polly/lib/Exchange/OpenScopExporter.cpp - llvm-project - Git at Google

 //===-- OpenScopExporter.cpp  - Export Scops with openscop library --------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // Export the Scops build by ScopInfo pass to text file.
 //
 //===----------------------------------------------------------------------===//

 #include "polly/LinkAllPasses.h"

 #ifdef OPENSCOP_FOUND

 #include "polly/ScopInfo.h"
 #include "polly/ScopPass.h"

 #include "llvm/Support/CommandLine.h"
 #include "llvm/Assembly/Writer.h"

 #define OPENSCOP_INT_T_IS_MP
 #include "openscop/openscop.h"

 #include "stdio.h"
 #include "isl/map.h"
 #include "isl/set.h"
 #include "isl/constraint.h"

 using namespace llvm;
 using namespace polly;

 namespace {
 static cl::opt<std::string>
 ExportDir("polly-export-dir",
           cl::desc("The directory to export the .scop files to."), cl::Hidden,
           cl::value_desc("Directory path"), cl::ValueRequired, cl::init("."));

 struct ScopExporter : public ScopPass {
   static char ID;
   Scop *S;
   explicit ScopExporter() : ScopPass(ID) {}

   std::string getFileName(Scop *S) const;

   virtual bool runOnScop(Scop &S);
   void printScop(raw_ostream &OS) const;
   void getAnalysisUsage(AnalysisUsage &AU) const;
 };

 }

 char ScopExporter::ID = 0;

 class OpenScop {
   Scop *PollyScop;
   openscop_scop_p openscop;

   std::map<const Value*, int> ArrayMap;

   void initializeArrays();
   void initializeParameters();
   void initializeScattering();
   void initializeStatements();
   openscop_statement_p initializeStatement(ScopStmt *stmt);
   void freeStatement(openscop_statement_p stmt);
   static int accessToMatrix_constraint(isl_constraint *c, void *user);
   static int accessToMatrix_basic_map(isl_basic_map *bmap, void *user);
   openscop_matrix_p createAccessMatrix(ScopStmt *S, bool isRead);
   static int domainToMatrix_constraint(isl_constraint *c, void *user);
   static int domainToMatrix_basic_set(isl_basic_set *bset, void *user);
   openscop_matrix_p domainToMatrix(isl_set *PS);
   static int scatteringToMatrix_constraint(isl_constraint *c, void *user);
   static int scatteringToMatrix_basic_map(isl_basic_map *bmap, void *user);
   openscop_matrix_p scatteringToMatrix(isl_map *pmap);

 public:
   OpenScop(Scop *S);
   ~OpenScop();
   void print(FILE *F);

 };

 OpenScop::OpenScop(Scop *S) : PollyScop(S) {
   openscop = openscop_scop_malloc();

   initializeArrays();
   initializeParameters();
   initializeScattering();
   initializeStatements();
 }

 void OpenScop::initializeParameters() {
   openscop->nb_parameters = PollyScop->getNumParams();
   openscop->parameters = new char*[openscop->nb_parameters];

   for (int i = 0; i < openscop->nb_parameters; ++i) {
     openscop->parameters[i] = new char[20];
     sprintf(openscop->parameters[i], "p_%d", i);
   }
 }

 void OpenScop::initializeArrays() {
   int nb_arrays = 0;

   for (Scop::iterator SI = PollyScop->begin(), SE = PollyScop->end(); SI != SE;
        ++SI)
     for (ScopStmt::memacc_iterator MI = (*SI)->memacc_begin(),
          ME = (*SI)->memacc_end(); MI != ME; ++MI) {
       const Value *BaseAddr = (*MI)->getBaseAddr();
       if (ArrayMap.find(BaseAddr) == ArrayMap.end()) {
         ArrayMap.insert(std::make_pair(BaseAddr, nb_arrays));
         ++nb_arrays;
       }
     }

   openscop->nb_arrays = nb_arrays;
   openscop->arrays = new char*[nb_arrays];

   for (int i = 0; i < nb_arrays; ++i)
     for (std::map<const Value*, int>::iterator VI = ArrayMap.begin(),
          VE = ArrayMap.end(); VI != VE; ++VI)
       if ((*VI).second == i) {
         const Value *V = (*VI).first;
         std::string name = V->getName();
         openscop->arrays[i] = new char[name.size() + 1];
         strcpy(openscop->arrays[i], name.c_str());
       }
 }

 void OpenScop::initializeScattering() {
   openscop->nb_scattdims = PollyScop->getScatterDim();
   openscop->scattdims = new char*[openscop->nb_scattdims];

   for (int i = 0; i < openscop->nb_scattdims; ++i) {
     openscop->scattdims[i] = new char[20];
     sprintf(openscop->scattdims[i], "s_%d", i);
   }
 }

 openscop_statement_p OpenScop::initializeStatement(ScopStmt *stmt) {
   openscop_statement_p Stmt = openscop_statement_malloc();

