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base: Alexander_KS:analyze_loops_with_IR
Branches Tags
Alexander_KS:master Alexander_KS:private_arrays Alexander_KS:libpredict_integration Alexander_KS:egormayorov Alexander_KS:replace_io_arrays Alexander_KS:analyze_loops_with_IR
..
compare: Alexander_KS:6fceaaf70476606613e1b23975fa9e9f8a673748
Branches Tags
Alexander_KS:master Alexander_KS:private_arrays Alexander_KS:libpredict_integration Alexander_KS:egormayorov Alexander_KS:replace_io_arrays Alexander_KS:analyze_loops_with_IR

39 Commits
analyze_lo ... 6fceaaf704

Author SHA1 Message Date
IgorBobrov
6fceaaf704 libpredict_integration: template id mapping 2025-10-22 22:45:57 +03:00
IgorBobrov
f623eaeb5b libpredict_integration: update libpredict 2025-10-22 18:19:53 +03:00
IgorBobrov
c26cc261c4 libpredict_integration: fix signatures 2025-10-05 23:06:05 +03:00
IgorBobrov
d1a9113072 libpredict_integration: init 2025-10-05 17:28:15 +03:00
Alexander_KS
47e2b961e2 Merge pull request 'replace_io_arrays' (#67) from replace_io_arrays into master 2025-10-01 18:13:01 +00:00
ALEXks
b95b336372 version updated 2025-10-01 21:12:49 +03:00
xnpster
f35d7cb4bd REMOVE_DIST_ARRAYS_FROM_IO: consider write/read statements with nested loops 2025-10-01 19:48:34 +03:00
xnpster
54615e34d4 REMOVE_DIST_ARRAYS_FROM_IO: use more general isSgVarListDeclStmt and isSgNestedVarListDeclStmt functions 2025-10-01 18:54:55 +03:00
xnpster
8752f4a139 REMOVE_DIST_ARRAYS_FROM_IO: consider labels and goto statements while inserting copy statements 2025-10-01 18:54:55 +03:00
xnpster
453105d273 REMOVE_DIST_ARRAYS_FROM_IO: consider array declarations from common blocks and dimension statements 2025-10-01 18:54:55 +03:00
Alexander_KS
cad0a0b217 Merge pull request 'cmake: set -O2 optimization level only if CMAKE_BUILD_TYPE is not specified' (#66) from cmake_linux_opt_level into master 2025-09-25 18:13:00 +00:00
xnpster
9c0fd40e7b cmake: change default optimization level to O3 2025-09-25 20:49:11 +03:00
xnpster
c7a31c8bbb cmake: set -O2 optimization level only if CMAKE_BUILD_TYPE is not specified 2025-09-25 13:44:10 +03:00
ALEXks
9900929349 refactored 2025-09-23 08:21:05 +03:00
ALEXks
e1ba299159 cleanup 2025-09-21 08:47:42 +03:00
ALEXks
8de18d1788 added json to global results 2025-09-18 21:09:43 +03:00
Alexander_KS
06aabdbee6 Merge pull request 'REMOVE_DIST_ARRAYS_FROM_IO Handle assumed-size and assumed-shape arrays' (#64) from replace_io_arrays into master 2025-09-16 05:23:30 +00:00
ALEXks
c6f290bb56 trivial, version updated 2025-09-16 08:22:53 +03:00
xnpster
49d3b9b96e REMOVE_DIST_ARRAYS_FROM_IO: revert hotfix for issue with generated intent statements 2025-09-15 21:25:57 +03:00
xnpster
280beb13cc REMOVE_DIST_ARRAYS_FROM_IO: regard generated intent statements, carefully detect assumed-shape arrays 2025-09-13 20:48:24 +03:00
xnpster
3bc9351641 REMOVE_DIST_ARRAYS_FROM_IO: do not process arrays from headers, copy from correct declarations, improve style 2025-09-13 20:48:24 +03:00
xnpster
16b2c6b42b REMOVE_DIST_ARRAYS_FROM_IO: remove debug prints 2025-09-13 20:48:24 +03:00
xnpster
fe31df0ef2 REMOVE_DIST_ARRAYS_FROM_IO: handle assumed-size and assumed-shape arrays 2025-09-13 20:48:24 +03:00
ALEXks
4c8681bfe2 dvm updated 2025-09-13 20:25:59 +03:00
ALEXks
d330a6ee23 changed line numbers to negative for INTENT and INTRINSIC 2025-09-13 20:21:56 +03:00
ALEXks
b439759e9b updated dvm for SAPFOR 2025-09-11 17:20:44 +03:00
Alexander_KS
b11973cb64 Merge pull request 'ArrayAnalysis: consider case of IO_PRIV array from module' (#65) from io_priv_module_arrays into master 2025-09-11 05:07:39 +00:00
ALEXks
df9a9a30bb fixed DIST::IO_PRIV detection 2025-09-11 08:07:14 +03:00
ALEXks
2cd02c295f fixed expression calculation, fixed addArg 2025-08-20 14:34:17 +03:00
ALEXks
278fc1ff9c fixed replace_dist_array pass: added more file switching 2025-07-27 08:52:28 +03:00
ALEXks
80eac5b957 fixed region inserter 2025-07-27 08:20:36 +03:00
ALEXks
0c9eed4bb7 fixed transformation 2025-07-27 07:59:25 +03:00
ALEXks
d3d6d0bec7 added TRANSFORM_ASSUMED_SIZE_PARAMETERS pass, fixed shared memory parallelization 2025-07-26 20:22:15 +03:00
ALEXks
3095510826 improved cmake 2025-07-22 08:54:21 +03:00
ALEXks
85e2a60183 removed createInterfacesForAssumedSize call 2025-07-09 14:46:29 +03:00
ALEXks
68bd21b7b0 fixed inout analysis for function's parameters 2025-07-09 12:00:27 +03:00
ALEXks
177433a95b turn off createInterfacesForAssumedSize call 2025-07-05 20:58:12 +03:00
ALEXks
29ece9072e fixed shared memory parallelization 2025-07-05 20:49:23 +03:00
ALEXks
feafa43f32 fixed declare insertion 2025-07-02 12:02:30 +03:00
49 changed files with 1614 additions and 1689 deletions
Expand all files Collapse all files

20
CMakeLists.txt
View File

@@ -12,6 +12,7 @@ add_definitions("-D SYS5")
add_definitions("-D YYDEBUG") add_definitions("-D YYDEBUG")
set(CMAKE_CXX_STANDARD 17) set(CMAKE_CXX_STANDARD 17)
set(CMAKE_C_STANDARD 17)
set(fdvm_include projects/dvm/fdvmh/include/fdvmh/) set(fdvm_include projects/dvm/fdvmh/include/fdvmh/)
set(fdvm_sources projects/dvm/fdvmh/tools/fdvmh/) set(fdvm_sources projects/dvm/fdvmh/tools/fdvmh/)
@@ -33,6 +34,7 @@ include_directories(src/Distribution)
include_directories(src/GraphCall) include_directories(src/GraphCall)
include_directories(src/GraphLoop) include_directories(src/GraphLoop)
include_directories(src/Transformations/ExpressionSubstitution) include_directories(src/Transformations/ExpressionSubstitution)
include_directories(src/Transformations)
#Sage lib includes #Sage lib includes
include_directories(${fdvm_include}) include_directories(${fdvm_include})
@@ -238,14 +240,14 @@ set(CFG src/CFGraph/IR.cpp
src/CFGraph/live_variable_analysis.h src/CFGraph/live_variable_analysis.h
src/CFGraph/private_variables_analysis.cpp src/CFGraph/private_variables_analysis.cpp
src/CFGraph/private_variables_analysis.h src/CFGraph/private_variables_analysis.h
src/CFGraph/IR_SSAForm.cpp )
src/CFGraph/IR_SSAForm.h)
set(DATA_FLOW set(DATA_FLOW
src/CFGraph/DataFlow/data_flow.h src/CFGraph/DataFlow/data_flow.h
src/CFGraph/DataFlow/data_flow_impl.h src/CFGraph/DataFlow/data_flow_impl.h
src/CFGraph/DataFlow/backward_data_flow.h src/CFGraph/DataFlow/backward_data_flow.h
src/CFGraph/DataFlow/backward_data_flow_impl.h) src/CFGraph/DataFlow/backward_data_flow_impl.h
)
set(CREATE_INTER_T src/CreateInterTree/CreateInterTree.cpp set(CREATE_INTER_T src/CreateInterTree/CreateInterTree.cpp
src/CreateInterTree/CreateInterTree.h) src/CreateInterTree/CreateInterTree.h)
@@ -321,9 +323,7 @@ set(GR_LOOP src/GraphLoop/graph_loops_base.cpp
set(LOOP_ANALYZER src/LoopAnalyzer/allocations_prepoc.cpp set(LOOP_ANALYZER src/LoopAnalyzer/allocations_prepoc.cpp
src/LoopAnalyzer/dep_analyzer.cpp src/LoopAnalyzer/dep_analyzer.cpp
src/LoopAnalyzer/loop_analyzer.cpp src/LoopAnalyzer/loop_analyzer.cpp
src/LoopAnalyzer/loop_analyzer.h src/LoopAnalyzer/loop_analyzer.h)
src/LoopAnalyzer/implicit_loops_analyzer.cpp
src/LoopAnalyzer/implicit_loops_analyzer.h)
set(MAIN src/Sapfor.cpp set(MAIN src/Sapfor.cpp
src/Sapfor.h src/Sapfor.h
@@ -331,7 +331,9 @@ 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 ${libpred_sources}/predictor.cpp
@@ -496,7 +498,9 @@ else()
else() else()
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11") set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++11")
endif() endif()
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -O2") if(NOT CMAKE_BUILD_TYPE)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -O3")
endif()
endif() endif()
add_subdirectory(projects/Fdvm) add_subdirectory(projects/Fdvm)

2
projects/dvm

Submodule projects/dvm updated: c550423b8e...4b7ef11871

2
projects/libpredictor

Submodule projects/libpredictor updated: d0772cdb57...e6e805a390

24
src/CFGraph/CFGraph.cpp
View File

@@ -50,30 +50,12 @@ BBlock::BasicBlock(const BBlock& copyFrom)
prev = copyFrom.prev; prev = copyFrom.prev;
} }
void BBlock::addInstruction(IR_Block* item, bool pushFront) void BBlock::addInstruction(IR_Block* item)
{ {
if (pushFront) instructions.push_back(item);
instructions.insert(instructions.begin(), item);
else
instructions.push_back(item);
item->setBasicBlock(this); item->setBasicBlock(this);
} }
void BBlock::addInstructionBefore(IR_Block* item, Instruction* before)
{
checkNull(before, convertFileName(__FILE__).c_str(), __LINE__);
checkNull(item, convertFileName(__FILE__).c_str(), __LINE__);
for (auto it = instructions.begin(); it != instructions.end(); ++it) {
if ((*it)->getInstruction() == before) {
instructions.insert(it, item);
item->setBasicBlock(this);
return;
}
}
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
}
int BBlock::removePrev(BBlock* removed) int BBlock::removePrev(BBlock* removed)
{ {
auto it = std::remove(prev.begin(), prev.end(), removed); auto it = std::remove(prev.begin(), prev.end(), removed);
@@ -530,7 +512,7 @@ static int buildReachingDefs(const vector<BBlock*>& CFG, const FuncInfo* currF,
return iter; return iter;
} }
//Kosaraju-Sharir algorithm //Kosaraju<EFBFBD>Sharir algorithm
static vector<int> getStronglyConnectedComps(vector<vector<int>>& g) { static vector<int> getStronglyConnectedComps(vector<vector<int>>& g) {
// 1. For each vertex u of the graph, mark u as unvisited. Let l be empty. // 1. For each vertex u of the graph, mark u as unvisited. Let l be empty.
auto size = g.size(); auto size = g.size();

7
src/CFGraph/CFGraph.h
View File

@@ -6,10 +6,6 @@
#include <vector> #include <vector>
#include "IR.h" #include "IR.h"
#include "../Utils/errors.h"
#include "../Utils/utils.h"
#include "../Utils/CommonBlock.h"
#include "../GraphCall/graph_calls.h"
#include "IR_domTree.h" #include "IR_domTree.h"
namespace SAPFOR namespace SAPFOR
@@ -45,8 +41,7 @@ namespace SAPFOR
BasicBlock(IR_Block* item); BasicBlock(IR_Block* item);
BasicBlock(const BasicBlock& copyFrom); BasicBlock(const BasicBlock& copyFrom);
void addInstructionBefore(IR_Block* item, Instruction* istruction); void addInstruction(IR_Block* item);
void addInstruction(IR_Block* item, bool pushFront = false);
void addPrev(BasicBlock* prev_) { prev.push_back(prev_); } void addPrev(BasicBlock* prev_) { prev.push_back(prev_); }
void addNext(BasicBlock* next_) { next.push_back(next_); } void addNext(BasicBlock* next_) { next.push_back(next_); }
void setDom(BasicBlock* dom) { directDominator = dom; } void setDom(BasicBlock* dom) { directDominator = dom; }

4
src/CFGraph/IR.h
View File

@@ -42,7 +42,6 @@ namespace SAPFOR
Argument() : number(lastNumArg++), type(CFG_ARG_TYPE::NONE), value(""), mType(CFG_MEM_TYPE::NONE_) { } Argument() : number(lastNumArg++), type(CFG_ARG_TYPE::NONE), value(""), mType(CFG_MEM_TYPE::NONE_) { }
Argument(CFG_ARG_TYPE type, CFG_MEM_TYPE mType) : number(lastNumArg++), type(type), mType(mType), value("") { } Argument(CFG_ARG_TYPE type, CFG_MEM_TYPE mType) : number(lastNumArg++), type(type), mType(mType), value("") { }
Argument(CFG_ARG_TYPE type, CFG_MEM_TYPE mType, const std::string& value) : number(lastNumArg++), type(type), mType(mType), value(value) { } Argument(CFG_ARG_TYPE type, CFG_MEM_TYPE mType, const std::string& value) : number(lastNumArg++), type(type), mType(mType), value(value) { }
Argument(CFG_ARG_TYPE type, CFG_MEM_TYPE mType, const std::string& value, int num) : number(num), type(type), mType(mType), value(value) { }
Argument(CFG_ARG_TYPE type, const std::string& value) : number(lastNumArg++), type(type), mType(CFG_MEM_TYPE::NONE_), value(value) Argument(CFG_ARG_TYPE type, const std::string& value) : number(lastNumArg++), type(type), mType(CFG_MEM_TYPE::NONE_), value(value)
{ {
if (type != CFG_ARG_TYPE::INSTR && type == CFG_ARG_TYPE::LAB && if (type != CFG_ARG_TYPE::INSTR && type == CFG_ARG_TYPE::LAB &&
@@ -51,9 +50,6 @@ namespace SAPFOR
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
} }
} }
Argument(const Argument& other)
: number(other.number), type(other.type), mType(other.mType), value(other.value)
{ }
void setType(CFG_ARG_TYPE newType) { type = newType; } void setType(CFG_ARG_TYPE newType) { type = newType; }
CFG_ARG_TYPE getType() const { return type; } CFG_ARG_TYPE getType() const { return type; }

