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llvm-project/polly/lib/CodeGen/Cloog.cpp

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//===- Cloog.cpp - Cloog interface ----------------------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Cloog[1] interface.
//
// The Cloog interface takes a Scop and generates a Cloog AST (clast). This
// clast can either be returned directly or it can be pretty printed to stdout.
//
// A typical clast output looks like this:
//
// for (c2 = max(0, ceild(n + m, 2); c2 <= min(511, floord(5 * n, 3)); c2++) {
// bb2(c2);
// }
//
// [1] http://www.cloog.org/ - The Chunky Loop Generator
//
//===----------------------------------------------------------------------===//
#include "polly/CodeGen/Cloog.h"
#ifdef CLOOG_FOUND
#include "polly/LinkAllPasses.h"
#include "polly/ScopInfo.h"
#define DEBUG_TYPE "polly-cloog"
#include "llvm/IR/Module.h"
#include "llvm/Support/Debug.h"
#include "cloog/isl/domain.h"
#include "cloog/isl/cloog.h"
#include <unistd.h>
using namespace llvm;
using namespace polly;
namespace polly {
class Cloog {
Scop *S;
CloogOptions *Options;
CloogState *State;
clast_stmt *ClastRoot;
void buildCloogOptions();
CloogUnionDomain *buildCloogUnionDomain();
CloogInput *buildCloogInput();
public:
Cloog(Scop *Scop);
~Cloog();
/// Write a .cloog input file
void dump(FILE *F);
/// Print a source code representation of the program.
void pprint(llvm::raw_ostream &OS);
/// Create the Cloog AST from this program.
struct clast_root *getClast();
};
Cloog::Cloog(Scop *Scop) : S(Scop) {
State = cloog_isl_state_malloc(Scop->getIslCtx());
buildCloogOptions();
ClastRoot = cloog_clast_create_from_input(buildCloogInput(), Options);
}
Cloog::~Cloog() {
cloog_clast_free(ClastRoot);
cloog_options_free(Options);
cloog_state_free(State);
}
// Create a FILE* write stream and get the output to it written
// to a std::string.
class FileToString {
int FD[2];
FILE *input;
static const int BUFFERSIZE = 20;
char buf[BUFFERSIZE + 1];
public:
FileToString() {
pipe(FD);
input = fdopen(FD[1], "w");
}
~FileToString() {
close(FD[0]);
// close(FD[1]);
}
FILE *getInputFile() { return input; }
void closeInput() {
fclose(input);
close(FD[1]);
}
std::string getOutput() {
std::string output;
int readSize;
while (true) {
readSize = read(FD[0], &buf, BUFFERSIZE);
if (readSize <= 0)
break;
output += std::string(buf, readSize);
}
return output;
}
};
/// Write .cloog input file.
void Cloog::dump(FILE *F) {
CloogInput *Input = buildCloogInput();
cloog_input_dump_cloog(F, Input, Options);
cloog_input_free(Input);
}
/// Print a source code representation of the program.
void Cloog::pprint(raw_ostream &OS) {
FileToString *Output = new FileToString();
clast_pprint(Output->getInputFile(), ClastRoot, 0, Options);
Output->closeInput();
OS << Output->getOutput();
delete (Output);
}
/// Create the Cloog AST from this program.
struct clast_root *Cloog::getClast() { return (clast_root *)ClastRoot; }
void Cloog::buildCloogOptions() {
Options = cloog_options_malloc(State);
Options->quiet = 1;
Options->strides = 1;
Options->save_domains = 1;
Options->noscalars = 1;
// The last loop depth to optimize should be the last scattering dimension.
// CLooG by default will continue to split the loops even after the last
// scattering dimension. This splitting is problematic for the schedules
// calculated by the PoCC/isl/Pluto optimizer. Such schedules contain may
// not be fully defined, but statements without dependences may be mapped
// to the same exeuction time. For such schedules, continuing to split
// may lead to a larger set of if-conditions in the innermost loop.