   // Domain & Schedule
   isl_set *domain = stmt->getDomain();
   Stmt->domain = domainToMatrix(domain);
   isl_map *Scattering = stmt->getScattering();
   Stmt->schedule = scatteringToMatrix(Scattering);
   isl_set_free(domain);
   isl_map_free(Scattering);


   // Statement name
   const char *entryName = stmt->getBaseName();
   Stmt->body = (char*)malloc(sizeof(char) * (strlen(entryName) + 1));
   strcpy(Stmt->body, entryName);

   // Iterator names
   Stmt->nb_iterators = isl_set_n_dim(stmt->getDomain());
   Stmt->iterators = new char*[Stmt->nb_iterators];

   for (int i = 0; i < Stmt->nb_iterators; ++i) {
     Stmt->iterators[i] = new char[20];
     sprintf(Stmt->iterators[i], "i_%d", i);
   }

   // Memory Accesses
   Stmt->read = createAccessMatrix(stmt, true);
   Stmt->write = createAccessMatrix(stmt, false);

   return Stmt;
 }

 void OpenScop::initializeStatements() {
   for (Scop::reverse_iterator SI = PollyScop->rbegin(), SE = PollyScop->rend();
        SI != SE; ++SI) {
     openscop_statement_p stmt = initializeStatement(*SI);
     stmt->next = openscop->statement;
     openscop->statement = stmt;
   }
 }

 void OpenScop::freeStatement(openscop_statement_p stmt) {

   if (stmt->read)
     openscop_matrix_free(stmt->read);
   stmt->read = NULL;

   if (stmt->write)
     openscop_matrix_free(stmt->write);
   stmt->write = NULL;

   if (stmt->domain)
     openscop_matrix_free(stmt->domain);
   stmt->domain = NULL;

   if (stmt->schedule)
     openscop_matrix_free(stmt->schedule);
   stmt->schedule = NULL;

   for (int i = 0; i < stmt->nb_iterators; ++i)
     delete[](stmt->iterators[i]);

   delete[](stmt->iterators);
   stmt->iterators = NULL;
   stmt->nb_iterators = 0;

   delete[](stmt->body);
   stmt->body = NULL;

   openscop_statement_free(stmt);
 }

 void OpenScop::print(FILE *F) {
   openscop_scop_print_dot_scop(F, openscop);
 }

 /// Add an isl constraint to an OpenScop matrix.
 ///
 /// @param user The matrix
 /// @param c The constraint
 int OpenScop::domainToMatrix_constraint(isl_constraint *c, void *user) {
   openscop_matrix_p m = (openscop_matrix_p) user;

   int nb_params = isl_constraint_dim(c, isl_space_param);
   int nb_vars = isl_constraint_dim(c, isl_space_set);
   int nb_div = isl_constraint_dim(c, isl_space_div);

   assert(!nb_div && "Existentially quantified variables not yet supported");

   openscop_vector_p vec = openscop_vector_malloc(nb_params + nb_vars + 2);

   // Assign type
   if (isl_constraint_is_equality(c))
     openscop_vector_tag_equality(vec);
   else
     openscop_vector_tag_inequality(vec);

   isl_int v;
   isl_int_init(v);

   // Assign variables
   for (int i = 0; i < nb_vars; ++i) {
     isl_constraint_get_coefficient(c, isl_space_set, i, &v);
     isl_int_set(vec->p[i + 1], v);
   }

   // Assign parameters
   for (int i = 0; i < nb_params; ++i) {
     isl_constraint_get_coefficient(c, isl_space_param, i, &v);
     isl_int_set(vec->p[nb_vars + i + 1], v);
   }

   // Assign constant
   isl_constraint_get_constant(c, &v);
   isl_int_set(vec->p[nb_params + nb_vars + 1], v);

   openscop_matrix_insert_vector(m, vec, m->NbRows);

   return 0;
 }

 /// Add an isl basic set to a OpenScop matrix_list
 ///
 /// @param bset The basic set to add
 /// @param user The matrix list we should add the basic set to
 ///
 /// XXX: At the moment this function expects just a matrix, as support
 /// for matrix lists is currently not available in OpenScop. So union of
 /// polyhedron are not yet supported
 int OpenScop::domainToMatrix_basic_set(isl_basic_set *bset, void *user) {
   openscop_matrix_p m = (openscop_matrix_p) user;
   assert(!m->NbRows && "Union of polyhedron not yet supported");

   isl_basic_set_foreach_constraint(bset, &domainToMatrix_constraint, user);
   return 0;
 }

 /// Translate a isl_set to a OpenScop matrix.
 ///
 /// @param PS The set to be translated
 /// @return A OpenScop Matrix
 openscop_matrix_p OpenScop::domainToMatrix(isl_set *PS) {

   // Create a canonical copy of this set.
   isl_set *set = isl_set_copy(PS);
   set = isl_set_compute_divs (set);
   set = isl_set_align_divs (set);