386
src/CFGraph/IR_SSAForm.cpp
View File

@@ -1,386 +0,0 @@
#include <stdlib.h>
#include <stdio.h>
#include <vector>
#include <set>
#include "../Utils/SgUtils.h"
#include "../Utils/CommonBlock.h"
#include "../GraphCall/graph_calls.h"
#include "dvm.h"
#include "IR.h"
#include "CFGraph.h"
using namespace std;
using namespace SAPFOR;
static const SAPFOR::Argument CONST_UNDEFINED_ARG(CFG_ARG_TYPE::CONST, CFG_MEM_TYPE::COMMON_, "-1");
template <typename T> static bool compareVectors(const vector<T>* vec1, const vector<T>* vec2)
{
if (vec1 == vec2)
return true;
if (!vec1 || !vec2)
return false;
vector<T> sortedVec1 = *vec1;
vector<T> sortedVec2 = *vec2;
sort(sortedVec1.begin(), sortedVec1.end());
sort(sortedVec2.begin(), sortedVec2.end());
return sortedVec1 == sortedVec2;
}
template <typename T> static vector<T>* getCommonElements(const vector<vector<T>>* vectors)
{
if (!vectors || vectors->empty())
return new vector<T>();
vector<T>* commonElements = new vector<T>((*vectors)[0]);
for (size_t i = 1; i < vectors->size(); ++i)
{
vector<T> tempCommon;
vector<T> sortedVec = (*vectors)[i];
sort(commonElements->begin(), commonElements->end());
sort(sortedVec.begin(), sortedVec.end());
set_intersection(
commonElements->begin(), commonElements->end(),
sortedVec.begin(), sortedVec.end(),
back_inserter(tempCommon)
);
*commonElements = tempCommon;
if (commonElements->empty())
break;
}
return commonElements;
}
static map<SAPFOR::BasicBlock*, vector<SAPFOR::BasicBlock*>> findDominators(const vector<SAPFOR::BasicBlock*>& blocks)
{
map<SAPFOR::BasicBlock*, vector<SAPFOR::BasicBlock*>> result;
bool changed = true;
while (changed)
{
changed = false;
for (auto& currentBlock : blocks)
{
auto pred = currentBlock->getPrev();
auto prevDominators = new vector<vector<SAPFOR::BasicBlock*>>();
for (auto predBlock : pred)
prevDominators->push_back(result.find(predBlock) != result.end() ? result[predBlock] : blocks);
auto currentBlockResult = getCommonElements(prevDominators);
currentBlockResult->push_back(currentBlock);
if (result.find(currentBlock) == result.end() || !compareVectors(currentBlockResult, &result[currentBlock]))
{
result[currentBlock] = *currentBlockResult;
changed = true;
}
}
}
return result;
}
static map<SAPFOR::BasicBlock*, vector<SAPFOR::BasicBlock*>> findDominatorBorders(const vector<SAPFOR::BasicBlock*>& blocks)
{
map<SAPFOR::BasicBlock*, vector<SAPFOR::BasicBlock*>> result;
for (auto& block : blocks)
result[block] = *(new vector<SAPFOR::BasicBlock*>());
for (auto& block : blocks)
{
if (block->getPrev().size() > 1)
{
for (auto prev : block->getPrev())
{
auto tmpBlock = prev;
while (tmpBlock != block->getDom())
{
result[tmpBlock].push_back(block);
tmpBlock = tmpBlock->getDom();
}
}
}
}
return result;
}
static pair<set<SAPFOR::Argument*>, map<SAPFOR::Argument*, set<SAPFOR::BasicBlock*>>> getGlobalsAndVarBlocks(const vector<SAPFOR::BasicBlock*>& blocks)
{
set<SAPFOR::Argument*> globals;
map<SAPFOR::Argument*, set<SAPFOR::BasicBlock*>> varBlocks;
for (auto& block : blocks)
{
set<SAPFOR::Argument*> def;
const auto& instructions = block->getInstructions();
for (const auto& irBlock : instructions)
{
if (irBlock)
{
Instruction* instr = irBlock->getInstruction();
if (instr)
{
auto arg1 = instr->getArg1();
auto arg2 = instr->getArg2();
auto res = instr->getResult();
if (arg1 && arg1->getType() == CFG_ARG_TYPE::VAR && find(def.begin(), def.end(), arg1) == def.end())
globals.insert(arg1);
if (arg2 && arg2->getType() == CFG_ARG_TYPE::VAR && find(def.begin(), def.end(), arg2) == def.end())
globals.insert(arg2);
if (res && res->getType() == CFG_ARG_TYPE::VAR)
{
def.insert(res);
varBlocks[res].insert(block);
}
}
}
}
}
return make_pair(globals, varBlocks);
}
static void getBlocksWithFiFunctions(const vector<SAPFOR::BasicBlock*> blocks, set<SAPFOR::Argument*>& globals,
map<SAPFOR::Argument*, set<SAPFOR::BasicBlock*>>& varBlocks,
map<SAPFOR::BasicBlock*, vector<SAPFOR::BasicBlock*>>& dominatorBorders)
{
vector<SAPFOR::BasicBlock*> blocksWithFiFunctions;
auto fiFunc = new SAPFOR::Argument(CFG_ARG_TYPE::FUNC, CFG_MEM_TYPE::NONE_, "FI_FUNCTION");
auto paramCount = new SAPFOR::Argument(CFG_ARG_TYPE::CONST, CFG_MEM_TYPE::LOCAL_, "0");
for (auto& var : globals)
{
auto worklist = varBlocks[var];
set<SAPFOR::BasicBlock*> hasFiFunction;
while (!worklist.empty())
{
auto block = *worklist.begin();
worklist.erase(block);
for (auto& dfBlock : dominatorBorders[block])
{
if (hasFiFunction.find(dfBlock) == hasFiFunction.end())
{
hasFiFunction.insert(dfBlock);
Instruction* phiInstruction = new Instruction(CFG_OP::F_CALL, new SAPFOR::Argument(*fiFunc), new SAPFOR::Argument(*paramCount), var, dfBlock->getInstructions()[0]->getInstruction()->getOperator());
IR_Block* phiBlock = new IR_Block(phiInstruction);
dfBlock->addInstruction(phiBlock, true);
}
}
}
}
}
static void restoreConnections(const vector<SAPFOR::BasicBlock*>& originalBlocks, vector<SAPFOR::BasicBlock*>& copiedBlocks)
{
map<SAPFOR::BasicBlock*, SAPFOR::BasicBlock*> blockMapping;
for (size_t i = 0; i < originalBlocks.size(); ++i)
blockMapping[originalBlocks[i]] = copiedBlocks[i];
for (size_t i = 0; i < originalBlocks.size(); ++i)
{
SAPFOR::BasicBlock* originalBlock = originalBlocks[i];
SAPFOR::BasicBlock* copiedBlock = copiedBlocks[i];
auto prevCopy = copiedBlock->getPrev();
for (auto j : prevCopy)
copiedBlock->removePrev(j);
auto nextCopy = copiedBlock->getNext();
for (auto j : nextCopy)
copiedBlock->removeNext(j);
for (auto* succ : originalBlock->getNext())
copiedBlock->addNext(blockMapping[succ]);
for (auto* prev : originalBlock->getPrev())
copiedBlock->addPrev(blockMapping[prev]);
}
}
static SAPFOR::Argument* newName(SAPFOR::Argument* var, map<string, int>& counter, map<string, stack<SAPFOR::Argument*>>& stack, int number) {
counter[var->getValue()]++;
SAPFOR::Argument* newName = new SAPFOR::Argument(var->getType(), var->getMemType(), var->getValue(), number);
stack[var->getValue()].push(newName);
return newName;
}
static void renameFiFunctionResultVar(SAPFOR::BasicBlock* block, map<string, int>& counter, map<string, stack<SAPFOR::Argument*>>& stack) {
for (auto& irBlock : block->getInstructions())
{
auto instruction = irBlock->getInstruction();
if (instruction->getOperation() == CFG_OP::F_CALL && instruction->getArg1() != NULL &&
instruction->getArg1()->getValue() == "FI_FUNCTION" && instruction->getResult() != NULL)
{
instruction->setResult(newName(instruction->getResult(), counter, stack, instruction->getNumber()));
}
}
}
static void renameInstructionVars(SAPFOR::BasicBlock* block, map<string, int>& counter, map<string, stack<SAPFOR::Argument*>>& stack)
{
for (auto& irBlock : block->getInstructions())
{
auto instruction = irBlock->getInstruction();
if (instruction->getArg1() != NULL && instruction->getArg1()->getType() == CFG_ARG_TYPE::VAR)
instruction->setArg1(stack[instruction->getArg1()->getValue()].top());
if (instruction->getArg2() != NULL && instruction->getArg2()->getType() == CFG_ARG_TYPE::VAR)
instruction->setArg2(stack[instruction->getArg2()->getValue()].top());
if (instruction->getResult() != NULL && instruction->getResult()->getType() == CFG_ARG_TYPE::VAR)
instruction->setResult(newName(instruction->getResult(), counter, stack, instruction->getNumber()));
}
}
static void renameFiFunctionArgsVar(SAPFOR::BasicBlock* block, map<string, stack<SAPFOR::Argument*>>& stack)
{
auto size = block->getInstructions().size();
auto& instructions = block->getInstructions();
for (size_t i = 0; i < size; ++i)
{
auto irBlock = instructions[i];
auto instruction = irBlock->getInstruction();
if (instruction->getOperation() == CFG_OP::F_CALL && instruction->getArg1() != NULL &&
instruction->getArg1()->getValue() == "FI_FUNCTION" && instruction->getResult() != NULL &&
instruction->getArg2() != NULL)
{
Instruction* paramInstruction;
if (stack[instruction->getResult()->getValue()].size() > 0)
{
SAPFOR::Argument* tmp = new SAPFOR::Argument(CFG_ARG_TYPE::CONST, CFG_MEM_TYPE::COMMON_, to_string(stack[instruction->getResult()->getValue()].top()->getNumber()));
paramInstruction = new Instruction(CFG_OP::PARAM, tmp);
}
else
{
SAPFOR::Argument* tmp = new SAPFOR::Argument(CFG_ARG_TYPE::CONST, CFG_MEM_TYPE::COMMON_, "-1");
paramInstruction = new Instruction(CFG_OP::PARAM, tmp);
}
paramInstruction->setOperator(block->getInstructions()[0]->getInstruction()->getOperator());
block->addInstructionBefore(new IR_Block(paramInstruction), instruction);
instruction->getArg2()->setValue(to_string(stoi(instruction->getArg2()->getValue()) + 1));
i++;
}
}
}
static vector<SAPFOR::BasicBlock*> findBlocksWithValue(vector<SAPFOR::BasicBlock*>& blocks, SAPFOR::BasicBlock* x)
{
vector<SAPFOR::BasicBlock*> result;
for (auto& block : blocks)
if (block->getDom() == x)
result.push_back(block);
return result;
}
static void renameIR(SAPFOR::BasicBlock* block, vector<SAPFOR::BasicBlock*>& blocks, map<string, int>& counter, map<string, stack<SAPFOR::Argument*>>& stack)
{
renameFiFunctionResultVar(block, counter, stack);
renameInstructionVars(block, counter, stack);
for (auto& successor : block->getNext())
renameFiFunctionArgsVar(successor, stack);
for (auto& child : findBlocksWithValue(blocks, block))
renameIR(child, blocks, counter, stack);
for (auto& irBlock : block->getInstructions())
{
auto instruction = irBlock->getInstruction();
if (instruction->getResult() != NULL && instruction->getResult()->getType() == CFG_ARG_TYPE::VAR)
{
string varName = instruction->getResult()->getValue();
stack[varName].pop();
}
}
for (auto& irBlock : block->getInstructions())
{
auto instruction = irBlock->getInstruction();
if (instruction->getOperation() == CFG_OP::F_CALL && instruction->getArg1() != NULL &&
instruction->getArg1()->getValue() == "FI_FUNCTION" && instruction->getResult() != NULL)
{
string varName = instruction->getResult()->getValue();
stack[varName].pop();
}
}
}
void buildFuncIRSSAForm(FuncInfo* funcInfo, const std::vector<SAPFOR::BasicBlock*>& funcIRConst, std::map<FuncInfo*, std::vector<SAPFOR::BasicBlock*>>& result)
{
vector<SAPFOR::BasicBlock*> funcIR;
for (auto& i : funcIRConst)
funcIR.push_back(new SAPFOR::BasicBlock(*i));
restoreConnections(funcIRConst, funcIR);
SAPFOR::buildDominatorTree(funcIR);
auto dominatorBorders = findDominatorBorders(funcIR);
auto globalsAndVarBlocks = getGlobalsAndVarBlocks(funcIR);
auto globals = globalsAndVarBlocks.first;
auto varBlocks = globalsAndVarBlocks.second;
getBlocksWithFiFunctions(funcIR, globals, varBlocks, dominatorBorders);
map<string, int> count;
map<string, stack<SAPFOR::Argument*>> varStack;
for (auto& var : globals)
{
count[var->getValue()] = 0;
stack<SAPFOR::Argument*> tmp;
tmp.push(new SAPFOR::Argument(CONST_UNDEFINED_ARG));
varStack[var->getValue()] = tmp;
}
renameIR(funcIR[0], funcIR, count, varStack);
result[funcInfo] = funcIR;
}
FuncInfo* getIRByFilename(const std::map<FuncInfo*, std::vector<SAPFOR::BasicBlock*>>& fullIR, const char* filename)
{
for (auto ir : fullIR)
if (ir.first->fileName == filename)
return ir.first;
return nullptr;
}

8
src/CFGraph/IR_SSAForm.h
View File

@@ -1,8 +0,0 @@
#pragma once
#include "CFGraph.h"
#include "IR.h"
void buildFuncIRSSAForm(FuncInfo* funcInfo, const std::vector<SAPFOR::BasicBlock*>& fullIR, std::map<FuncInfo*, std::vector<SAPFOR::BasicBlock*>>& result);
FuncInfo* getIRByFilename(const std::map<FuncInfo*, std::vector<SAPFOR::BasicBlock*>>& fullIR, const char* filename);

2
src/CFGraph/IR_domTree.h
View File

@@ -7,7 +7,7 @@
#include "CFGraph.h" #include "CFGraph.h"
// Lengauer, Thomas. A fast algorithm for finding dominators in a flowgraph / Thomas Lengauer, Robert Endre Tarjan // Lengauer, Thomas. A fast algorithm for finding dominators in a flowgraph / Thomas Lengauer, Robert Endre Tarjan
// ACM Transactions on Programming Languages and Systems (TOPLAS). <20> 1979. <20> Vol. 1, no. 1. <20> Pp. 121<32>141. // ACM Transactions on Programming Languages and Systems (TOPLAS). <20> 1979. <20> Vol. 1, no. 1. <20> Pp. 121<32>141.
namespace SAPFOR { namespace SAPFOR {

2
src/DirectiveProcessing/directive_creator.cpp
View File

@@ -22,7 +22,7 @@
#include "SgUtils.h" #include "SgUtils.h"
#include "../Sapfor.h" #include "../Sapfor.h"
#include "graph_loops_func.h" #include "graph_loops_func.h"
#include "../Transformations/LoopNesting/loop_transform.h" #include "LoopNesting/loop_transform.h"
#include "expr_transform.h" #include "expr_transform.h"
#include "graph_calls_func.h" #include "graph_calls_func.h"

3
src/DirectiveProcessing/directive_creator_base.cpp
View File

@@ -10,7 +10,7 @@
#include "../ParallelizationRegions/ParRegions.h" #include "../ParallelizationRegions/ParRegions.h"
#include "../Distribution/Arrays.h" #include "../Distribution/Arrays.h"
#include "../Transformations/LoopNesting/loop_transform.h" #include "LoopNesting/loop_transform.h"
#include "errors.h" #include "errors.h"
#include "directive_parser.h" #include "directive_parser.h"
@@ -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)

2
src/DirectiveProcessing/shadow.cpp
View File

@@ -15,7 +15,7 @@
#include "SgUtils.h" #include "SgUtils.h"
#include "expr_transform.h" #include "expr_transform.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
#include "shadow.h" #include "shadow.h"
#include "dvm.h" #include "dvm.h"

8
src/Distribution/ArrayAnalysis.cpp
View File

@@ -241,13 +241,15 @@ static void findArrayRefs (SgExpression* ex, SgStatement* st, string fName, int
itNew->second.first->SetRegionPlace(reg); itNew->second.first->SetRegionPlace(reg);
const auto oldVal = itNew->second.first->GetDistributeFlagVal(); const auto oldVal = itNew->second.first->GetDistributeFlagVal();
bool isarrayInModule = (itNew->second.first->GetLocation().first == DIST::l_MODULE); bool isArrayInModule = (itNew->second.first->GetLocation().first == DIST::l_MODULE);
if (oldVal == DIST::DISTR || oldVal == DIST::NO_DISTR) if (oldVal == DIST::DISTR || oldVal == DIST::NO_DISTR)
{ {
if (itNew->second.first->IsOmpThreadPrivate()) if (itNew->second.first->IsOmpThreadPrivate())
itNew->second.first->SetDistributeFlag(DIST::SPF_PRIV); itNew->second.first->SetDistributeFlag(DIST::SPF_PRIV);
else if (privates.find(symb->identifier()) != privates.end() || isarrayInModule) else if (deprecatedByIO.find(symb->identifier()) != deprecatedByIO.end())
itNew->second.first->SetDistributeFlag(DIST::IO_PRIV);
else if (isArrayInModule || privates.find(symb->identifier()) != privates.end())
{ {
//check in module //check in module
if (itNew->second.first->GetLocation().first == DIST::l_MODULE) if (itNew->second.first->GetLocation().first == DIST::l_MODULE)
@@ -274,8 +276,6 @@ static void findArrayRefs (SgExpression* ex, SgStatement* st, string fName, int
else else
itNew->second.first->SetDistributeFlag(DIST::SPF_PRIV); itNew->second.first->SetDistributeFlag(DIST::SPF_PRIV);
} }
else if (deprecatedByIO.find(symb->identifier()) != deprecatedByIO.end())
itNew->second.first->SetDistributeFlag(DIST::IO_PRIV);
else if (isSgConstantSymb(symb) || inDataStat) else if (isSgConstantSymb(symb) || inDataStat)
itNew->second.first->SetDistributeFlag(DIST::SPF_PRIV); itNew->second.first->SetDistributeFlag(DIST::SPF_PRIV);
else else

