context, int winHandler, short *options, short *projName, short *folderName, int64_t *variants, int *varLen, int SPF_CreateParallelVariant(void*& context, int winHandler, short *options, short *projName, short *folderName, int64_t *variants, int *varLen,
string &output, string &outputMessage, string &predictorStats) string &output, string &outputMessage, string &predictorStats)
@@ -1823,7 +1823,7 @@ static int inline runModificationPass(passes passName, short* projName, short* f
runPassesForVisualizer(projName, { passName }, folderName); runPassesForVisualizer(projName, { passName }, folderName);
//fill data //fill data
// newFiles: <èìåíà ôàéëîâ äëÿ ìîä, ñîäåðæèìîå ôàéëà> // newFiles: <<EFBFBD><EFBFBD><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; string newFile;
if (SgFile::switchToFile(outFileName.c_str()) == -1) if (SgFile::switchToFile(outFileName.c_str()) == -1)
@@ -2392,7 +2392,7 @@ const wstring Sapfor_RunAnalysis(const char* analysisName_c, const char* options
retCode = SPF_GetArrayLinks(context, winHandler, optSh, projSh, result, output, outputMessage); retCode = SPF_GetArrayLinks(context, winHandler, optSh, projSh, result, output, outputMessage);
else if (whichRun == "SPF_GetMaxMinBlockDistribution") else if (whichRun == "SPF_GetMaxMinBlockDistribution")
retCode = SPF_GetMaxMinBlockDistribution(context, winHandler, optSh, projSh, result, output, outputMessage); retCode = SPF_GetMaxMinBlockDistribution(context, winHandler, optSh, projSh, result, output, outputMessage);
else if (whichRun == "SPF_ÑhangeDirectory") // russian C else if (whichRun == "SPF_<EFBFBD>hangeDirectory") // russian C
{ {
if (options_c == NULL) if (options_c == NULL)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);