   // Initialize the matrix.
   unsigned NbRows, NbColumns;
   NbRows = 0;
   NbColumns = isl_set_n_dim(PS) + isl_set_n_param(PS) + 2;
   openscop_matrix_p matrix = openscop_matrix_malloc(NbRows, NbColumns);

   // Copy the content into the matrix.
   isl_set_foreach_basic_set(set, &domainToMatrix_basic_set, matrix);

   isl_set_free(set);

   return matrix;
 }

 /// Add an isl constraint to an OpenScop matrix.
 ///
 /// @param user The matrix
 /// @param c The constraint
 int OpenScop::scatteringToMatrix_constraint(isl_constraint *c, void *user) {
   openscop_matrix_p m = (openscop_matrix_p) user;

   int nb_params = isl_constraint_dim(c, isl_space_param);
   int nb_in = isl_constraint_dim(c, isl_space_in);
   int nb_out = isl_constraint_dim(c, isl_space_out);
   int nb_div = isl_constraint_dim(c, isl_space_div);

   assert(!nb_div && "Existentially quantified variables not yet supported");

   openscop_vector_p vec =
     openscop_vector_malloc(nb_params + nb_in + nb_out + 2);

   // Assign type
   if (isl_constraint_is_equality(c))
     openscop_vector_tag_equality(vec);
   else
     openscop_vector_tag_inequality(vec);

   isl_int v;
   isl_int_init(v);

   // Assign scattering
   for (int i = 0; i < nb_out; ++i) {
     isl_constraint_get_coefficient(c, isl_space_out, i, &v);
     isl_int_set(vec->p[i + 1], v);
   }

   // Assign variables
   for (int i = 0; i < nb_in; ++i) {
     isl_constraint_get_coefficient(c, isl_space_in, i, &v);
     isl_int_set(vec->p[nb_out + i + 1], v);
   }

   // Assign parameters
   for (int i = 0; i < nb_params; ++i) {
     isl_constraint_get_coefficient(c, isl_space_param, i, &v);
     isl_int_set(vec->p[nb_out + nb_in + i + 1], v);
   }

   // Assign constant
   isl_constraint_get_constant(c, &v);
   isl_int_set(vec->p[nb_out + nb_in + nb_params + 1], v);

   openscop_matrix_insert_vector(m, vec, m->NbRows);

   return 0;
 }

 /// Add an isl basic map to a OpenScop matrix_list
 ///
 /// @param bmap The basic map to add
 /// @param user The matrix list we should add the basic map to
 ///
 /// XXX: At the moment this function expects just a matrix, as support
 /// for matrix lists is currently not available in OpenScop. So union of
 /// polyhedron are not yet supported
 int OpenScop::scatteringToMatrix_basic_map(isl_basic_map *bmap, void *user) {
   openscop_matrix_p m = (openscop_matrix_p) user;
   assert(!m->NbRows && "Union of polyhedron not yet supported");

   isl_basic_map_foreach_constraint(bmap, &scatteringToMatrix_constraint, user);
   return 0;
 }

 /// Translate a isl_map to a OpenScop matrix.
 ///
 /// @param map The map to be translated
 /// @return A OpenScop Matrix
 openscop_matrix_p OpenScop::scatteringToMatrix(isl_map *pmap) {

   // Create a canonical copy of this set.
   isl_map *map = isl_map_copy(pmap);
   map = isl_map_compute_divs (map);
   map = isl_map_align_divs (map);

   // Initialize the matrix.
   unsigned NbRows, NbColumns;
   NbRows = 0;
   NbColumns = isl_map_n_in(pmap) + isl_map_n_out(pmap) + isl_map_n_param(pmap)
     + 2;
   openscop_matrix_p matrix = openscop_matrix_malloc(NbRows, NbColumns);

   // Copy the content into the matrix.
   isl_map_foreach_basic_map(map, &scatteringToMatrix_basic_map, matrix);

   isl_map_free(map);

   return matrix;
 }

 /// Add an isl constraint to an OpenScop matrix.
 ///
 /// @param user The matrix
 /// @param c The constraint
 int OpenScop::accessToMatrix_constraint(isl_constraint *c, void *user) {
   openscop_matrix_p m = (openscop_matrix_p) user;

   int nb_params = isl_constraint_dim(c, isl_space_param);
   int nb_in = isl_constraint_dim(c, isl_space_in);
   int nb_div = isl_constraint_dim(c, isl_space_div);

   assert(!nb_div && "Existentially quantified variables not yet supported");

   openscop_vector_p vec =
     openscop_vector_malloc(nb_params + nb_in + 2);

   isl_int v;
   isl_int_init(v);

   // The access dimension has to be one.
   isl_constraint_get_coefficient(c, isl_space_out, 0, &v);
   assert(isl_int_is_one(v));
   bool inverse = true ;