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();

157
src/DvmhRegions/DvmhRegionInserter.cpp
View File

@@ -11,9 +11,9 @@
#include "DvmhRegionInserter.h" #include "DvmhRegionInserter.h"
#include "DvmhRegions/RegionsMerger.h" #include "DvmhRegions/RegionsMerger.h"
#include "../VerificationCode/verifications.h" #include "../VerificationCode/verifications.h"
#include "../Transformations/FunctionPurifying/function_purifying.h"
#include "../LoopAnalyzer/loop_analyzer.h" #include "../LoopAnalyzer/loop_analyzer.h"
#include "../DirectiveProcessing/directive_parser.h" #include "../DirectiveProcessing/directive_parser.h"
#include "FunctionPurifying/function_purifying.h"
using namespace std; using namespace std;
@@ -794,154 +794,6 @@ ArraySet DvmhRegionInserter::get_used_arrs_for_block(SgStatement* st, int usage_
return usages; return usages;
} }
static bool filterFromList(SgStatement* st, const set<string>& idents, bool exclude = false)
{
bool empty = false;
SgExpression* list = st->expr(0);
vector<SgExpression*> newList;
int total = 0;
while (list)
{
if (exclude)
{
if (idents.find(list->lhs()->symbol()->identifier()) == idents.end())
newList.push_back(list->lhs());
}
else
{
if (idents.find(list->lhs()->symbol()->identifier()) != idents.end())
newList.push_back(list->lhs());
}
total++;
list = list->rhs();
}
if (newList.size() == 0)
empty = true;
else if (total != newList.size())
st->setExpression(0, makeExprList(newList));
return empty;
}
static string getInterfaceBlock(SgStatement* func, const FuncParam& pars)
{
string oldFile = current_file->filename();
if (!func->switchToFile())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto copy = duplicateProcedure(func, NULL, false, false, false, true);
const set<string> idents(pars.identificators.begin(), pars.identificators.end());
bool need = (func->symbol()->identifier() == string("bl182"));
//remove all exec
SgStatement* st = copy->lexNext();
SgStatement* last = copy->lastNodeOfStmt();
vector<SgStatement*> toExtract;
while (st != last)
{
if (isDVM_stat(st) || isSPF_stat(st))
{
if (st->variant() != ACC_ROUTINE_DIR)
{
toExtract.push_back(st);
st = st->lexNext();
}
else
st = st->lexNext();
}
else if (isSgExecutableStatement(st))
{
SgStatement* next = st->lastNodeOfStmt();
if (next != last)
next = next->lexNext();
toExtract.push_back(st);
st = next;
}
else
st = st->lexNext();
}
//remove unused declarations
st = copy->lexNext();
while (st != last)
{
const int var = st->variant();
if (var == VAR_DECL
|| var == VAR_DECL_90
|| var == DIM_STAT
|| var == INTENT_STMT
|| var == EXTERN_STAT)
{
bool empty = filterFromList(st, idents);
if (empty)
{
toExtract.push_back(st);
st = st->lexNext();
continue;
}
}
else if (!isDVM_stat(st) && !isSPF_stat(st))
toExtract.push_back(st);
if (st->variant() == CONTAINS_STMT)
break;
st = st->lexNext();
}
for (auto& elem : toExtract)
elem->extractStmt();
string retVal = copy->unparse();
if (SgFile::switchToFile(oldFile) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
return retVal;
}
static void insertInterface(SgStatement* func, const string& iface, const string& fName)
{
string oldFile = current_file->filename();
if (!func->switchToFile())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
SgStatement* st = func->lexNext();
SgStatement* last = func->lastNodeOfStmt();
while (st != last)
{
if (st->variant() == VAR_DECL || st->variant() == VAR_DECL_90)
{
bool empty = filterFromList(st, { fName }, true);
if (empty)
{
SgStatement* next = st->lexNext();
st->extractStmt();
st = next;
continue;
}
}
if (isSgExecutableStatement(st))
break;
st = st->lexNext();
}
SgStatement* ifaceBlock = new SgStatement(INTERFACE_STMT);
addControlEndToStmt(ifaceBlock->thebif);
ifaceBlock->setlineNumber(getNextNegativeLineNumber()); // st->lineNumber()
ifaceBlock->setFileName(st->fileName());
st->insertStmtBefore(*ifaceBlock, *st->controlParent());
ifaceBlock->lastNodeOfStmt()->addComment(iface.c_str());
if (SgFile::switchToFile(oldFile) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
}
static LoopGraph* getParallelLoop(LoopGraph* loop) static LoopGraph* getParallelLoop(LoopGraph* loop)
{ {
auto prev_st = loop->loop->lexPrev(); auto prev_st = loop->loop->lexPrev();
@@ -1172,7 +1024,7 @@ static bool isPure(SgStatement* func)
void DvmhRegionInserter::createInterfaceBlockForOutCall(FuncInfo* func, FuncInfo* callFrom) void DvmhRegionInserter::createInterfaceBlockForOutCall(FuncInfo* func, FuncInfo* callFrom)
{ {
insertInterface(func->funcPointer, getInterfaceBlock(callFrom->funcPointer->GetOriginal(), callFrom->funcParams), callFrom->funcName); insertInterface(func->funcPointer, callFrom);
} }
void DvmhRegionInserter::createInterfaceBlockForParallelFunctions(bool onlyRoutine) void DvmhRegionInserter::createInterfaceBlockForParallelFunctions(bool onlyRoutine)
@@ -1446,6 +1298,9 @@ static set<DIST::Array*>
declStat = SgStatement::getStatementByFileAndLine(decl.first, decl.second); declStat = SgStatement::getStatementByFileAndLine(decl.first, decl.second);
if (declStat == NULL) // check in inlcudes if (declStat == NULL) // check in inlcudes
{ {
if (!main->switchToFile())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
for (auto st = main; st != main->lastNodeOfStmt() && !declStat; st = st->lexNext()) for (auto st = main; st != main->lastNodeOfStmt() && !declStat; st = st->lexNext())
{ {
if (st->fileName() == decl.first && st->lineNumber() == decl.second) if (st->fileName() == decl.first && st->lineNumber() == decl.second)
@@ -1457,7 +1312,7 @@ static set<DIST::Array*>
} }
else else
{ {
declStat = getFuncStat(declStat); declStat = getFuncStat(declStat, { BLOCK_DATA });
if (declStat != main) if (declStat != main)
{ {
declStat = NULL; declStat = NULL;

23
src/GraphCall/graph_calls.cpp
View File

@@ -14,7 +14,7 @@
#include "dvm.h" #include "dvm.h"
#include "graph_calls_func.h" #include "graph_calls_func.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
#include "graph_loops_func.h" #include "graph_loops_func.h"
#include "../DirectiveProcessing/directive_parser.h" #include "../DirectiveProcessing/directive_parser.h"
#include "SgUtils.h" #include "SgUtils.h"
@@ -779,6 +779,20 @@ static void checkSpecList(SgExpression *spec, FuncInfo* currF, const map<string,
} }
} }
static void checkInTypeDescription(SgExpression *ex, FuncInfo* currF, const map<string, int>& parNames)
{
if (ex)
{
if (ex->variant() == ARRAY_REF)
fillIn(currF, ex->lhs(), parNames, false);
else
{
checkInTypeDescription(ex->lhs(), currF, parNames);
checkInTypeDescription(ex->rhs(), currF, parNames);
}
}
}
static void fillInOut(FuncInfo *currF, SgStatement *start, SgStatement *last, const set<SgStatement*>& activeOps) static void fillInOut(FuncInfo *currF, SgStatement *start, SgStatement *last, const set<SgStatement*>& activeOps)
{ {
if (currF->funcParams.countOfPars == 0) if (currF->funcParams.countOfPars == 0)
@@ -799,7 +813,12 @@ static void fillInOut(FuncInfo *currF, SgStatement *start, SgStatement *last, co
if (st->variant() == ENTRY_STAT) if (st->variant() == ENTRY_STAT)
continue; continue;
if (isSgExecutableStatement(st) == NULL || st->lineNumber() <= 0) if (isSgExecutableStatement(st) == NULL) {
checkInTypeDescription(st->expr(0), currF, parNames);
continue;
}
if (st->lineNumber() <= 0)
continue; continue;
if (activeOps.size() && activeOps.find(st) == activeOps.end()) if (activeOps.size() && activeOps.find(st) == activeOps.end())

2
src/GraphLoop/graph_loops.cpp
View File

@@ -31,7 +31,7 @@
#include "../DirectiveProcessing/directive_parser.h" #include "../DirectiveProcessing/directive_parser.h"
#include "../DynamicAnalysis/gCov_parser_func.h" #include "../DynamicAnalysis/gCov_parser_func.h"
#include "../Transformations/VectorAssignToLoop/array_assign_to_loop.h" #include "VectorAssignToLoop/array_assign_to_loop.h"
using std::vector; using std::vector;
using std::map; using std::map;

281
src/LoopAnalyzer/implicit_loops_analyzer.cpp
View File

@@ -1,281 +0,0 @@
#include <map>
#include <set>
#include <vector>
#include <string>
#include <iostream>
#include <stack>
#include "../CFGraph/IR.h"
#include "GraphCall/graph_calls.h"
#include "implicit_loops_analyzer.h"
using namespace std;
using namespace SAPFOR;
using std::map;
using std::set;
using std::vector;
using std::pair;
using std::string;
using std::cout;
using std::endl;
using std::make_pair;
using std::to_string;
enum VisitState { UNVISITED = 0, VISITING = 1, VISITED = 2 };
void dfs(SAPFOR::BasicBlock* block,
std::map<int, int>& visit,
std::vector<std::pair<SAPFOR::BasicBlock*, SAPFOR::BasicBlock*>>& startAndEnd,
SAPFOR::BasicBlock* prev)
{
if (!block)
return;
int id = block->getNumber();
if (visit[id] == VISITING) {
startAndEnd.emplace_back(prev, block);
return;
}
if (visit[id] == VISITED)
return;
visit[id] = VISITING;
for (auto next : block->getNext())
dfs(next, visit, startAndEnd, block);
visit[id] = VISITED;
}
void getLoopBody(SAPFOR::BasicBlock* loopHeader, const std::set<SAPFOR::BasicBlock*>& loopExits, std::vector<SAPFOR::BasicBlock*>& loopBody)
{
std::set<SAPFOR::BasicBlock*> visited;
std::stack<SAPFOR::BasicBlock*> stack;
stack.push(loopHeader);
while (!stack.empty())
{
auto block = stack.top();
stack.pop();
if (visited.count(block))
continue;
visited.insert(block);
for (auto succ : block->getNext())
{
if (loopExits.count(succ))
continue;
if (!visited.count(succ))
stack.push(succ);
}
}
std::set<SAPFOR::BasicBlock*> backReachable;
std::stack<SAPFOR::BasicBlock*> reverseStack;
reverseStack.push(loopHeader);
while (!reverseStack.empty())
{
auto block = reverseStack.top();
reverseStack.pop();
if (backReachable.count(block))
continue;
backReachable.insert(block);
for (auto pred : block->getPrev())
if (visited.count(pred) && !backReachable.count(pred))
reverseStack.push(pred);
}
for (auto block : visited)
if (backReachable.count(block))
loopBody.push_back(block);
}
SAPFOR::Instruction* findDef(const SAPFOR::Argument* arg,
const std::vector<SAPFOR::BasicBlock*>& blocks)
{
if (!arg)
return nullptr;
std::string argName = arg->getValue();
for (auto block : blocks) {
for (auto instrWrapper : block->getInstructions()) {
auto instr = instrWrapper->getInstruction();
if (!instr)
continue;
auto res = instr->getResult();
if (!res)
continue;
if (res->getValue() == argName)
return instr;
}
}
return nullptr;
}
const SAPFOR::Argument* getBaseSource(const SAPFOR::Argument* arg, const std::vector<SAPFOR::BasicBlock*>& blocks)
{
while (arg && arg->getType() == CFG_ARG_TYPE::REG)
{
auto defInstr = findDef(arg, blocks);
if (!defInstr)
break;
auto defOp = defInstr->getOperation();
if (defOp == CFG_OP::ASSIGN)
arg = defInstr->getArg1();
else
break;
}
return arg;
}
void findInductiveVars(const std::vector<SAPFOR::BasicBlock*>& Loopblocks, const std::vector<SAPFOR::BasicBlock*>& blocks)
{
std::set<std::string> inductiveVars;
for (auto block : Loopblocks)
{
for (auto instrWrapper : block->getInstructions())
{
auto instr = instrWrapper->getInstruction();
if (!instr)
continue;
auto res = instr->getResult();
if (!res || res->getType() != SAPFOR::CFG_ARG_TYPE::VAR)
continue;
while (instr && instr->getOperation() == CFG_OP::ASSIGN)
instr = findDef(instr->getArg1(), blocks);
if (!instr || instr->getOperation() != CFG_OP::ADD && instr->getOperation() != CFG_OP::SUBT)
continue;
auto arg1 = getBaseSource(instr->getArg1(), blocks);
auto arg2 = getBaseSource(instr->getArg2(), blocks);
bool ok = false;
if (res->getValue() == arg1->getValue() && arg2->getType() == CFG_ARG_TYPE::CONST)
ok = true;
else if (res->getValue() == arg2->getValue() && arg1->getType() == CFG_ARG_TYPE::CONST)
ok = true;
if (ok)
inductiveVars.insert(res->getValue());
}
}
if (inductiveVars.empty())
std::cout << "No inductive variables found." << std::endl;
else
for (const auto& var : inductiveVars)
std::cout << "Inductive variable: " << var << std::endl;
}
Instruction* findInstructionAfterLoop(const std::vector<SAPFOR::BasicBlock*>& loopBody)
{
std::set<SAPFOR::BasicBlock*> loopSet(loopBody.begin(), loopBody.end());
for (auto block : loopBody)
{
for (auto succ : block->getNext())
{
if (!loopSet.count(succ))
{
auto instructions = succ->getInstructions();
if (instructions.empty())
std::cout << "Exit block has no instructions." << std::endl;
for (auto wrapper : instructions)
if (auto instr = wrapper->getInstruction())
return instr;
}
}
}
return nullptr;
}
void findImplicitLoops(const std::vector<SAPFOR::BasicBlock*>& irSSA, const std::vector<LoopGraph*> loopGraph)
{
map<int, int> visited;
for (auto i : irSSA)
visited[i->getNumber()] = UNVISITED;
vector<pair<SAPFOR::BasicBlock*, SAPFOR::BasicBlock*>> startAndEnd;
dfs(irSSA[0], visited, startAndEnd, NULL);
vector<LoopGraph*> loops;
for (auto& [tail, header] : startAndEnd)
{
set<SAPFOR::BasicBlock*> loopExits;
for (auto succ : tail->getNext())
if (succ != header)
loopExits.insert(succ);
vector<SAPFOR::BasicBlock*> loopBody;
getLoopBody(header, loopExits, loopBody);
findInductiveVars(loopBody, irSSA);
Instruction* instructionAfterLoop = findInstructionAfterLoop(loopBody);
if (instructionAfterLoop == NULL)
{
cout << "Warning: instruction after loop not found!" << endl;
continue;
}
auto firstInstruction = header->getInstructions()[0]->getInstruction();
auto lastInstruction = tail->getInstructions().back()->getInstruction();
auto tmpLoop = new LoopGraph();
tmpLoop->lineNum = firstInstruction->getOperator()->lineNumber();
tmpLoop->lineNumAfterLoop = instructionAfterLoop->getOperator()->lineNumber();
if (firstInstruction->getOperator()->variant() == FOR_NODE)
{
SgForStmt* stmt = isSgForStmt(firstInstruction->getOperator());
cout << "for loop" << endl;
}
else if (firstInstruction->getOperator()->variant() == WHILE_NODE)
{
SgWhileStmt* stmt = isSgWhileStmt(firstInstruction->getOperator());
cout << (stmt->conditional() == NULL ? "infinit" : "") << "while loop" << endl;
}
else if (firstInstruction->getOperator()->variant() == DO_WHILE_NODE)
{
SgWhileStmt* stmt = isSgDoWhileStmt(firstInstruction->getOperator());
cout << "do while loop" << endl;
}
else if (firstInstruction->getOperator()->variant() == LOOP_NODE)
{
cout << "not known loop" << endl;
}
else
{
cout << "goto loop" << endl;
}
cout << "loop start line " << tmpLoop->lineNum << endl;
cout << "after loop line " << tmpLoop->lineNumAfterLoop << endl << endl;
loops.push_back(tmpLoop);
}
}

7
src/LoopAnalyzer/implicit_loops_analyzer.h
View File

@@ -1,7 +0,0 @@
#pragma once
#include <map>
#include "../CFGraph/CFGraph.h"
#include "../GraphCall/graph_calls.h"
void findImplicitLoops(const std::vector<SAPFOR::BasicBlock*>& fullIR_SSA, const std::vector<LoopGraph*> loopGraph);

2
src/LoopAnalyzer/loop_analyzer.cpp
View File

@@ -48,7 +48,7 @@ extern int passDone;
#include "../VisualizerCalls/get_information.h" #include "../VisualizerCalls/get_information.h"
#include "../VisualizerCalls/SendMessage.h" #include "../VisualizerCalls/SendMessage.h"
#include "../Transformations/LoopEndDoConverter/enddo_loop_converter.h" #include "LoopEndDoConverter/enddo_loop_converter.h"
#include "../DirectiveProcessing/remote_access.h" #include "../DirectiveProcessing/remote_access.h"
#include "../DirectiveProcessing/directive_omp_parser.h" #include "../DirectiveProcessing/directive_omp_parser.h"

2
src/ParallelizationRegions/resolve_par_reg_conflicts.cpp
View File

@@ -18,7 +18,7 @@
#include "../DirectiveProcessing/insert_directive.h" #include "../DirectiveProcessing/insert_directive.h"
#include "SgUtils.h" #include "SgUtils.h"
#include "expr_transform.h" #include "expr_transform.h"
#include "../Transformations/FunctionPurifying/function_purifying.h" #include "FunctionPurifying/function_purifying.h"
using std::map; using std::map;
using std::pair; using std::pair;

106
src/Predictor/PredictScheme.cpp
View File

@@ -22,7 +22,8 @@
#include "graph_loops_func.h" #include "graph_loops_func.h"
#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"
@@ -36,6 +37,109 @@ using std::tuple;
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)

2
src/Predictor/PredictScheme.h
View File

@@ -61,3 +61,5 @@ 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);

390
src/Predictor/PredictSchemeWithLibrary.cpp Normal file
View File

@@ -0,0 +1,390 @@
#include "leak_detector.h"
#include <limits>
#include <map>
#include <vector>
#include <string>
#include <tuple>
#include "dvm.h"
#include "PredictSchemeWithLibrary.h"
#include "../../projects/libpredictor/include/libpredict/predictor.h"
#include "../DirectiveProcessing/directive_parser.h"
#include "../Distribution/DvmhDirective.h"
#include "../ParallelizationRegions/ParRegions.h"
#include "../GraphLoop/graph_loops_func.h"
#include "../Utils/errors.h"
#include "../Utils/utils.h"
using std::map;
using std::string;
using std::vector;
using std::pair;
using std::tuple;
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;
}
// TODO: вычислять директивы разово заранее
double runLibpredictCalc(SgProject &project,
const vector<size_t>& topology,
const string& clusterConfStr,
const vector<ParallelRegion*> &parallelRegions,
map<string, vector<LoopGraph*>>& loopGraph,
map<string, vector<Messages>> &SPF_messages,
const map<size_t, size_t> &templateIdMapping)
{
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 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()) {
size_t originalId = array->GetId();
size_t arrayId = originalId;
if (array->IsTemplate()) {
auto it = templateIdMapping.find(originalId);
if (it != templateIdMapping.end()) {
arrayId = it->second;
}
}
size_t elemSize = array->GetTypeSize();
vector<libpredict::DistributeAxisRule> axisDistributions;
const auto& arraySizes = array->GetSizes();
for (int dim = 0; dim < array->GetDimSize(); ++dim) {
size_t dimSize = arraySizes[dim].second - arraySizes[dim].first + 1;
if (dim < variant->distRule.size() && variant->distRule[dim] == dist::BLOCK) {
axisDistributions.emplace_back(dimSize, libpredict::TypeDistribute::BLOCK);
} else {
axisDistributions.emplace_back(dimSize, libpredict::TypeDistribute::NONE);
}
}
vector<pair<size_t, size_t>> shadowEdges;
const auto& shadowSpec = array->GetShadowSpec();
for (int dim = 0; dim < shadowSpec.size() && dim < array->GetDimSize(); ++dim) {
if (dim < variant->distRule.size() && variant->distRule[dim] == dist::BLOCK) {
shadowEdges.emplace_back(shadowSpec[dim].first, shadowSpec[dim].second);
}
}
libpredict::RetDistribute retDistribute = libpredict::Distribute(arrayId, elemSize, axisDistributions, shadowEdges);
if (retDistribute != libpredict::DISTRIBUTE_SUCCESS) {
__spf_print(1, "ERROR: Failed to distribute array '%s' (id=%zu) with libpredict, return code: %d\n",
array->GetShortName().c_str(), arrayId, (int)retDistribute);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to distribute array '%s' with libpredict, return code: %d",
to_wstring(array->GetShortName()).c_str(), (int)retDistribute);
__spf_printToLongBuf(messageR, R208);
getObjectForFileFromMap(array->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(
Messages(ERROR, array->GetDeclInfo().begin()->second, messageR, messageE, 1065));
}
}
}
// align
for (const auto& alignRule : dataDirectives.alignRules) {
DIST::Array* alignArray = alignRule.alignArray;
DIST::Array* alignWithArray = alignRule.alignWith;
if (alignArray && alignWithArray && !alignArray->IsNotDistribute()) {
size_t arrayId = alignArray->GetId();
size_t originalDistributedArrayId = alignWithArray->GetId();
size_t distributedArrayId = originalDistributedArrayId;
if (alignWithArray->IsTemplate()) {
auto it = templateIdMapping.find(originalDistributedArrayId);
if (it != templateIdMapping.end()) {
distributedArrayId = it->second;
}
}
size_t elemSize = alignArray->GetTypeSize();
const auto& arraySizes = alignArray->GetSizes();
vector<size_t> dimensions;
for (int dim = 0; dim < alignArray->GetDimSize(); ++dim) {
size_t dimSize = arraySizes[dim].second - arraySizes[dim].first + 1;
dimensions.push_back(dimSize);
}
vector<libpredict::AlignDisplay> distributionExpressions;
for (int dim = 0; dim < alignWithArray->GetDimSize(); ++dim) {
bool found = false;
for (int i = 0; i < alignRule.alignRuleWith.size(); ++i) {
const auto& ruleWith = alignRule.alignRuleWith[i];
if (ruleWith.first == dim) {
const auto& rule = ruleWith.second;
if (rule.first == 0) {
// Константа
distributionExpressions.emplace_back(rule.second);
} else {
// Линейное выражение a * I + b
distributionExpressions.emplace_back(i, rule.first, rule.second);
}
found = true;
break;
}
}
if (!found) {
// Нет правила для этого измерения
distributionExpressions.emplace_back();
}
}
vector<pair<size_t, size_t>> shadowEdges;
const auto& shadowSpec = alignArray->GetShadowSpec();
for (int dim = 0; dim < shadowSpec.size() && dim < alignArray->GetDimSize(); ++dim) {
shadowEdges.emplace_back(shadowSpec[dim].first, shadowSpec[dim].second);
}
libpredict::RetAlign retAlign = libpredict::Align(arrayId, distributedArrayId, elemSize, dimensions, distributionExpressions, shadowEdges);
if (retAlign != libpredict::ALIGN_SUCCESS) {
__spf_print(1, "ERROR: Failed to align array '%s' (id=%zu) with array '%s' (id=%zu), return code: %d\n",
alignArray->GetShortName().c_str(), arrayId,
alignWithArray->GetShortName().c_str(), distributedArrayId, (int)retAlign);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to align array '%s' with array '%s' using libpredict, return code: %d",
to_wstring(alignArray->GetShortName()).c_str(),
to_wstring(alignWithArray->GetShortName()).c_str(), (int)retAlign);
__spf_printToLongBuf(messageR, R209);
getObjectForFileFromMap(alignArray->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(
Messages(ERROR, alignArray->GetDeclInfo().begin()->second, messageR, messageE, 1066));
}
}
}
// shadow_renew
map<LoopGraph*, ParallelDirective*> parallelDirs;
for (int i = project.numberOfFiles() - 1; i >= 0; --i) {
SgFile *file = &(project.file(i));
auto fountInfo = findAllDirectives(file, getObjectForFileFromMap(file->filename(), loopGraph), parallelRegions[z]->GetId());
parallelDirs.insert(fountInfo.begin(), fountInfo.end());
}
for (auto& dirPair : parallelDirs) {
LoopGraph* loopPtr = dirPair.first;
ParallelDirective* directive = dirPair.second;
if (directive && !directive->shadowRenew.empty()) {
for (size_t shadowIdx = 0; shadowIdx < directive->shadowRenew.size(); ++shadowIdx) {
const auto& shadowRenewItem = directive->shadowRenew[shadowIdx];
const string& arrayName = shadowRenewItem.first.second; // uniqName
const vector<pair<int, int>>& bounds = shadowRenewItem.second;
DIST::Array* shadowArray = allArrays.GetArrayByName(arrayName);
if (shadowArray == NULL)
continue;
if (shadowArray && !shadowArray->IsNotDistribute()) {
size_t arrayId = shadowArray->GetId();
vector<pair<size_t, size_t>> shadow_renew;
for (const auto& bound : bounds) {
shadow_renew.emplace_back(static_cast<size_t>(bound.first),
static_cast<size_t>(bound.second));
}
bool corner = directive->shadowRenewCorner[shadowIdx];
size_t number_loop_iterations = loopPtr ? static_cast<size_t>(loopPtr->countOfIters) : 1;
libpredict::RetShadowRenew retShadowRenew = libpredict::ShadowRenew(arrayId, shadow_renew, corner, number_loop_iterations);
if (retShadowRenew != libpredict::SHADOW_RENEW_SUCCESS) {
__spf_print(1, "ERROR: Failed to process shadow_renew for array '%s' (id=%zu), return code: %d\n",
shadowArray->GetShortName().c_str(), arrayId, (int)retShadowRenew);
std::wstring messageR, messageE;
__spf_printToLongBuf(messageE, L"Failed to process shadow_renew for array '%s' with libpredict, return code: %d",
to_wstring(shadowArray->GetShortName()).c_str(), (int)retShadowRenew);
__spf_printToLongBuf(messageR, R210);
getObjectForFileFromMap(shadowArray->GetDeclInfo().begin()->first.c_str(), SPF_messages).push_back(
Messages(ERROR, shadowArray->GetDeclInfo().begin()->second, messageR, messageE, 1067));
}
}
}
}
}
}
return libpredict::GetTime();
}
void runPredictScheme(SgProject &project,
vector<vector<size_t>> &topologies,
const vector<ParallelRegion*> &parallelRegions,
map<string, vector<LoopGraph*>>& loopGraph,
map<string, vector<Messages>> &SPF_messages)
{
// calculating maximum dimension of distribution
int maxSizeDist = 0;
for (int z = 0; z < parallelRegions.size(); ++z) {
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
auto &tmp = dataDirectives.distrRules;
vector<const DistrVariant*> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(&tmp[z1].second[currentVariant[z1]]);
for (auto var : currentVar) {
int countBlock = 0;
for (int z = 0; z < var->distRule.size(); ++z)
if (var->distRule[z] == dist::BLOCK)
++countBlock;
maxSizeDist = std::max(maxSizeDist, countBlock);
}
}
// calculating name of a cluster configuration file
string clusterConfStr;
if (project.numberOfFiles() > 0) {
string firstFilePath = project.fileName(0);
size_t lastSlash = firstFilePath.find_last_of("/\\");
clusterConfStr = firstFilePath.substr(0, lastSlash + 1) + "cluster.conf";
}
// creating template ID display to avoid conflicts
map<size_t, size_t> templateIdMapping = createTemplateIdMapping(parallelRegions);
// iterating through topologies to find most optimal one
topologies = vector<vector<size_t>>();
if (maxSizeDist) {
if (maxSizeDist > 4) maxSizeDist = 4;
// Initialize cluster
int procCount = 0;
libpredict::RetInitCluster retInitCluster = libpredict::InitCluster(clusterConfStr, procCount);
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;
}
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;
topologies.push_back(vector<size_t>{n1, n2, n3, n4});
}
}
}
}
vector<size_t> best;
double bestTime = std::numeric_limits<double>::max();
for (auto &topology : topologies) {
double currTime = runLibpredictCalc(project, topology, clusterConfStr, parallelRegions, loopGraph, SPF_messages, templateIdMapping);
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)
return;
if (currTime < bestTime) {
bestTime = currTime;
best = topology;
}
}
string outStr;
for (const auto &elem : best)
outStr += std::to_string(elem) + " ";
__spf_print(1, "best topology %s with time %f\n", outStr.c_str(), bestTime);
} else {
__spf_print(1, "impossible to calculate best topology: project does not contain distribution directives\n");
}
}

20
src/Predictor/PredictSchemeWithLibrary.h Normal file
View File

@@ -0,0 +1,20 @@
#pragma once
#include <vector>
#include <map>
#include <string>
#include "dvm.h"
#include "graph_calls.h"
void runPredictScheme(SgProject &project,
std::vector<std::vector<size_t>> &topologies,
const std::vector<ParallelRegion*> &parallelRegions,
std::map<std::string, std::vector<LoopGraph*>>& loopGraph,
std::map<std::string, std::vector<Messages>> &SPF_messages);
double runLibpredictCalc(SgProject &project,
const std::vector<size_t>& topology,
const std::string& clusterConfStr,
const std::vector<ParallelRegion*> &parallelRegions,
std::map<std::string, std::vector<LoopGraph*>>& loopGraph,
std::map<std::string, std::vector<Messages>> &SPF_messages,
const std::map<size_t, size_t> &templateIdMapping);

2
src/PrivateAnalyzer/private_analyzer.cpp
View File

@@ -12,7 +12,7 @@
#include "graph_calls.h" #include "graph_calls.h"
#include "private_analyzer.h" #include "private_analyzer.h"
#include "dvm.h" #include "dvm.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
using std::vector; using std::vector;

6
src/PrivateAnalyzer/private_arrays_search.cpp
View File

@@ -11,11 +11,11 @@
#include "region.h" #include "region.h"
#include "SgUtils.h" #include "SgUtils.h"
#include "graph_loops.h" #include "graph_loops.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
using namespace std; using namespace std;
void Collapse(Region* region) static void Collapse(Region* region)
{ {
if (region->getBasickBlocks().empty()) if (region->getBasickBlocks().empty())
return; return;
@@ -121,7 +121,7 @@ static void SolveDataFlow(Region* DFG)
Collapse(DFG); Collapse(DFG);
} }
map<LoopGraph*, ArrayAccessingIndexes> findPrivateArrays(map<string, vector<LoopGraph*>> &loopGraph, map<FuncInfo*, vector<SAPFOR::BasicBlock*>>& FullIR) map<LoopGraph*, ArrayAccessingIndexes> FindPrivateArrays(map<string, vector<LoopGraph*>> &loopGraph, map<FuncInfo*, vector<SAPFOR::BasicBlock*>>& FullIR)
{ {
map<LoopGraph*, ArrayAccessingIndexes> result; map<LoopGraph*, ArrayAccessingIndexes> result;
for (const auto& [loopName, loops] : loopGraph) for (const auto& [loopName, loops] : loopGraph)

6
src/PrivateAnalyzer/private_arrays_search.h
View File

@@ -5,10 +5,8 @@
#include <unordered_set> #include <unordered_set>
#include "range_structures.h" #include "range_structures.h"
#include "region.h"
#include "graph_loops.h" #include "graph_loops.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
void Collapse(Region* region); std::map<LoopGraph*, ArrayAccessingIndexes> FindPrivateArrays(std::map<std::string, std::vector<LoopGraph*>>& loopGraph, std::map<FuncInfo*, std::vector<SAPFOR::BasicBlock*>>& FullIR);
std::map<LoopGraph*, ArrayAccessingIndexes> findPrivateArrays(std::map<std::string, std::vector<LoopGraph*>>& loopGraph, std::map<FuncInfo*, std::vector<SAPFOR::BasicBlock*>>& FullIR);
std::pair<SAPFOR::BasicBlock*, std::unordered_set<SAPFOR::BasicBlock*>> GetBasicBlocksForLoop(const LoopGraph* loop, const std::vector<SAPFOR::BasicBlock*> blocks); std::pair<SAPFOR::BasicBlock*, std::unordered_set<SAPFOR::BasicBlock*>> GetBasicBlocksForLoop(const LoopGraph* loop, const std::vector<SAPFOR::BasicBlock*> blocks);