   // Assign variables
   for (int i = 0; i < nb_in; ++i) {
     isl_constraint_get_coefficient(c, isl_space_in, i, &v);

     if (inverse) isl_int_neg(v,v);

     isl_int_set(vec->p[i + 1], v);
   }

   // Assign parameters
   for (int i = 0; i < nb_params; ++i) {
     isl_constraint_get_coefficient(c, isl_space_param, i, &v);

     if (inverse) isl_int_neg(v,v);

     isl_int_set(vec->p[nb_in + i + 1], v);
   }

   // Assign constant
   isl_constraint_get_constant(c, &v);

   if (inverse) isl_int_neg(v,v);

   isl_int_set(vec->p[nb_in + nb_params + 1], v);

   openscop_matrix_insert_vector(m, vec, m->NbRows);

   return 0;
 }


 /// Add an isl basic map to a OpenScop matrix_list
 ///
 /// @param bmap The basic map to add
 /// @param user The matrix list we should add the basic map to
 ///
 /// XXX: At the moment this function expects just a matrix, as support
 /// for matrix lists is currently not available in OpenScop. So union of
 /// polyhedron are not yet supported
 int OpenScop::accessToMatrix_basic_map(isl_basic_map *bmap, void *user) {
   isl_basic_map_foreach_constraint(bmap, &accessToMatrix_constraint, user);
   return 0;
 }

 /// Create the memory access matrix for openscop
 ///
 /// @param S The polly statement the access matrix is created for.
 /// @param isRead Are we looking for read or write accesses?
 /// @param ArrayMap A map translating from the memory references to the openscop
 /// indeces
 ///
 /// @return The memory access matrix, as it is required by openscop.
 openscop_matrix_p OpenScop::createAccessMatrix(ScopStmt *S, bool isRead) {

   unsigned NbColumns = S->getNumIterators() + S->getNumParams() + 2;
   openscop_matrix_p m = openscop_matrix_malloc(0, NbColumns);

   for (ScopStmt::memacc_iterator MI = S->memacc_begin(), ME = S->memacc_end();
        MI != ME; ++MI)
     if ((*MI)->isRead() == isRead) {
       // Extract the access function.
       isl_map_foreach_basic_map((*MI)->getAccessFunction(),
                                 &accessToMatrix_basic_map, m);

       // Set the index of the memory access base element.
       std::map<const Value*, int>::iterator BA =
         ArrayMap.find((*MI)->getBaseAddr());
       isl_int_set_si(m->p[m->NbRows - 1][0], (*BA).second + 1);
     }

   return m;
 }

 OpenScop::~OpenScop() {
   // Free array names.
   for (int i = 0; i < openscop->nb_arrays; ++i)
     delete[](openscop->arrays[i]);

   delete[](openscop->arrays);
   openscop->arrays = NULL;
   openscop->nb_arrays = 0;

   // Free scattering names.
   for (int i = 0; i < openscop->nb_scattdims; ++i)
     delete[](openscop->scattdims[i]);

   delete[](openscop->scattdims);
   openscop->scattdims = NULL;
   openscop->nb_scattdims = 0;

   // Free parameters
   for (int i = 0; i < openscop->nb_parameters; ++i)
     delete[](openscop->parameters[i]);

   delete[](openscop->parameters);
   openscop->parameters = NULL;
   openscop->nb_parameters = 0;

   openscop_statement_p stmt = openscop->statement;

   // Free Statements
   while (stmt) {
     openscop_statement_p TempStmt = stmt->next;
     stmt->next = NULL;
     freeStatement(stmt);
     stmt = TempStmt;
   }

   openscop->statement = NULL;

   openscop_scop_free(openscop);
 }

 std::string ScopExporter::getFileName(Scop *S) const {
   std::string FunctionName =
     S->getRegion().getEntry()->getParent()->getName();
   std::string FileName = FunctionName + "___" + S->getNameStr() + ".scop";
   return FileName;
 }

 void ScopExporter::printScop(raw_ostream &OS) const {
   S->print(OS);
 }

 bool ScopExporter::runOnScop(Scop &scop) {
   S = &scop;
   Region &R = S->getRegion();

   std::string FileName = ExportDir + "/" + getFileName(S);
   FILE *F = fopen(FileName.c_str(), "w");

   if (!F) {
     errs() << "Cannot open file: " << FileName << "\n";
     errs() << "Skipping export.\n";
     return false;
   }

   OpenScop openscop(S);
   openscop.print(F);
   fclose(F);

   std::string FunctionName = R.getEntry()->getParent()->getName();
   errs() << "Writing Scop '" << R.getNameStr() << "' in function '"
     << FunctionName << "' to '" << FileName << "'.\n";

   return false;
 }

 void ScopExporter::getAnalysisUsage(AnalysisUsage &AU) const {
   ScopPass::getAnalysisUsage(AU);
 }

 static RegisterPass<ScopExporter> A("polly-export",
                                     "Polly - Export Scops with OpenScop library"
                                     " (Writes a .scop file for each Scop)"
                                     );