2
src/PrivateAnalyzer/region.h
View File

@@ -6,7 +6,7 @@
#include <string> #include <string>
#include "graph_loops.h" #include "graph_loops.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
class Region : public SAPFOR::BasicBlock { class Region : public SAPFOR::BasicBlock {
public: public:

2
src/ProjectManipulation/ConvertFiles.cpp
View File

@@ -403,7 +403,7 @@ static int convertFile(int argc, char* argv[], const set<string>& filesInProj, c
fprintf(stderr, "<<<<< Unparsing %s >>>>>\n", fout_name); fprintf(stderr, "<<<<< Unparsing %s >>>>>\n", fout_name);
if (mod_gpu) /*ACC*/ if (mod_gpu) /*ACC*/
UnparseTo_CufAndCu_Files(file, fout_cuf, fout_C_cu, fout_info); UnparseTo_CufAndCu_Files(file, fout_cuf, fout_C_cu, fout_info, fout_name);
const string fileN = file->filename(); const string fileN = file->filename();
set<SgStatement*> toRemove; set<SgStatement*> toRemove;

127
src/Sapfor.cpp
View File

@@ -40,7 +40,6 @@
#include "ProjectManipulation/ConvertFiles.h" #include "ProjectManipulation/ConvertFiles.h"
#include "LoopAnalyzer/loop_analyzer.h" #include "LoopAnalyzer/loop_analyzer.h"
#include "LoopAnalyzer/implicit_loops_analyzer.h"
#include "GraphCall/graph_calls_func.h" #include "GraphCall/graph_calls_func.h"
#include "GraphLoop/graph_loops_func.h" #include "GraphLoop/graph_loops_func.h"
@@ -58,6 +57,7 @@
#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"
@@ -96,7 +96,6 @@
#include "CFGraph/IR.h" #include "CFGraph/IR.h"
#include "CFGraph/RD_subst.h" #include "CFGraph/RD_subst.h"
#include "CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
#include "CFGraph/IR_SSAForm.h"
#include "CFGraph/live_variable_analysis.h" #include "CFGraph/live_variable_analysis.h"
#include "CFGraph/private_variables_analysis.h" #include "CFGraph/private_variables_analysis.h"
@@ -1021,19 +1020,8 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
if(func->funcPointer->variant() != ENTRY_STAT) if(func->funcPointer->variant() != ENTRY_STAT)
countOfTransform += removeDeadCode(func->funcPointer, allFuncInfo, commonBlocks); countOfTransform += removeDeadCode(func->funcPointer, allFuncInfo, commonBlocks);
} }
else if (curr_regime == BUILD_IR_SSA_FORM)
{
auto irFound = getIRByFilename(fullIR, file_name);
buildFuncIRSSAForm(irFound, fullIR[irFound], fullIR_SSA);
}
else if (curr_regime == FIND_IMPLICIT_LOOPS)
{
auto itFound = loopGraph.find(file_name);
auto irFound = getIRByFilename(fullIR_SSA, file_name);
findImplicitLoops(fullIR_SSA[irFound], itFound->second);
}
else if (curr_regime == FIND_PRIVATE_ARRAYS) else if (curr_regime == FIND_PRIVATE_ARRAYS)
findPrivateArrays(loopGraph, fullIR); FindPrivateArrays(loopGraph, fullIR);
else if (curr_regime == TEST_PASS) else if (curr_regime == TEST_PASS)
{ {
//test pass //test pass
@@ -1294,7 +1282,6 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
detectCopies(allFuncInfo); detectCopies(allFuncInfo);
fillInterfaceBlock(allFuncInfo); fillInterfaceBlock(allFuncInfo);
intentInsertToInterfaces(allFuncInfo); intentInsertToInterfaces(allFuncInfo);
createInterfacesForAssumedSize(allFuncInfo);
//this call is only for testing //this call is only for testing
//setPureStatus(allFuncInfo); //setPureStatus(allFuncInfo);
@@ -1742,103 +1729,7 @@ 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, topologies, parallelRegions, loopGraph, SPF_messages);
int maxSizeDist = 0;
for (int z = 0; z < parallelRegions.size(); ++z)
{
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
auto &tmp = dataDirectives.distrRules;
vector<pair<DIST::Array*, const DistrVariant*>> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(make_pair(tmp[z1].first, &tmp[z1].second[currentVariant[z1]]));
for (auto &elem : currentVar)
{
DIST::Array *array = elem.first;
const DistrVariant *var = elem.second;
int countBlock = 0;
for (int z = 0; z < var->distRule.size(); ++z)
if (var->distRule[z] == dist::BLOCK)
++countBlock;
maxSizeDist = std::max(maxSizeDist, countBlock);
}
}
SpfInterval *mainIterval = getMainInterval(&project, intervals, SPF_messages);
topologies.clear();
if (maxSizeDist)
{
const int procNum = 8;
//TODO:
//topologies = getTopologies(procNum, maxSizeDist);
throw -10;
const int countOfTop = topologies.size();
if (countOfTop < 0)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
for (auto &inter : intervals)
initTimeForIntervalTree(countOfTop, inter.second);
for (int z = 0; z < parallelRegions.size(); ++z)
{
const DataDirective &dataDirectives = parallelRegions[z]->GetDataDir();
const vector<int> &currentVariant = parallelRegions[z]->GetCurrentVariant();
DIST::Arrays<int> &allArrays = parallelRegions[z]->GetAllArraysToModify();
auto &tmp = dataDirectives.distrRules;
vector<pair<DIST::Array*, const DistrVariant*>> currentVar;
for (int z1 = 0; z1 < currentVariant.size(); ++z1)
currentVar.push_back(make_pair(tmp[z1].first, &tmp[z1].second[currentVariant[z1]]));
map<LoopGraph*, ParallelDirective*> parallelDirs;
vector<std::tuple<DIST::Array*, vector<long>, pair<string, int>>> allSingleRemotes;
for (int i = n - 1; i >= 0; --i)
{
SgFile *file = &(project.file(i));
auto fountInfo = findAllDirectives(file, getObjectForFileFromMap(file->filename(), loopGraph), parallelRegions[z]->GetId());
parallelDirs.insert(fountInfo.begin(), fountInfo.end());
auto fountRem = findAllSingleRemotes(file, parallelRegions[z]->GetId(), parallelRegions);
allSingleRemotes.insert(allSingleRemotes.end(), fountRem.begin(), fountRem.end());
}
//TODO!
//int err = predictScheme(parallelRegions[z], currentVar, allArrays.GetArrays(), parallelDirs, intervals, SPF_messages, allSingleRemotes, maxSizeDist, procNum);
/*if (err != 0)
internalExit = err;*/
}
vector<SpfInterval*> tmp = { mainIterval };
aggregatePredictedTimes(tmp);
int idx = 0;
int best = -1;
double bestSpeedUp = 0;
for (auto &top : topologies)
{
string outStr = "";
for (auto &elem : top)
outStr += std::to_string(elem) + " ";
double currS = mainIterval->exec_time / mainIterval->predictedTimes[idx];
__spf_print(1, "%d: speed up %f for top. %s\n", idx, currS, outStr.c_str());
if (best == -1 || bestSpeedUp < currS)
{
bestSpeedUp = currS;
best = idx;
}
++idx;
}
__spf_print(1, "best topology %d with speed up %f\n", best, bestSpeedUp);
}
else
for (auto &inter : intervals)
initTimeForIntervalTree(0, inter.second);
}
else if (curr_regime == CREATE_INTER_TREE) else if (curr_regime == CREATE_INTER_TREE)
{ {
if (keepFiles) if (keepFiles)
@@ -1928,6 +1819,8 @@ static bool runAnalysis(SgProject &project, const int curr_regime, const bool ne
calculateStatsForPredictor(allFuncInfo, gCovInfo); calculateStatsForPredictor(allFuncInfo, gCovInfo);
parseDvmDirForPredictor(declaredArrays, commonBlocks, allFuncInfo, gCovInfo); parseDvmDirForPredictor(declaredArrays, commonBlocks, allFuncInfo, gCovInfo);
} }
else if (curr_regime == TRANSFORM_ASSUMED_SIZE_PARAMETERS)
transformAssumedSizeParameters(allFuncInfo);
const float elapsed = duration_cast<milliseconds>(high_resolution_clock::now() - timeForPass).count() / 1000.; const float elapsed = duration_cast<milliseconds>(high_resolution_clock::now() - timeForPass).count() / 1000.;
const float elapsedGlobal = duration_cast<milliseconds>(high_resolution_clock::now() - globalTime).count() / 1000.; const float elapsedGlobal = duration_cast<milliseconds>(high_resolution_clock::now() - globalTime).count() / 1000.;
@@ -2163,6 +2056,8 @@ void runPass(const int curr_regime, const char *proj_name, const char *folderNam
runAnalysis(*project, REMOVE_COPIES, false); runAnalysis(*project, REMOVE_COPIES, false);
runAnalysis(*project, SWAP_LOOPS, false); runAnalysis(*project, SWAP_LOOPS, false);
runPass(TRANSFORM_ASSUMED_SIZE_PARAMETERS, proj_name, folderName);
if (folderName || consoleMode) if (folderName || consoleMode)
runAnalysis(*project, UNPARSE_FILE, true, additionalName.c_str(), folderName); runAnalysis(*project, UNPARSE_FILE, true, additionalName.c_str(), folderName);
} }
@@ -2230,9 +2125,8 @@ 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);
@@ -2645,7 +2539,10 @@ int main(int argc, char **argv)
} }
if (curr_regime == INSERT_PARALLEL_DIRS_NODIST) if (curr_regime == INSERT_PARALLEL_DIRS_NODIST)
{
ignoreArrayDistributeState = true; ignoreArrayDistributeState = true;
sharedMemoryParallelization = 1;
}
if (runAsClient) if (runAsClient)
{ {

8
src/Sapfor.h
View File

@@ -182,11 +182,11 @@ enum passes {
SET_IMPLICIT_NONE, SET_IMPLICIT_NONE,
RENAME_INLCUDES, RENAME_INLCUDES,
FIND_IMPLICIT_LOOPS,
BUILD_IR_SSA_FORM,
FIND_PRIVATE_ARRAYS, FIND_PRIVATE_ARRAYS,
TRANSFORM_ASSUMED_SIZE_PARAMETERS,
TEST_PASS, TEST_PASS,
EMPTY_PASS EMPTY_PASS
}; };
@@ -371,10 +371,10 @@ static void setPassValues()
passNames[SET_IMPLICIT_NONE] = "SET_IMPLICIT_NONE"; passNames[SET_IMPLICIT_NONE] = "SET_IMPLICIT_NONE";
passNames[RENAME_INLCUDES] = "RENAME_INLCUDES"; passNames[RENAME_INLCUDES] = "RENAME_INLCUDES";
passNames[INSERT_NO_DISTR_FLAGS_FROM_GUI] = "INSERT_NO_DISTR_FLAGS_FROM_GUI"; passNames[INSERT_NO_DISTR_FLAGS_FROM_GUI] = "INSERT_NO_DISTR_FLAGS_FROM_GUI";
passNames[FIND_IMPLICIT_LOOPS] = "FIND_IMPLICIT_LOOPS";
passNames[BUILD_IR_SSA_FORM] = "BUILD_IR_SSA_FORM";
passNames[FIND_PRIVATE_ARRAYS] = "FIND_PRIVATE_ARRAYS"; passNames[FIND_PRIVATE_ARRAYS] = "FIND_PRIVATE_ARRAYS";
passNames[TRANSFORM_ASSUMED_SIZE_PARAMETERS] = "TRANSFORM_ASSUMED_SIZE_PARAMETERS";
passNames[TEST_PASS] = "TEST_PASS"; passNames[TEST_PASS] = "TEST_PASS";
} }

6
src/SapforData.h
View File

@@ -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
@@ -181,7 +181,3 @@ bool passNamesWasInit = false;
std::map<PTR_BFND, std::pair<std::string, int>> sgStats; std::map<PTR_BFND, std::pair<std::string, int>> sgStats;
std::map<PTR_LLND, std::pair<std::string, int>> sgExprs; std::map<PTR_LLND, std::pair<std::string, int>> sgExprs;
//for FIND_IMPLICIT_LOOPS and BUILD_IR_SSA_FORM
map<FuncInfo*, vector<SAPFOR::BasicBlock*>> fullIR_SSA;
//

2
src/Transformations/DeadCodeRemoving/dead_code.cpp
View File

@@ -6,7 +6,7 @@
#include <set> #include <set>
#include <algorithm> #include <algorithm>
#include "../../CFGraph/CFGraph.h" #include "../CFGraph/CFGraph.h"
using std::map; using std::map;
using std::string; using std::string;

8
src/Transformations/DeadCodeRemoving/dead_code.h
View File

@@ -4,10 +4,10 @@
#include<vector> #include<vector>
#include "SgUtils.h" #include "SgUtils.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
#include "../CFGraph/live_variable_analysis.h" #include "CFGraph/live_variable_analysis.h"
#include "../CFGraph/DataFlow/data_flow.h" #include "CFGraph/DataFlow/data_flow.h"
#include "../CFGraph/DataFlow/backward_data_flow.h" #include "CFGraph/DataFlow/backward_data_flow.h"
int removeDeadCode(SgStatement* func, int removeDeadCode(SgStatement* func,
const std::map<std::string, std::vector<FuncInfo*>>&allFuncs, const std::map<std::string, std::vector<FuncInfo*>>&allFuncs,

11
src/Transformations/ExpressionSubstitution/expr_transform.cpp
View File

@@ -440,15 +440,18 @@ bool replaceConstantRec(SgExpression *&exp)
if (exp->variant() == CONST_REF) if (exp->variant() == CONST_REF)
{ {
SgExpression *ret = ReplaceParameter_(exp); SgExpression *ret = ReplaceParameter_(exp);
int sign = 1; int sign = 1;
SgExpression* toCalc = ret; SgExpression* toCalc = ret;
if (ret->variant() == UNARY_ADD_OP) if (toCalc->variant() == UNARY_ADD_OP)
toCalc = ret->lhs(); toCalc = toCalc->lhs();
if (ret->variant() == MINUS_OP)
if (toCalc->variant() == MINUS_OP)
{ {
toCalc = ret->lhs(); toCalc = toCalc->lhs();
sign = -1; sign = -1;
} }
if (toCalc->isInteger()) if (toCalc->isInteger())
{ {
exp = new SgValueExp(sign * toCalc->valueInteger()); exp = new SgValueExp(sign * toCalc->valueInteger());