 Pass *polly::createScopExporterPass() {
   return new ScopExporter();
 }

 #endif
	//===-- OpenScopExporter.cpp - Export Scops with openscop library --------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Export the Scops build by ScopInfo pass to text file.
	//
	//===----------------------------------------------------------------------===//

	#include "polly/LinkAllPasses.h"

	#ifdef OPENSCOP_FOUND

	#include "polly/ScopInfo.h"
	#include "polly/ScopPass.h"

	#include "llvm/Support/CommandLine.h"
	#include "llvm/Assembly/Writer.h"

	#define OPENSCOP_INT_T_IS_MP
	#include "openscop/openscop.h"

	#include "stdio.h"
	#include "isl/map.h"
	#include "isl/set.h"
	#include "isl/constraint.h"

	using namespace llvm;
	using namespace polly;

	namespace {
	static cl::opt<std::string>
	ExportDir("polly-export-dir",
	cl::desc("The directory to export the .scop files to."), cl::Hidden,
	cl::value_desc("Directory path"), cl::ValueRequired, cl::init("."));

	struct ScopExporter : public ScopPass {
	static char ID;
	Scop *S;
	explicit ScopExporter() : ScopPass(ID) {}

	std::string getFileName(Scop *S) const;

	virtual bool runOnScop(Scop &S);
	void printScop(raw_ostream &OS) const;
	void getAnalysisUsage(AnalysisUsage &AU) const;
	};

	}

	char ScopExporter::ID = 0;

	class OpenScop {
	Scop *PollyScop;
	openscop_scop_p openscop;

	std::map<const Value*, int> ArrayMap;

	void initializeArrays();
	void initializeParameters();
	void initializeScattering();
	void initializeStatements();
	openscop_statement_p initializeStatement(ScopStmt *stmt);
	void freeStatement(openscop_statement_p stmt);
	static int accessToMatrix_constraint(isl_constraint c, void user);
	static int accessToMatrix_basic_map(isl_basic_map bmap, void user);
	openscop_matrix_p createAccessMatrix(ScopStmt *S, bool isRead);
	static int domainToMatrix_constraint(isl_constraint c, void user);
	static int domainToMatrix_basic_set(isl_basic_set bset, void user);
	openscop_matrix_p domainToMatrix(isl_set *PS);
	static int scatteringToMatrix_constraint(isl_constraint c, void user);
	static int scatteringToMatrix_basic_map(isl_basic_map bmap, void user);
	openscop_matrix_p scatteringToMatrix(isl_map *pmap);

	public:
	OpenScop(Scop *S);
	~OpenScop();
	void print(FILE *F);

	};

	OpenScop::OpenScop(Scop *S) : PollyScop(S) {
	openscop = openscop_scop_malloc();

	initializeArrays();
	initializeParameters();
	initializeScattering();
	initializeStatements();
	}

	void OpenScop::initializeParameters() {
	openscop->nb_parameters = PollyScop->getNumParams();
	openscop->parameters = new char*[openscop->nb_parameters];

	for (int i = 0; i < openscop->nb_parameters; ++i) {
	openscop->parameters[i] = new char[20];
	sprintf(openscop->parameters[i], "p_%d", i);
	}
	}

	void OpenScop::initializeArrays() {
	int nb_arrays = 0;

	for (Scop::iterator SI = PollyScop->begin(), SE = PollyScop->end(); SI != SE;
	++SI)
	for (ScopStmt::memacc_iterator MI = (*SI)->memacc_begin(),
	ME = (*SI)->memacc_end(); MI != ME; ++MI) {
	const Value BaseAddr = (MI)->getBaseAddr();
	if (ArrayMap.find(BaseAddr) == ArrayMap.end()) {
	ArrayMap.insert(std::make_pair(BaseAddr, nb_arrays));
	++nb_arrays;
	}
	}

	openscop->nb_arrays = nb_arrays;
	openscop->arrays = new char*[nb_arrays];

	for (int i = 0; i < nb_arrays; ++i)
	for (std::map<const Value*, int>::iterator VI = ArrayMap.begin(),
	VE = ArrayMap.end(); VI != VE; ++VI)
	if ((*VI).second == i) {
	const Value V = (VI).first;
	std::string name = V->getName();
	openscop->arrays[i] = new char[name.size() + 1];
	strcpy(openscop->arrays[i], name.c_str());
	}
	}

	void OpenScop::initializeScattering() {
	openscop->nb_scattdims = PollyScop->getScatterDim();
	openscop->scattdims = new char*[openscop->nb_scattdims];

	for (int i = 0; i < openscop->nb_scattdims; ++i) {
	openscop->scattdims[i] = new char[20];
	sprintf(openscop->scattdims[i], "s_%d", i);
	}
	}

	openscop_statement_p OpenScop::initializeStatement(ScopStmt *stmt) {
	openscop_statement_p Stmt = openscop_statement_malloc();