271
src/Transformations/FunctionPurifying/function_purifying.cpp
View File

@@ -103,7 +103,7 @@ void insertIntrinsicStat(const vector<FuncInfo*>& allFuncInfo)
if (line <= 0) if (line <= 0)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
intr->setlineNumber(line); intr->setlineNumber(getNextNegativeLineNumber());
st->insertStmtBefore(*intr, *func->funcPointer); st->insertStmtBefore(*intr, *func->funcPointer);
} }
else else
@@ -136,33 +136,41 @@ void createInterfacesForOutCalls(FuncInfo* func)
} }
} }
static bool changeIfHasStarRange(SgExpression* arrayDecl, bool doReplace = false) static bool changeIfHasStarRange(SgExpression* arrayDecl, SgStatement* scope, vector<SgSymbol*>& parNames)
{ {
SgExpression* list = arrayDecl->lhs(); SgExpression* list = arrayDecl->lhs();
bool has = doReplace; string varN = arrayDecl->symbol()->identifier() + string("_sz");
bool has = false;
SgExpression* allDimsBefore = NULL;
while (list) while (list)
{ {
const int var = list->lhs()->variant(); const int var = list->lhs()->variant();
if (var == STAR_RANGE) if (var == STAR_RANGE)
has = true;
list = list->rhs();
}
if (has)
{
list = arrayDecl->lhs();
while (list)
{ {
list->setLhs(new SgExpression(DDOT)); has = true;
list = list->rhs();
parNames.push_back(new SgSymbol(VARIABLE_NAME, varN.c_str(), SgTypeInt(), scope));
SgExpression* par = allDimsBefore ? &(*new SgVarRefExp(parNames.back()) / *allDimsBefore) : (new SgVarRefExp(parNames.back()));
list->setLhs(par);
break;
} }
else
{
if (allDimsBefore == NULL)
allDimsBefore = list->lhs();
else
allDimsBefore = &(*allDimsBefore * *list->lhs()->copyPtr());
}
list = list->rhs();
} }
return has; return has;
} }
static void removeExternalStat(SgStatement* func, const set<string>& addedInterfaceFor) /*static void removeExternalStat(SgStatement* func, const set<string>& addedInterfaceFor)
{ {
vector<SgStatement*> toRem; vector<SgStatement*> toRem;
for (auto st = func; st != func->lastNodeOfStmt(); st = st->lexNext()) for (auto st = func; st != func->lastNodeOfStmt(); st = st->lexNext())
@@ -197,7 +205,7 @@ static void removeExternalStat(SgStatement* func, const set<string>& addedInterf
for (auto& rem : toRem) for (auto& rem : toRem)
rem->deleteStmt(); rem->deleteStmt();
} }*/
template<typename T> template<typename T>
static vector<FuncInfo*> sortByName(const T &funcs) static vector<FuncInfo*> sortByName(const T &funcs)
@@ -210,9 +218,25 @@ static vector<FuncInfo*> sortByName(const T &funcs)
return funcList; return funcList;
} }
void createInterfacesForAssumedSize(const map<string, vector<FuncInfo*>>& allFuncInfo) static bool hasDvmParallel(SgStatement *func)
{ {
set<FuncInfo*> hasAssumedSizeArrays; for (auto st = func; st != func->lastNodeOfStmt(); st = st->lexNext())
{
const int var = st->variant();
if (var == DVM_PARALLEL_ON_DIR || var == ACC_REGION_DIR ||
var == ACC_ACTUAL_DIR || var == ACC_GET_ACTUAL_DIR)
return true;
if (st->variant() == CONTAINS_STMT)
break;
}
return false;
}
void transformAssumedSizeParameters(const map<string, vector<FuncInfo*>>& allFuncInfo)
{
map<string, vector<int>> assumedSizeArraysByFunc;
for (auto& funcByFile : allFuncInfo) for (auto& funcByFile : allFuncInfo)
{ {
@@ -225,6 +249,12 @@ void createInterfacesForAssumedSize(const map<string, vector<FuncInfo*>>& allFun
if (prog == NULL) if (prog == NULL)
continue; continue;
if (!hasDvmParallel(prog))
continue;
vector<SgSymbol*> parNames;
SgStatement* scope = prog->getScopeForDeclare();
vector<SgExpression*> arrayRefs; vector<SgExpression*> arrayRefs;
bool hasRefs = false; bool hasRefs = false;
for (int z = 0; z < func->funcParams.countOfPars; ++z) for (int z = 0; z < func->funcParams.countOfPars; ++z)
@@ -244,13 +274,8 @@ void createInterfacesForAssumedSize(const map<string, vector<FuncInfo*>>& allFun
{ {
if (list->lhs() && list->lhs()->symbol()->identifier() == name) if (list->lhs() && list->lhs()->symbol()->identifier() == name)
{ {
if (changeIfHasStarRange(list->lhs())) if (changeIfHasStarRange(list->lhs(), scope, parNames))
{ assumedSizeArraysByFunc[func->funcName].push_back(z);
hasRefs = true;
hasAssumedSizeArrays.insert(func);
}
else
arrayRefs.push_back(list->lhs());
break; break;
} }
list = list->rhs(); list = list->rhs();
@@ -259,13 +284,20 @@ void createInterfacesForAssumedSize(const map<string, vector<FuncInfo*>>& allFun
} }
} }
if (hasRefs) if (parNames.size())
for (auto& ref : arrayRefs) {
changeIfHasStarRange(ref, true); SgProcHedrStmt* proc = isSgProcHedrStmt(func->funcPointer->GetOriginal());
checkNull(proc, convertFileName(__FILE__).c_str(), __LINE__);
//makeDeclaration(parNames, scope);
for (auto& newPar : parNames)
proc->AddArg(*new SgVarRefExp(newPar));
}
} }
} }
if (hasAssumedSizeArrays.size() == 0) if (assumedSizeArraysByFunc.size() == 0)
return; return;
for (auto& funcByFile : allFuncInfo) for (auto& funcByFile : allFuncInfo)
@@ -273,26 +305,60 @@ void createInterfacesForAssumedSize(const map<string, vector<FuncInfo*>>& allFun
if (SgFile::switchToFile(funcByFile.first) == -1) if (SgFile::switchToFile(funcByFile.first) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
SgSymbol* funcSize = new SgSymbol(FUNCTION_NAME, "size");
for (auto& func : sortByName(funcByFile.second)) for (auto& func : sortByName(funcByFile.second))
{ {
SgProgHedrStmt* prog = isSgProgHedrStmt(func->funcPointer->GetOriginal()); SgProgHedrStmt* prog = isSgProgHedrStmt(func->funcPointer->GetOriginal());
if (prog == NULL) if (prog == NULL)
continue; continue;
set<string> addedInterfaceFor; for (auto& detailedCall : func->callsFromDetailed)
for (auto& elem : sortByName(func->callsFromV))
{ {
auto it = hasAssumedSizeArrays.find(elem); auto it = assumedSizeArraysByFunc.find(detailedCall.detailCallsFrom.first);
if (it != hasAssumedSizeArrays.end()) if (it != assumedSizeArraysByFunc.end())
{ {
auto callFrom = *it; auto pointer = detailedCall.pointerDetailCallsFrom;
DvmhRegionInserter::createInterfaceBlockForOutCall(func, callFrom);
addedInterfaceFor.insert(callFrom->funcName); SgExpression* list = NULL;
if (pointer.second == FUNC_CALL)
{
SgExpression* p = (SgExpression*)pointer.first;
list = p->lhs();
}
else
{
SgStatement* p = (SgStatement*)pointer.first;
list = p->expr(0);
}
SgExpression* last = list;
vector<SgExpression*> pars;
while (list)
{
last = list;
pars.push_back(list->lhs());
list = list->rhs();
}
for (int z = 0; z < it->second.size(); ++z)
{
int parNum = it->second[z];
if (parNum >= pars.size())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
//TODO: need to do it better
SgExpression* parArray = pars[parNum]->copyPtr();
parArray->setLhs(NULL);
parArray->setRhs(NULL);
SgFunctionCallExp* call = new SgFunctionCallExp(*funcSize, *parArray);
last->setRhs(new SgExpression(EXPR_LIST, call));
last = last->rhs();
}
} }
} }
if (addedInterfaceFor.size())
removeExternalStat(prog, addedInterfaceFor);
} }
} }
} }
@@ -459,7 +525,7 @@ static void insertIntents(set<string>& identificators, SgStatement* header, cons
if (args.size()) if (args.size())
{ {
SgIntentStmt* intent = new SgIntentStmt(*makeExprList(args), *attr); SgIntentStmt* intent = new SgIntentStmt(*makeExprList(args), *attr);
intent->setlineNumber(lastDecl->lineNumber()); intent->setlineNumber(getNextNegativeLineNumber());
lastDecl->insertStmtAfter(*intent, (header == lastDecl) ? *header : *lastDecl->controlParent()); lastDecl->insertStmtAfter(*intent, (header == lastDecl) ? *header : *lastDecl->controlParent());
} }
@@ -1388,6 +1454,37 @@ static string makeName(SgSymbol* var, map<SgSymbol*, set< SgSymbol*>>& modVarsTo
return name; return name;
} }
static bool filterFromList(SgStatement* st, const set<string>& idents, bool exclude = false)
{
bool empty = false;
SgExpression* list = st->expr(0);
vector<SgExpression*> newList;
int total = 0;
while (list)
{
if (exclude)
{
if (idents.find(list->lhs()->symbol()->identifier()) == idents.end())
newList.push_back(list->lhs());
}
else
{
if (idents.find(list->lhs()->symbol()->identifier()) != idents.end())
newList.push_back(list->lhs());
}
total++;
list = list->rhs();
}
if (newList.size() == 0)
empty = true;
else if (total != newList.size())
st->setExpression(0, makeExprList(newList));
return empty;
}
static string getInterfaceBlock(SgStatement* func, const FuncParam& pars) static string getInterfaceBlock(SgStatement* func, const FuncParam& pars)
{ {
string oldFile = current_file->filename(); string oldFile = current_file->filename();
@@ -1395,22 +1492,21 @@ static string getInterfaceBlock(SgStatement* func, const FuncParam& pars)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto copy = duplicateProcedure(func, NULL, false, false, false, true); auto copy = duplicateProcedure(func, NULL, false, false, false, true);
const set<string> idents(pars.identificators.begin(), pars.identificators.end());
const set<string> ident(pars.identificators.begin(), pars.identificators.end());
//remove all exec //remove all exec
SgStatement* st = copy->lexNext(); SgStatement* st = copy->lexNext();
SgStatement* last = copy->lastNodeOfStmt(); SgStatement* last = copy->lastNodeOfStmt();
vector<SgStatement*> toExtract; vector<SgStatement*> toExtract;
while (st != last) while (st != last)
{ {
if (isDVM_stat(st) || isSPF_stat(st)) if (isDVM_stat(st) || isSPF_stat(st))
{ {
if (st->variant() != ACC_ROUTINE_DIR) if (st->variant() != ACC_ROUTINE_DIR)
{ {
SgStatement* next = st->lexNext(); toExtract.push_back(st);
st->extractStmt(); st = st->lexNext();
st = next;
} }
else else
st = st->lexNext(); st = st->lexNext();
@@ -1431,31 +1527,20 @@ static string getInterfaceBlock(SgStatement* func, const FuncParam& pars)
st = copy->lexNext(); st = copy->lexNext();
while (st != last) while (st != last)
{ {
if (st->variant() == VAR_DECL const int var = st->variant();
|| st->variant() == VAR_DECL_90
|| st->variant() == DIM_STAT
|| st->variant() == INTENT_STMT)
{
SgExpression* list = st->expr(0);
vector<SgExpression*> newList;
while (list)
{
if (ident.find(list->lhs()->symbol()->identifier()) != ident.end())
newList.push_back(list->lhs());
list = list->rhs();
}
if (newList.size() == 0) if (var == VAR_DECL || var == VAR_DECL_90 || var == DIM_STAT ||
var == INTENT_STMT || var == EXTERN_STAT)
{
bool empty = filterFromList(st, idents);
if (empty)
{ {
SgStatement* next = st->lexNext();
toExtract.push_back(st); toExtract.push_back(st);
st = next; st = st->lexNext();
continue; continue;
} }
else
st->setExpression(0, makeExprList(newList));
} }
else else if (!isDVM_stat(st) && !isSPF_stat(st))
toExtract.push_back(st); toExtract.push_back(st);
if (st->variant() == CONTAINS_STMT) if (st->variant() == CONTAINS_STMT)
@@ -1466,16 +1551,56 @@ static string getInterfaceBlock(SgStatement* func, const FuncParam& pars)
for (auto& elem : toExtract) for (auto& elem : toExtract)
elem->extractStmt(); elem->extractStmt();
string retVal = copy->unparse(); string codeString = copy->unparse();
if (SgFile::switchToFile(oldFile) == -1) if (SgFile::switchToFile(oldFile) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
//insert tabs
const string tab = " ";
const int countEnds = std::count(codeString.begin(), codeString.end(), '\n');
string retVal = " ";
retVal.reserve(retVal.size() + codeString.size() + countEnds * tab.size());
for (int z = 0, ends = 0; z < codeString.size(); ++z)
{
retVal += codeString[z];
if (codeString[z] == '\n')
{
ends++;
if (ends == countEnds)
continue;
int p = z + 1;
while (codeString[p] == ' ' && p < codeString.size())
++p;
auto start = p;
auto end = string::npos;
auto sub = codeString.find("subroutine", p);
auto func = codeString.find("function", p);
auto end_sub = codeString.find("end subroutine", p);
auto end_func = codeString.find("end function", p);
if (sub != end && sub == start || end_sub != end && end_sub == start ||
func != end && func == start || end_func != end && end_func == start)
{
retVal += " ";
}
else
retVal += tab;
}
}
return retVal; return retVal;
} }
static void insertInterface(SgStatement* func, const string& iface) void insertInterface(SgStatement* func, const FuncInfo *callFrom)
{ {
const string& iface = getInterfaceBlock(callFrom->funcPointer->GetOriginal(), callFrom->funcParams);
const string& fName = callFrom->funcName;
string oldFile = current_file->filename(); string oldFile = current_file->filename();
if (!func->switchToFile()) if (!func->switchToFile())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
@@ -1484,6 +1609,18 @@ static void insertInterface(SgStatement* func, const string& iface)
SgStatement* last = func->lastNodeOfStmt(); SgStatement* last = func->lastNodeOfStmt();
while (st != last) while (st != last)
{ {
if (st->variant() == VAR_DECL || st->variant() == VAR_DECL_90)
{
bool empty = filterFromList(st, { fName }, true);
if (empty)
{
SgStatement* next = st->lexNext();
st->extractStmt();
st = next;
continue;
}
}
if (isSgExecutableStatement(st)) if (isSgExecutableStatement(st))
break; break;
st = st->lexNext(); st = st->lexNext();
@@ -1491,7 +1628,7 @@ static void insertInterface(SgStatement* func, const string& iface)
SgStatement* ifaceBlock = new SgStatement(INTERFACE_STMT); SgStatement* ifaceBlock = new SgStatement(INTERFACE_STMT);
addControlEndToStmt(ifaceBlock->thebif); addControlEndToStmt(ifaceBlock->thebif);
ifaceBlock->setlineNumber(st->lineNumber()); ifaceBlock->setlineNumber(getNextNegativeLineNumber());
ifaceBlock->setFileName(st->fileName()); ifaceBlock->setFileName(st->fileName());
st->insertStmtBefore(*ifaceBlock, *st->controlParent()); st->insertStmtBefore(*ifaceBlock, *st->controlParent());
ifaceBlock->lastNodeOfStmt()->addComment(iface.c_str()); ifaceBlock->lastNodeOfStmt()->addComment(iface.c_str());
@@ -1507,7 +1644,7 @@ static void createInterfaceBlockForToCalls(FuncInfo* func)
if (callTo->interfaceBlocks.find(func->funcName) == callTo->interfaceBlocks.end()) if (callTo->interfaceBlocks.find(func->funcName) == callTo->interfaceBlocks.end())
{ {
callTo->interfaceBlocks[func->funcName] = func; callTo->interfaceBlocks[func->funcName] = func;
insertInterface(callTo->funcPointer, getInterfaceBlock(func->funcPointer->GetOriginal(), func->funcParams)); insertInterface(callTo->funcPointer, func);
} }
} }
} }

5
src/Transformations/FunctionPurifying/function_purifying.h
View File

@@ -6,7 +6,6 @@ bool checkOutCalls(const std::set<std::string>& outCalls);
std::map<SgStatement*, std::set<std::string>> fillFromIntent(SgStatement* header); std::map<SgStatement*, std::set<std::string>> fillFromIntent(SgStatement* header);
void intentInsert(const std::vector<FuncInfo*>& allFuncInfo); void intentInsert(const std::vector<FuncInfo*>& allFuncInfo);
void intentInsertToInterfaces(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo); void intentInsertToInterfaces(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo);
void createInterfacesForAssumedSize(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo);
void createInterfacesForOutCalls(FuncInfo* func); void createInterfacesForOutCalls(FuncInfo* func);
void setPureStatus(const std::set<FuncInfo*>& funcInfo); void setPureStatus(const std::set<FuncInfo*>& funcInfo);
void setPureStatus(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo); void setPureStatus(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo);
@@ -14,3 +13,7 @@ void setPureStatus(const std::map<std::string, std::vector<FuncInfo*>>& allFuncI
void commonTransfer(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo, const std::map<std::string, CommonBlock*>& commonBlocks); void commonTransfer(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo, const std::map<std::string, CommonBlock*>& commonBlocks);
void saveTransfer(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo); void saveTransfer(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo);
void moduleTransfer(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo); void moduleTransfer(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo);
void insertInterface(SgStatement* func, const FuncInfo* callFrom);
void transformAssumedSizeParameters(const std::map<std::string, std::vector<FuncInfo*>>& allFuncInfo);

2
src/Transformations/LoopSplitting/loops_splitter.cpp
View File

@@ -6,7 +6,7 @@
#include "../LoopAnalyzer/loop_analyzer.h" #include "../LoopAnalyzer/loop_analyzer.h"
#include "expr_transform.h" #include "expr_transform.h"
#include "errors.h" #include "errors.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
#include "../SageAnalysisTool/OmegaForSage/include/lang-interf.h" #include "../SageAnalysisTool/OmegaForSage/include/lang-interf.h"
#include "../DirectiveProcessing/directive_parser.h" #include "../DirectiveProcessing/directive_parser.h"
#include "../DirectiveProcessing/directive_omp_parser.h" #include "../DirectiveProcessing/directive_omp_parser.h"