	// Domain & Schedule
	isl_set *domain = stmt->getDomain();
	Stmt->domain = domainToMatrix(domain);
	isl_map *Scattering = stmt->getScattering();
	Stmt->schedule = scatteringToMatrix(Scattering);
	isl_set_free(domain);
	isl_map_free(Scattering);


	// Statement name
	const char *entryName = stmt->getBaseName();
	Stmt->body = (char)malloc(sizeof(char) (strlen(entryName) + 1));
	strcpy(Stmt->body, entryName);

	// Iterator names
	Stmt->nb_iterators = isl_set_n_dim(stmt->getDomain());
	Stmt->iterators = new char*[Stmt->nb_iterators];

	for (int i = 0; i < Stmt->nb_iterators; ++i) {
	Stmt->iterators[i] = new char[20];
	sprintf(Stmt->iterators[i], "i_%d", i);
	}

	// Memory Accesses
	Stmt->read = createAccessMatrix(stmt, true);
	Stmt->write = createAccessMatrix(stmt, false);

	return Stmt;
	}

	void OpenScop::initializeStatements() {
	for (Scop::reverse_iterator SI = PollyScop->rbegin(), SE = PollyScop->rend();
	SI != SE; ++SI) {
	openscop_statement_p stmt = initializeStatement(*SI);
	stmt->next = openscop->statement;
	openscop->statement = stmt;
	}
	}

	void OpenScop::freeStatement(openscop_statement_p stmt) {

	if (stmt->read)
	openscop_matrix_free(stmt->read);
	stmt->read = NULL;

	if (stmt->write)
	openscop_matrix_free(stmt->write);
	stmt->write = NULL;

	if (stmt->domain)
	openscop_matrix_free(stmt->domain);
	stmt->domain = NULL;

	if (stmt->schedule)
	openscop_matrix_free(stmt->schedule);
	stmt->schedule = NULL;

	for (int i = 0; i < stmt->nb_iterators; ++i)
	delete[](stmt->iterators[i]);

	delete[](stmt->iterators);
	stmt->iterators = NULL;
	stmt->nb_iterators = 0;

	delete[](stmt->body);
	stmt->body = NULL;

	openscop_statement_free(stmt);
	}

	void OpenScop::print(FILE *F) {
	openscop_scop_print_dot_scop(F, openscop);
	}

	/// Add an isl constraint to an OpenScop matrix.
	///
	/// @param user The matrix
	/// @param c The constraint
	int OpenScop::domainToMatrix_constraint(isl_constraint c, void user) {
	openscop_matrix_p m = (openscop_matrix_p) user;

	int nb_params = isl_constraint_dim(c, isl_space_param);
	int nb_vars = isl_constraint_dim(c, isl_space_set);
	int nb_div = isl_constraint_dim(c, isl_space_div);

	assert(!nb_div && "Existentially quantified variables not yet supported");

	openscop_vector_p vec = openscop_vector_malloc(nb_params + nb_vars + 2);

	// Assign type
	if (isl_constraint_is_equality(c))
	openscop_vector_tag_equality(vec);
	else
	openscop_vector_tag_inequality(vec);

	isl_int v;
	isl_int_init(v);

	// Assign variables
	for (int i = 0; i < nb_vars; ++i) {
	isl_constraint_get_coefficient(c, isl_space_set, i, &v);
	isl_int_set(vec->p[i + 1], v);
	}

	// Assign parameters
	for (int i = 0; i < nb_params; ++i) {
	isl_constraint_get_coefficient(c, isl_space_param, i, &v);
	isl_int_set(vec->p[nb_vars + i + 1], v);
	}

	// Assign constant
	isl_constraint_get_constant(c, &v);
	isl_int_set(vec->p[nb_params + nb_vars + 1], v);

	openscop_matrix_insert_vector(m, vec, m->NbRows);

	return 0;
	}

	/// Add an isl basic set to a OpenScop matrix_list
	///
	/// @param bset The basic set to add
	/// @param user The matrix list we should add the basic set to
	///
	/// XXX: At the moment this function expects just a matrix, as support
	/// for matrix lists is currently not available in OpenScop. So union of
	/// polyhedron are not yet supported
	int OpenScop::domainToMatrix_basic_set(isl_basic_set bset, void user) {
	openscop_matrix_p m = (openscop_matrix_p) user;
	assert(!m->NbRows && "Union of polyhedron not yet supported");

	isl_basic_set_foreach_constraint(bset, &domainToMatrix_constraint, user);
	return 0;
	}

	/// Translate a isl_set to a OpenScop matrix.
	///
	/// @param PS The set to be translated
	/// @return A OpenScop Matrix
	openscop_matrix_p OpenScop::domainToMatrix(isl_set *PS) {

	// Create a canonical copy of this set.
	isl_set *set = isl_set_copy(PS);
	set = isl_set_compute_divs (set);
	set = isl_set_align_divs (set);

	// Initialize the matrix.
	unsigned NbRows, NbColumns;
	NbRows = 0;
	NbColumns = isl_set_n_dim(PS) + isl_set_n_param(PS) + 2;
	openscop_matrix_p matrix = openscop_matrix_malloc(NbRows, NbColumns);

	// Copy the content into the matrix.
	isl_set_foreach_basic_set(set, &domainToMatrix_basic_set, matrix);

	isl_set_free(set);

	return matrix;
	}

	/// Add an isl constraint to an OpenScop matrix.
	///
	/// @param user The matrix
	/// @param c The constraint
	int OpenScop::scatteringToMatrix_constraint(isl_constraint c, void user) {
	openscop_matrix_p m = (openscop_matrix_p) user;

	int nb_params = isl_constraint_dim(c, isl_space_param);
	int nb_in = isl_constraint_dim(c, isl_space_in);
	int nb_out = isl_constraint_dim(c, isl_space_out);
	int nb_div = isl_constraint_dim(c, isl_space_div);

	assert(!nb_div && "Existentially quantified variables not yet supported");

	openscop_vector_p vec =
	openscop_vector_malloc(nb_params + nb_in + nb_out + 2);

	// Assign type
	if (isl_constraint_is_equality(c))
	openscop_vector_tag_equality(vec);
	else
	openscop_vector_tag_inequality(vec);

	isl_int v;
	isl_int_init(v);

	// Assign scattering
	for (int i = 0; i < nb_out; ++i) {
	isl_constraint_get_coefficient(c, isl_space_out, i, &v);
	isl_int_set(vec->p[i + 1], v);
	}

	// Assign variables
	for (int i = 0; i < nb_in; ++i) {
	isl_constraint_get_coefficient(c, isl_space_in, i, &v);
	isl_int_set(vec->p[nb_out + i + 1], v);
	}

	// Assign parameters
	for (int i = 0; i < nb_params; ++i) {
	isl_constraint_get_coefficient(c, isl_space_param, i, &v);
	isl_int_set(vec->p[nb_out + nb_in + i + 1], v);
	}

	// Assign constant
	isl_constraint_get_constant(c, &v);
	isl_int_set(vec->p[nb_out + nb_in + nb_params + 1], v);

	openscop_matrix_insert_vector(m, vec, m->NbRows);

	return 0;
	}

	/// Add an isl basic map to a OpenScop matrix_list
	///
	/// @param bmap The basic map to add
	/// @param user The matrix list we should add the basic map to
	///
	/// XXX: At the moment this function expects just a matrix, as support
	/// for matrix lists is currently not available in OpenScop. So union of
	/// polyhedron are not yet supported
	int OpenScop::scatteringToMatrix_basic_map(isl_basic_map bmap, void user) {
	openscop_matrix_p m = (openscop_matrix_p) user;
	assert(!m->NbRows && "Union of polyhedron not yet supported");

	isl_basic_map_foreach_constraint(bmap, &scatteringToMatrix_constraint, user);
	return 0;
	}

	/// Translate a isl_map to a OpenScop matrix.
	///
	/// @param map The map to be translated
	/// @return A OpenScop Matrix
	openscop_matrix_p OpenScop::scatteringToMatrix(isl_map *pmap) {

	// Create a canonical copy of this set.
	isl_map *map = isl_map_copy(pmap);
	map = isl_map_compute_divs (map);
	map = isl_map_align_divs (map);

	// Initialize the matrix.
	unsigned NbRows, NbColumns;
	NbRows = 0;
	NbColumns = isl_map_n_in(pmap) + isl_map_n_out(pmap) + isl_map_n_param(pmap)
	+ 2;
	openscop_matrix_p matrix = openscop_matrix_malloc(NbRows, NbColumns);

	// Copy the content into the matrix.
	isl_map_foreach_basic_map(map, &scatteringToMatrix_basic_map, matrix);

	isl_map_free(map);

	return matrix;
	}

	/// Add an isl constraint to an OpenScop matrix.
	///
	/// @param user The matrix
	/// @param c The constraint
	int OpenScop::accessToMatrix_constraint(isl_constraint c, void user) {
	openscop_matrix_p m = (openscop_matrix_p) user;

	int nb_params = isl_constraint_dim(c, isl_space_param);
	int nb_in = isl_constraint_dim(c, isl_space_in);
	int nb_div = isl_constraint_dim(c, isl_space_div);

	assert(!nb_div && "Existentially quantified variables not yet supported");

	openscop_vector_p vec =
	openscop_vector_malloc(nb_params + nb_in + 2);

	isl_int v;
	isl_int_init(v);

	// The access dimension has to be one.
	isl_constraint_get_coefficient(c, isl_space_out, 0, &v);
	assert(isl_int_is_one(v));
	bool inverse = true ;