4
src/Transformations/PrivateArrayRemoving/private_removing.h
View File

@@ -2,8 +2,8 @@
#include "dvm.h" #include "dvm.h"
#include "../DirectiveProcessing/directive_parser.h" #include "../DirectiveProcessing/directive_parser.h"
#include "../CFGraph/CFGraph.h" #include "CFGraph/CFGraph.h"
#include "../CFGraph/RD_subst.h" #include "CFGraph/RD_subst.h"
// Regime defines the regime of private removing // Regime defines the regime of private removing
enum class Regime { DEFLT = 1, REGULAR_INDEXES }; enum class Regime { DEFLT = 1, REGULAR_INDEXES };

519
src/Transformations/ReplaceArraysInIO/replace_dist_arrays_in_io.cpp
View File

@@ -17,6 +17,157 @@ using std::pair;
#define DEBUG_TRACE 0 #define DEBUG_TRACE 0
static bool hasArrayRef(SgExpression* ex)
{
if (ex)
return isArrayRef(ex) || hasArrayRef(ex->lhs()) || hasArrayRef(ex->rhs());
return false;
}
static inline bool isArrayDeclaration(SgStatement* st)
{
return isSgDeclarationStatement(st) || isSgVarListDeclStmt(st) || isSgNestedVarListDeclStmt(st);
}
static SgExpression* findExprWithVariant(SgExpression* exp, int variant)
{
if (exp)
{
if (exp->variant() == variant)
return exp;
auto *l = findExprWithVariant(exp->lhs(), variant);
if (l)
return l;
auto *r = findExprWithVariant(exp->rhs(), variant);
if (r)
return r;
}
return NULL;
}
static bool switchToDeclarationFile(DIST::Array* array_p,
pair<string, int>& decl_place,
const string &current_file_name,
FuncInfo *current_func)
{
if (!array_p)
return false;
// try to find declaration from current function
for (const auto &p : array_p->GetDeclInfo())
{
if (p.first == current_file_name &&
current_func->linesNum.first <= p.second &&
p.second <= current_func->linesNum.second)
{
decl_place = p;
return true;
}
}
for (const auto &p : array_p->GetDeclInfo())
{
if (SgFile::switchToFile(p.first) != -1)
{
decl_place = p;
return true;
}
}
return false;
}
static bool checkAssumedShape(SgStatement* decl, const string& array_name)
{
SgExpression* list = decl->expr(0);
SgExpression* dim_list = NULL;
while (list)
{
auto *arr_ref = list->lhs();
if (arr_ref &&
arr_ref->symbol() &&
arr_ref->symbol()->identifier() &&
arr_ref->symbol()->identifier() == array_name)
{
dim_list = arr_ref->lhs();
break;
}
list = list->rhs();
}
if (!dim_list)
{
auto *dim_expr = findExprWithVariant(decl->expr(2), DIMENSION_OP);
if (dim_expr)
dim_list = dim_expr->lhs();
}
while (dim_list)
{
auto *lhs = dim_list->lhs();
if (lhs && lhs->variant() == DDOT && (!lhs->lhs() || !lhs->rhs()))
return true;
dim_list = dim_list->rhs();
}
return false;
}
static bool checkAssumedSize(const string &array_name, DIST::Array* array_p, const string &current_file_name, FuncInfo *current_func)
{
if (!array_p)
return true; // raise true to prevent array from copying
bool found = false;
pair<string, int> decl_place;
if (!switchToDeclarationFile(array_p, decl_place, current_file_name, current_func))
return true;
auto *st = SgStatement::getStatementByFileAndLine(decl_place.first, decl_place.second);
checkNull(st, convertFileName(__FILE__).c_str(), __LINE__);
SgExpression* list = st->expr(0);
while (list)
{
if (list->lhs() &&
list->lhs()->symbol() &&
list->lhs()->symbol()->identifier() &&
list->lhs()->symbol()->identifier() == array_name
)
{
if(findExprWithVariant(list->lhs(), STAR_RANGE))
found = true;
break;
}
list = list->rhs();
}
if (!found)
{
auto *dim_expr = findExprWithVariant(st->expr(2), DIMENSION_OP);
if (dim_expr && findExprWithVariant(dim_expr, STAR_RANGE))
found = true;
}
if (SgFile::switchToFile(current_file_name) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); // can't switch back to file with array usage
return found;
}
static void findArrays(SgExpression* exp, set<SgSymbol*>& arrays) static void findArrays(SgExpression* exp, set<SgSymbol*>& arrays)
{ {
if (exp) if (exp)
@@ -29,12 +180,15 @@ static void findArrays(SgExpression* exp, set<SgSymbol*>& arrays)
} }
} }
static void populateDistributedIoArrays(map<SgSymbol*, set<SgStatement*>>& arrays, SgStatement* stat) static bool populateDistributedIoArrays(map<SgSymbol*, set<SgStatement*>>& arrays,
SgStatement* stat,
const string& current_file_name,
FuncInfo *current_func)
{ {
auto var = stat->variant(); auto var = stat->variant();
if (var != READ_STAT && var != PRINT_STAT && var != WRITE_STAT) if (var != READ_STAT && var != PRINT_STAT && var != WRITE_STAT)
return; return false;
// check if such IO allowed in dvm: // check if such IO allowed in dvm:
// list should consist only of single array and format string should be * // list should consist only of single array and format string should be *
@@ -44,22 +198,26 @@ static void populateDistributedIoArrays(map<SgSymbol*, set<SgStatement*>>& array
SgExpression* ioList = stat->expr(0); SgExpression* ioList = stat->expr(0);
if (!ioList) if (!ioList)
return; return false;
if (ioList->variant() != EXPR_LIST) if (ioList->variant() != EXPR_LIST)
return; return false;
if (ioList->rhs() == NULL) if (ioList->rhs() == NULL)
{ {
SgExpression* arg = ioList->lhs(); SgExpression* arg = ioList->lhs();
if (!arg) if (!arg)
return; return false;
if (!isArrayRef(arg)) if (hasArrayRef(arg))
return; {
if (isArrayRef(arg) && arg->lhs())
if (arg->lhs()) need_replace = true;
need_replace = true; }
else
{
return false;
}
} }
else else
{ {
@@ -74,15 +232,11 @@ static void populateDistributedIoArrays(map<SgSymbol*, set<SgStatement*>>& array
{ {
SgExpression* fmt = stat->expr(1); SgExpression* fmt = stat->expr(1);
if (!fmt || fmt->variant() != SPEC_PAIR || fmt->lhs()->variant() != KEYWORD_VAL) if (!fmt || fmt->variant() != SPEC_PAIR || fmt->lhs()->variant() != KEYWORD_VAL)
{
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
return;
}
if (fmt->rhs()->variant() != KEYWORD_VAL || fmt->rhs()->sunparse() != "*") if (fmt->rhs()->variant() != KEYWORD_VAL || fmt->rhs()->sunparse() != "*")
need_replace = true; need_replace = true;
break; break;
} }
case READ_STAT: case READ_STAT:
@@ -104,10 +258,7 @@ static void populateDistributedIoArrays(map<SgSymbol*, set<SgStatement*>>& array
{ {
auto *kv = spec->lhs(); auto *kv = spec->lhs();
if (!kv || kv->variant() != SPEC_PAIR || !kv->rhs()) if (!kv || kv->variant() != SPEC_PAIR || !kv->rhs())
{
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
return;
}
if (kv->rhs()->variant() != KEYWORD_VAL || kv->rhs()->sunparse() != "*") if (kv->rhs()->variant() != KEYWORD_VAL || kv->rhs()->sunparse() != "*")
{ {
@@ -118,6 +269,7 @@ static void populateDistributedIoArrays(map<SgSymbol*, set<SgStatement*>>& array
spec = spec->rhs(); spec = spec->rhs();
} }
} }
break;
} }
default: default:
break; break;
@@ -125,7 +277,9 @@ static void populateDistributedIoArrays(map<SgSymbol*, set<SgStatement*>>& array
} }
if (!need_replace) if (!need_replace)
return; return false;
bool ret = false;
set<SgSymbol*> found_arrays; set<SgSymbol*> found_arrays;
@@ -136,11 +290,21 @@ static void populateDistributedIoArrays(map<SgSymbol*, set<SgStatement*>>& array
{ {
string array_name = string(by_symb->identifier()); string array_name = string(by_symb->identifier());
DIST::Array* array_p = getArrayFromDeclarated(declaratedInStmt(by_symb), array_name); DIST::Array* array_p = getArrayFromDeclarated(declaratedInStmt(by_symb), array_name);
if (array_p && array_p->GetDistributeFlagVal() == Distribution::distFlag::IO_PRIV && arrays[by_symb].insert(stat).second) if (array_p &&
__spf_print(DEBUG_TRACE, "[%d]: add array %s\n", stat->lineNumber(), array_p->GetName().c_str()); array_p->GetDistributeFlagVal() == Distribution::distFlag::IO_PRIV &&
!checkAssumedSize(array_name, array_p, current_file_name, current_func))
{
auto inserted = arrays[by_symb].insert(stat).second;
if (inserted)
__spf_print(DEBUG_TRACE, "[%d]: add array %s %p\n", stat->lineNumber(), array_p->GetName().c_str(), by_symb);
ret = true;
}
} }
__spf_print(DEBUG_TRACE, "[replace]\n"); __spf_print(DEBUG_TRACE, "[replace]\n");
return ret;
} }
static void replaceArrayRec(SgSymbol* arr, SgSymbol* replace_by, SgExpression* exp, bool& has_read, bool& has_write, bool from_read, bool from_write) static void replaceArrayRec(SgSymbol* arr, SgSymbol* replace_by, SgExpression* exp, bool& has_read, bool& has_write, bool from_read, bool from_write)
@@ -210,7 +374,12 @@ static void replaceArrayRec(SgSymbol* arr, SgSymbol* replace_by, SgStatement* st
} }
} }
static void copyArrayBetweenStatements(SgSymbol* replace_symb, SgSymbol* replace_by, SgStatement* start, SgStatement* last, bool start_is_scope) static void copyArrayBetweenStatements(SgSymbol* replace_symb,
SgSymbol* replace_by,
SgStatement* start,
SgStatement* last,
bool start_is_scope,
FuncInfo *func_info)
{ {
while (start->lexNext() && !isSgExecutableStatement(start->lexNext())) while (start->lexNext() && !isSgExecutableStatement(start->lexNext()))
start = start->lexNext(); start = start->lexNext();
@@ -229,10 +398,23 @@ static void copyArrayBetweenStatements(SgSymbol* replace_symb, SgSymbol* replace
auto* parent = start_is_scope ? start : start->controlParent(); auto* parent = start_is_scope ? start : start->controlParent();
if (parent && parent->lastNodeOfStmt() == start) if (parent && parent->lastNodeOfStmt() == start)
parent = parent->controlParent(); parent = parent->controlParent();
checkNull(parent, convertFileName(__FILE__).c_str(), __LINE__);
start->insertStmtAfter(*assign, *parent); start->insertStmtAfter(*assign, *parent);
} }
if (has_write)
{
for (int i = 0; i < func_info->funcParams.identificators.size(); i++)
{
if (func_info->funcParams.identificators[i] == replace_symb->identifier())
{
has_write &= func_info->funcParams.isArgOut(i);
break;
}
}
}
if (has_write) if (has_write)
{ {
// A = A_reg // A = A_reg
@@ -243,9 +425,14 @@ static void copyArrayBetweenStatements(SgSymbol* replace_symb, SgSymbol* replace
} }
} }
static void replaceArrayInFragment(SgSymbol* replace_symb, const set<SgStatement*> usages, SgSymbol* replace_by, SgStatement* start, SgStatement* last, const string& filename) static void replaceArrayInFragment(SgSymbol* replace_symb,
const set<SgStatement*> usages,
SgSymbol* replace_by,
SgStatement* start,
SgStatement* last,
FuncInfo *func_info)
{ {
while (start->lexNext() && !isSgExecutableStatement(start->lexNext())) while (start->lexNext() && (!isSgExecutableStatement(start->lexNext()) || start->lexNext()->variant() == ALLOCATE_STMT))
start = start->lexNext(); start = start->lexNext();
set<SgStatement*> not_opened, not_closed, copied; set<SgStatement*> not_opened, not_closed, copied;
@@ -312,7 +499,7 @@ static void replaceArrayInFragment(SgSymbol* replace_symb, const set<SgStatement
} }
__spf_print(DEBUG_TRACE, "[copy %s] [%d, %d]\n", replace_symb->identifier(), scope_start->lineNumber(), scope_end->lineNumber()); __spf_print(DEBUG_TRACE, "[copy %s] [%d, %d]\n", replace_symb->identifier(), scope_start->lineNumber(), scope_end->lineNumber());
copyArrayBetweenStatements(replace_symb, replace_by, scope_start, scope_end, copy_scope == scope_start); copyArrayBetweenStatements(replace_symb, replace_by, scope_start, scope_end, copy_scope == scope_start, func_info);
copied.insert(copy_scope); copied.insert(copy_scope);
} }
} }
@@ -335,12 +522,16 @@ static bool ioReginBorder(SgStatement* stat, SgStatement* last_io_bound)
STOP_STAT, STOP_STAT,
STOP_NODE, STOP_NODE,
EXIT_STMT, EXIT_STMT,
EXIT_NODE EXIT_NODE,
GOTO_NODE
}; };
if (border_stats.find(var) != border_stats.end()) if (border_stats.find(var) != border_stats.end())
return true; return true;
if (stat->hasLabel())
return true;
if (last_io_bound && last_io_bound->lastNodeOfStmt() && last_io_bound->lastNodeOfStmt() == stat) if (last_io_bound && last_io_bound->lastNodeOfStmt() && last_io_bound->lastNodeOfStmt() == stat)
return true; return true;
@@ -353,9 +544,9 @@ static bool ioReginBorder(SgStatement* stat, SgStatement* last_io_bound)
} }
void replaceDistributedArraysInIO(vector<ParallelRegion*>& regions, void replaceDistributedArraysInIO(vector<ParallelRegion*>& regions,
const map<string, vector<FuncInfo*>>& allFuncInfo, const map<string, vector<FuncInfo*>>& allFuncInfo,
map<string, vector<Messages>>& SPF_messages, map<string, vector<Messages>>& SPF_messages,
map<string, map<int, set<string>>>& newDeclsToInclude) map<string, map<int, set<string>>>& newDeclsToInclude)
{ {
map<SgSymbol*, SgSymbol*> created_copies; map<SgSymbol*, SgSymbol*> created_copies;
map<string, map<int, set<string>>> copied_syms; map<string, map<int, set<string>>> copied_syms;
@@ -364,26 +555,29 @@ void replaceDistributedArraysInIO(vector<ParallelRegion*>& regions,
{ {
__spf_print(DEBUG_TRACE, "[%s]: enter region\n", region->GetName().c_str()); __spf_print(DEBUG_TRACE, "[%s]: enter region\n", region->GetName().c_str());
for (auto& linesByFile : region->GetAllLinesToModify()) for (auto& lines_by_file : region->GetAllLinesToModify())
{ {
const auto& filename = linesByFile.first; const auto& current_file_name = lines_by_file.first;
if (SgFile::switchToFile(filename) < 0) if (SgFile::switchToFile(current_file_name) == -1)
{
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
return;
}
for (auto& lines : linesByFile.second) auto func_info_it = allFuncInfo.find(current_file_name);
if (func_info_it == allFuncInfo.end())
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto *lbound_symb = new SgSymbol(FUNCTION_NAME, "lbound");
auto *ubound_symb = new SgSymbol(FUNCTION_NAME, "ubound");
for (auto& lines : lines_by_file.second)
{ {
__spf_print(DEBUG_TRACE, "[fragment] %s: %d:%d %d\n", filename.c_str(), lines.lines.first, __spf_print(DEBUG_TRACE, "[fragment] %s: %d:%d %d\n", current_file_name.c_str(), lines.lines.first,
lines.lines.second, lines.isImplicit()); lines.lines.second, lines.isImplicit());
SgStatement* curr_stmt, * end; SgStatement* curr_stmt, * end;
if (lines.isImplicit()) if (lines.isImplicit())
{ {
curr_stmt = current_file->SgStatementAtLine(lines.lines.first); curr_stmt = current_file->SgStatementAtLine(lines.lines.first);
end = current_file->SgStatementAtLine(lines.lines.second); end = current_file->SgStatementAtLine(lines.lines.second);
@@ -399,6 +593,7 @@ void replaceDistributedArraysInIO(vector<ParallelRegion*>& regions,
map<SgSymbol*, set<SgStatement*>> need_replace; map<SgSymbol*, set<SgStatement*>> need_replace;
SgStatement* last_io_bound = NULL; SgStatement* last_io_bound = NULL;
FuncInfo *current_func_info = NULL;
while (curr_stmt != end) while (curr_stmt != end)
{ {
@@ -407,9 +602,21 @@ void replaceDistributedArraysInIO(vector<ParallelRegion*>& regions,
auto var = curr_stmt->variant(); auto var = curr_stmt->variant();
if (var == PROC_HEDR || var == PROG_HEDR || var == FUNC_HEDR) if (var == PROC_HEDR || var == PROG_HEDR || var == FUNC_HEDR)
{ {
current_func_info = NULL;
for (auto *func_info : func_info_it->second)
{
if (func_info->funcName == curr_stmt->symbol()->identifier())
{
current_func_info = func_info;
break;
}
}
if (!current_func_info)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
curr_stmt = curr_stmt->lexNext(); curr_stmt = curr_stmt->lexNext();
while (curr_stmt && !isSgExecutableStatement(curr_stmt)) while (curr_stmt && !isSgExecutableStatement(curr_stmt))
{ {
@@ -433,77 +640,192 @@ void replaceDistributedArraysInIO(vector<ParallelRegion*>& regions,
string array_name = string(array_to_copy->identifier()); string array_name = string(array_to_copy->identifier());
DIST::Array* array_p = getArrayFromDeclarated(declaratedInStmt(array_to_copy), array_name); DIST::Array* array_p = getArrayFromDeclarated(declaratedInStmt(array_to_copy), array_name);
bool fromModule = (array_p->GetLocation().first == DIST::l_MODULE); // at this point all considered arrays must have DIST::Array* references
const string locationName = array_p->GetLocation().second; if (!array_p)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
// ... and be declared in switchable files (not in headers)
pair<string, int> decl_place;
if (!switchToDeclarationFile(array_p, decl_place, current_file_name, current_func_info))
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto place = *array_p->GetDeclInfo().begin();
string fileName = place.first;
string suffix = "_io_l"; string suffix = "_io_l";
if (fromModule) switch (array_p->GetLocation().first)
suffix = "_io_m";
pair<SgSymbol*, SgSymbol*> copied;
copied.first = array_to_copy;
if (SgFile::switchToFile(fileName) == -1)
{ {
auto* func_stmt = curr_stmt->getScopeForDeclare(); case DIST::l_MODULE:
suffix = "_io_m";
break;
case DIST::l_COMMON:
suffix = "_io_c";
break;
}
SgStatement* insertPlace = NULL; auto copied_symbol = copyArray(decl_place,
array_p,
lines_by_file.second,
suffix + to_string(region->GetId()),
decl_place.first,
newDeclsToInclude,
copied_syms);
// original declaration statement
auto *decl_stmt = SgStatement::getStatementByFileAndLine(decl_place.first, decl_place.second);
if (!decl_stmt || !isArrayDeclaration(decl_stmt))
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
auto dynamic_array = checkAssumedShape(decl_stmt, array_name);
while (decl_stmt && !isSgExecutableStatement(decl_stmt))
{
if (isArrayDeclaration(decl_stmt) &&
decl_stmt->expr(0) &&
decl_stmt->expr(0)->lhs() &&
decl_stmt->expr(0)->lhs()->symbol() == copied_symbol.second)
{
break;
}
decl_stmt = decl_stmt->lexNext();
}
// created declaration statement
if (!decl_stmt || !isArrayDeclaration(decl_stmt))
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
// insert !$SPF ANALYSIS(PROCESS_PRIVATE(array)) directive before declaration statement
string dir_str;
if (decl_stmt->comments())
{
auto str_comment = string(decl_stmt->comments());
if (str_comment.size() && str_comment.back() != '\n')
dir_str += "\n";
}
dir_str += "!$SPF ANALYSIS(PROCESS_PRIVATE(" + string(copied_symbol.second->identifier()) + "))\n";
decl_stmt->addComment(dir_str.c_str());
created_copies.insert({ array_to_copy, copied_symbol.second });
// make array copy allocatable in case of assumed-shape array
if(dynamic_array)
{
// insert allocatable keyword in declaration
auto *kword_list = decl_stmt->expr(2);
if (!findExprWithVariant(kword_list, ALLOCATABLE_OP))
{
if (!kword_list)
{
kword_list = new SgExprListExp();
decl_stmt->setExpression(2, *kword_list);
}
while (kword_list->rhs())
kword_list = kword_list->rhs();
if (kword_list->lhs())
{
kword_list->setRhs(new SgExprListExp());
kword_list = kword_list->rhs();
}
kword_list->setLhs(new SgExpression(ALLOCATABLE_OP));
}
// can't switch back to file with array usage
if (SgFile::switchToFile(current_file_name) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
// insert allocate(a_l(lbound(a, 1):ubound(a,1),...)) statement
SgStatement* allocate_stmt_place = NULL;
auto* func_stmt = curr_stmt->getScopeForDeclare();
for (auto iterator = func_stmt->lexNext(); for (auto iterator = func_stmt->lexNext();
!isSgExecutableStatement(iterator) || isSPF_stat(iterator) && iterator && !isSgExecutableStatement(iterator);
!(iterator->variant() == SPF_PARALLEL_REG_DIR || iterator->variant() == SPF_END_PARALLEL_REG_DIR);
iterator = iterator->lexNext()) iterator = iterator->lexNext())
{ {
insertPlace = iterator; allocate_stmt_place = iterator;
} }
//NULL - no decl stats in function! //NULL - no decl stats in function!
if (!insertPlace) if (!allocate_stmt_place)
insertPlace = func_stmt; allocate_stmt_place = func_stmt;
auto st = insertPlace->controlParent(); auto *allocate_stmt_parent = allocate_stmt_place->controlParent();
if (st->variant() == GLOBAL) if (allocate_stmt_parent->variant() == GLOBAL)
st = insertPlace; allocate_stmt_parent = allocate_stmt_place;
auto& copied_symb = array_to_copy->copy(); auto *created_array_ref = new SgArrayRefExp(*copied_symbol.second);
copied.second = &copied_symb;
auto new_name = string(array_to_copy->identifier()) + "_io_c"; auto* dim_list = new SgExprListExp();
copied_symb.changeName(new_name.c_str()); created_array_ref->setLhs(dim_list);
auto stat = array_to_copy->makeVarDeclStmt(); int dim_len = array_p->GetSizes().size();
auto res = CalculateInteger(stat->expr(0)->copyPtr()); for (int i = 1; i <= dim_len; i++)
res->lhs()->setSymbol(copied_symb);
stat->setExpression(0, res);
insertPlace->insertStmtAfter(*stat, *st);
}
else
{
copied = copyArray(place, array_p, linesByFile.second, suffix + to_string(region->GetId()), fileName, newDeclsToInclude, copied_syms);
}
SgStatement* decl = SgStatement::getStatementByFileAndLine(place.first, place.second);
if (decl)
decl = decl->lexNext();
if (decl)
{
string dir_str;
if (decl->comments())
{ {
string str_comment = string(decl->comments()); auto *lcall = new SgFunctionCallExp(*lbound_symb);
if (str_comment.size() && str_comment.back() != '\n') auto *rcall = new SgFunctionCallExp(*ubound_symb);
dir_str += "\n";
for (auto *call : {lcall, rcall})
{
call->setLhs(new SgExprListExp());
call->lhs()->setLhs(new SgArrayRefExp(*array_to_copy));
call->lhs()->setRhs(new SgValueExp(i));
}
auto *dot_expr = new SgExpression(DDOT);
dot_expr->setLhs(lcall);
dot_expr->setRhs(rcall);
dim_list->setLhs(dot_expr);
if (i < dim_len)
{
auto *next = new SgExprListExp();
dim_list->setRhs(next);
dim_list = next;
}
} }
dir_str += "!$SPF ANALYSIS(PROCESS_PRIVATE(" + string(copied.second->identifier()) + "))\n"; auto *allocate_stmt = new SgStatement(ALLOCATE_STMT);
decl->addComment(dir_str.c_str()); allocate_stmt->setExpression(0, created_array_ref);
allocate_stmt_place->insertStmtAfter(*allocate_stmt, *allocate_stmt_parent);
// insert deallocate statemens before all returns
auto *find_return_stmt = func_stmt;
while (find_return_stmt != func_stmt->lastNodeOfStmt())
{
auto *next = find_return_stmt->lexNext();
if (next && (isSgReturnStmt(next) || next == func_stmt->lastNodeOfStmt()))
{
if (next->hasLabel())
{
moveLabelBefore(next);
find_return_stmt = next->lexPrev();
}
auto *dealloc_stmt = new SgStatement(DEALLOCATE_STMT);
dealloc_stmt->setExpression(0, new SgExprListExp());
dealloc_stmt->expr(0)->setLhs(new SgArrayRefExp(*copied_symbol.second));
find_return_stmt->insertStmtAfter(*dealloc_stmt, *next->controlParent());
if (next == curr_stmt)
curr_stmt = dealloc_stmt;
}
find_return_stmt = next;
}
} }
created_copies.insert({ array_to_copy, copied.second });
// can't switch back to file with array usage
if (SgFile::switchToFile(current_file_name) == -1)
printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
} }
} }
@@ -515,12 +837,9 @@ void replaceDistributedArraysInIO(vector<ParallelRegion*>& regions,
{ {
auto it = created_copies.find(p.first); auto it = created_copies.find(p.first);
if (it != created_copies.end()) if (it != created_copies.end())
replaceArrayInFragment(p.first, p.second, it->second, last_io_bound, curr_stmt, filename); replaceArrayInFragment(p.first, p.second, it->second, last_io_bound, curr_stmt, current_func_info);
else else
{
printInternalError(convertFileName(__FILE__).c_str(), __LINE__); printInternalError(convertFileName(__FILE__).c_str(), __LINE__);
return;
}
} }
} }
@@ -538,7 +857,17 @@ void replaceDistributedArraysInIO(vector<ParallelRegion*>& regions,
} }
} }
populateDistributedIoArrays(need_replace, curr_stmt); auto need_fix_io = populateDistributedIoArrays(need_replace, curr_stmt, current_file_name, current_func_info);
// incorrect IO statement with label
// move label to dummy statement and insert copy statements between dummy statement and IO
if (need_fix_io && curr_stmt->hasLabel())
{
moveLabelBefore(curr_stmt);
if (last_io_bound == curr_stmt) // always true
last_io_bound = curr_stmt->lexPrev();
}
curr_stmt = curr_stmt->lexNext(); curr_stmt = curr_stmt->lexNext();
} }
} }

4
src/Utils/PassManager.h
View File

@@ -316,9 +316,7 @@ void InitPassesDependencies(map<passes, vector<passes>> &passDepsIn, set<passes>
list({ VERIFY_INCLUDES, CORRECT_VAR_DECL }) <= Pass(SET_IMPLICIT_NONE); list({ VERIFY_INCLUDES, CORRECT_VAR_DECL }) <= Pass(SET_IMPLICIT_NONE);
list({ CALL_GRAPH, LOOP_GRAPH, CALL_GRAPH2, BUILD_IR }) <= Pass(BUILD_IR_SSA_FORM) <= Pass(FIND_IMPLICIT_LOOPS); list({ CALL_GRAPH2, CALL_GRAPH, BUILD_IR, LOOP_GRAPH, LOOP_ANALYZER_DATA_DIST_S2 }) <= Pass(FIND_PRIVATE_ARRAYS);
list({ CALL_GRAPH, LOOP_GRAPH, CALL_GRAPH2, BUILD_IR, LOOP_ANALYZER_DATA_DIST_S2 }) <= Pass(FIND_PRIVATE_ARRAYS);
passesIgnoreStateDone.insert({ CREATE_PARALLEL_DIRS, INSERT_PARALLEL_DIRS, INSERT_SHADOW_DIRS, EXTRACT_PARALLEL_DIRS, passesIgnoreStateDone.insert({ CREATE_PARALLEL_DIRS, INSERT_PARALLEL_DIRS, INSERT_SHADOW_DIRS, EXTRACT_PARALLEL_DIRS,
EXTRACT_SHADOW_DIRS, CREATE_REMOTES, UNPARSE_FILE, REMOVE_AND_CALC_SHADOW, EXTRACT_SHADOW_DIRS, CREATE_REMOTES, UNPARSE_FILE, REMOVE_AND_CALC_SHADOW,

17
src/Utils/errors.h
View File

@@ -78,6 +78,11 @@ 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"
@@ -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 +509,16 @@ 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:";
//2001 //2001
static const wchar_t *R94 = L"R94:"; static const wchar_t *R94 = L"R94:";

12
src/Utils/russian_errors_text.txt
View File

@@ -184,8 +184,18 @@ 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"
//2001 //2001
R94 = "Невозможно автоматически преобразовать данное присваивание к циклу" R94 = "Невозможно автоматически преобразовать данное присваивание к циклу"

39
src/Utils/utils.cpp
View File

@@ -390,31 +390,14 @@ void clearGlobalBuffer() { globalOutputBuffer = ""; }
const string& getGlobalBuffer() { return globalOutputBuffer; } const string& getGlobalBuffer() { return globalOutputBuffer; }
set<short*> allocated; set<short*> allocated;
set<int*> allocatedInt;
static void convertGlobalBuffer(short *&result, int *&resultSize)
{
const unsigned len = (unsigned)globalOutputBuffer.size();
result = new short[len + 1];
allocated.insert(result);
result[len] = '\0';
for (unsigned i = 0; i < len; ++i)
result[i] = globalOutputBuffer[i];
resultSize = new int[1];
resultSize[0] = (int)len;
}
extern map<string, vector<Messages>> SPF_messages; //file ->messages extern map<string, vector<Messages>> SPF_messages; //file ->messages
void clearGlobalMessagesBuffer() void clearGlobalMessagesBuffer()
{ {
//clear allocated memory //clear allocated memory
for (auto& elem : allocated) for (auto& elem : allocated)
delete[]elem; delete []elem;
for (auto& elem : allocatedInt)
delete[]elem;
allocated.clear(); allocated.clear();
allocatedInt.clear();
SPF_messages.clear(); SPF_messages.clear();
} }
@@ -451,7 +434,7 @@ static map<string, vector<Messages>> removeCopies(map<string, vector<Messages>>
return out; return out;
} }
static void convertGlobalMessagesBuffer(short *&result, int *&resultSize) static string convertGlobalMessagesBuffer()
{ {
auto copySPF_messages = removeCopies(SPF_messages); auto copySPF_messages = removeCopies(SPF_messages);
for (auto &byFile : copySPF_messages) for (auto &byFile : copySPF_messages)
@@ -489,21 +472,13 @@ static void convertGlobalMessagesBuffer(short *&result, int *&resultSize)
json all; json all;
all["allMessages"] = allMessages; all["allMessages"] = allMessages;
const string str = all.dump(); return all.dump();
const unsigned len = (unsigned)str.size();
copyStringToShort(result, str);
allocated.insert(result);
resultSize = new int[1];
resultSize[0] = (int)len;
} }
void convertBuffers(string &resultM, string &result)
void convertBuffers(short*& resultM, int*& resultSizeM, short*& result, int*& resultSize)
{ {
convertGlobalMessagesBuffer(resultM, resultSizeM); resultM = convertGlobalMessagesBuffer();
convertGlobalBuffer(result, resultSize); result = getGlobalBuffer();
} }
bool isSPF_comment(const string &bufStr) bool isSPF_comment(const string &bufStr)

2
src/Utils/utils.h
View File

@@ -33,7 +33,7 @@ void addToGlobalBufferAndPrint(const std::string &toPrint);
void clearGlobalBuffer(); void clearGlobalBuffer();
const std::string& getGlobalBuffer(); const std::string& getGlobalBuffer();
std::wstring to_wstring(const std::string); std::wstring to_wstring(const std::string);
void convertBuffers(short*& resultM, int*& resultSizeM, short*& result, int*& resultSize); void convertBuffers(std::string& resultM, std::string& result);
void clearGlobalMessagesBuffer(); void clearGlobalMessagesBuffer();
std::string renameInclude(const std::string& inc); std::string renameInclude(const std::string& inc);
void copyIncludes(const std::set<std::string> &allIncludeFiles, const std::map<std::string, std::map<int, std::set<std::string>>> &commentsToInclude, const std::map<std::string, std::map<int, std::set<std::string>>>& newCopyDeclToIncl, const char *folderName, bool keepSpfDirs, bool isFreeStyle, bool isRename, int removeDirs = 0); void copyIncludes(const std::set<std::string> &allIncludeFiles, const std::map<std::string, std::map<int, std::set<std::string>>> &commentsToInclude, const std::map<std::string, std::map<int, std::set<std::string>>>& newCopyDeclToIncl, const char *folderName, bool keepSpfDirs, bool isFreeStyle, bool isRename, int removeDirs = 0);

2
src/Utils/version.h
View File

@@ -1,3 +1,3 @@
#pragma once #pragma once
#define VERSION_SPF "2432" #define VERSION_SPF "2446"

659
src/VisualizerCalls/get_information.cpp
View File

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