	// Assign variables
	for (int i = 0; i < nb_in; ++i) {
	isl_constraint_get_coefficient(c, isl_space_in, i, &v);

	if (inverse) isl_int_neg(v,v);

	isl_int_set(vec->p[i + 1], v);
	}

	// Assign parameters
	for (int i = 0; i < nb_params; ++i) {
	isl_constraint_get_coefficient(c, isl_space_param, i, &v);

	if (inverse) isl_int_neg(v,v);

	isl_int_set(vec->p[nb_in + i + 1], v);
	}

	// Assign constant
	isl_constraint_get_constant(c, &v);

	if (inverse) isl_int_neg(v,v);

	isl_int_set(vec->p[nb_in + nb_params + 1], v);

	openscop_matrix_insert_vector(m, vec, m->NbRows);

	return 0;
	}


	/// Add an isl basic map to a OpenScop matrix_list
	///
	/// @param bmap The basic map to add
	/// @param user The matrix list we should add the basic map to
	///
	/// XXX: At the moment this function expects just a matrix, as support
	/// for matrix lists is currently not available in OpenScop. So union of
	/// polyhedron are not yet supported
	int OpenScop::accessToMatrix_basic_map(isl_basic_map bmap, void user) {
	isl_basic_map_foreach_constraint(bmap, &accessToMatrix_constraint, user);
	return 0;
	}

	/// Create the memory access matrix for openscop
	///
	/// @param S The polly statement the access matrix is created for.
	/// @param isRead Are we looking for read or write accesses?
	/// @param ArrayMap A map translating from the memory references to the openscop
	/// indeces
	///
	/// @return The memory access matrix, as it is required by openscop.
	openscop_matrix_p OpenScop::createAccessMatrix(ScopStmt *S, bool isRead) {

	unsigned NbColumns = S->getNumIterators() + S->getNumParams() + 2;
	openscop_matrix_p m = openscop_matrix_malloc(0, NbColumns);

	for (ScopStmt::memacc_iterator MI = S->memacc_begin(), ME = S->memacc_end();
	MI != ME; ++MI)
	if ((*MI)->isRead() == isRead) {
	// Extract the access function.
	isl_map_foreach_basic_map((*MI)->getAccessFunction(),
	&accessToMatrix_basic_map, m);

	// Set the index of the memory access base element.
	std::map<const Value*, int>::iterator BA =
	ArrayMap.find((*MI)->getBaseAddr());
	isl_int_set_si(m->p[m->NbRows - 1][0], (*BA).second + 1);
	}

	return m;
	}

	OpenScop::~OpenScop() {
	// Free array names.
	for (int i = 0; i < openscop->nb_arrays; ++i)
	delete[](openscop->arrays[i]);

	delete[](openscop->arrays);
	openscop->arrays = NULL;
	openscop->nb_arrays = 0;

	// Free scattering names.
	for (int i = 0; i < openscop->nb_scattdims; ++i)
	delete[](openscop->scattdims[i]);

	delete[](openscop->scattdims);
	openscop->scattdims = NULL;
	openscop->nb_scattdims = 0;

	// Free parameters
	for (int i = 0; i < openscop->nb_parameters; ++i)
	delete[](openscop->parameters[i]);

	delete[](openscop->parameters);
	openscop->parameters = NULL;
	openscop->nb_parameters = 0;

	openscop_statement_p stmt = openscop->statement;

	// Free Statements
	while (stmt) {
	openscop_statement_p TempStmt = stmt->next;
	stmt->next = NULL;
	freeStatement(stmt);
	stmt = TempStmt;
	}

	openscop->statement = NULL;

	openscop_scop_free(openscop);
	}

	std::string ScopExporter::getFileName(Scop *S) const {
	std::string FunctionName =
	S->getRegion().getEntry()->getParent()->getName();
	std::string FileName = FunctionName + "___" + S->getNameStr() + ".scop";
	return FileName;
	}

	void ScopExporter::printScop(raw_ostream &OS) const {
	S->print(OS);
	}

	bool ScopExporter::runOnScop(Scop &scop) {
	S = &scop;
	Region &R = S->getRegion();

	std::string FileName = ExportDir + "/" + getFileName(S);
	FILE *F = fopen(FileName.c_str(), "w");

	if (!F) {
	errs() << "Cannot open file: " << FileName << "\n";
	errs() << "Skipping export.\n";
	return false;
	}

	OpenScop openscop(S);
	openscop.print(F);
	fclose(F);

	std::string FunctionName = R.getEntry()->getParent()->getName();
	errs() << "Writing Scop '" << R.getNameStr() << "' in function '"
	<< FunctionName << "' to '" << FileName << "'.\n";

	return false;
	}

	void ScopExporter::getAnalysisUsage(AnalysisUsage &AU) const {
	ScopPass::getAnalysisUsage(AU);
	}

	static RegisterPass<ScopExporter> A("polly-export",
	"Polly - Export Scops with OpenScop library"
	" (Writes a .scop file for each Scop)"
	);

	Pass *polly::createScopExporterPass() {
	return new ScopExporter();
	}

	#endif