Options->l = 0;
}
CloogUnionDomain *Cloog::buildCloogUnionDomain() {
CloogUnionDomain *DU = cloog_union_domain_alloc(S->getNumParams());
for (Scop::iterator SI = S->begin(), SE = S->end(); SI != SE; ++SI) {
ScopStmt *Stmt = *SI;
CloogScattering *Scattering;
CloogDomain *Domain;
Scattering = cloog_scattering_from_isl_map(Stmt->getScattering());
Domain = cloog_domain_from_isl_set(Stmt->getDomain());
std::string entryName = Stmt->getBaseName();
DU = cloog_union_domain_add_domain(DU, entryName.c_str(), Domain,
Scattering, Stmt);
}
return DU;
}
CloogInput *Cloog::buildCloogInput() {
// XXX: We do not copy the context of the scop, but use an unconstrained
// context. This 'hack' is necessary as the context may contain bounds
// on parameters such as [n] -> {:0 <= n < 2^32}. Those large
// integers will cause CLooG to construct a clast that contains
// expressions that include these large integers. Such expressions can
// possibly not be evaluated correctly with i64 types. The cloog
// based code generation backend, however, can not derive types
// automatically and just assumes i64 types. Hence, it will break or
// generate incorrect code.
// This hack does not remove all possibilities of incorrectly generated
// code, but it is ensures that for most problems the problems do not
// show up. The correct solution, will be to automatically derive the
// minimal types for each expression. This could be added to CLooG and it
// will be available in the isl based code generation.
isl_set *EmptyContext = isl_set_universe(S->getParamSpace());
CloogDomain *Context = cloog_domain_from_isl_set(EmptyContext);
CloogUnionDomain *Statements = buildCloogUnionDomain();
isl_set *ScopContext = S->getContext();
for (unsigned i = 0; i < isl_set_dim(ScopContext, isl_dim_param); i++) {
isl_id *id = isl_set_get_dim_id(ScopContext, isl_dim_param, i);
Statements = cloog_union_domain_set_name(Statements, CLOOG_PARAM, i,
isl_id_get_name(id));
isl_id_free(id);
}
isl_set_free(ScopContext);
CloogInput *Input = cloog_input_alloc(Context, Statements);
return Input;
}
void ClastVisitor::visit(const clast_stmt *stmt) {
if (CLAST_STMT_IS_A(stmt, stmt_root))
assert(false && "No second root statement expected");
else if (CLAST_STMT_IS_A(stmt, stmt_ass))
return visitAssignment((const clast_assignment *)stmt);
else if (CLAST_STMT_IS_A(stmt, stmt_user))
return visitUser((const clast_user_stmt *)stmt);
else if (CLAST_STMT_IS_A(stmt, stmt_block))
return visitBlock((const clast_block *)stmt);
else if (CLAST_STMT_IS_A(stmt, stmt_for))
return visitFor((const clast_for *)stmt);
else if (CLAST_STMT_IS_A(stmt, stmt_guard))
return visitGuard((const clast_guard *)stmt);
if (stmt->next)
visit(stmt->next);
}
void ClastVisitor::visitAssignment(const clast_assignment *stmt) {}
void ClastVisitor::visitBlock(const clast_block *stmt) { visit(stmt->body); }
void ClastVisitor::visitFor(const clast_for *stmt) { visit(stmt->body); }
void ClastVisitor::visitGuard(const clast_guard *stmt) { visit(stmt->then); }
} // End namespace polly.
namespace {
struct CloogExporter : public ScopPass {
static char ID;
Scop *S;
explicit CloogExporter() : ScopPass(ID) {}
std::string getFileName(Region *R) const;
virtual bool runOnScop(Scop &S);
void getAnalysisUsage(AnalysisUsage &AU) const;
};
}
std::string CloogExporter::getFileName(Region *R) const {
std::string FunctionName = R->getEntry()->getParent()->getName();
std::string ExitName, EntryName;
raw_string_ostream ExitStr(ExitName);
raw_string_ostream EntryStr(EntryName);
R->getEntry()->printAsOperand(EntryStr, false);
EntryStr.str();
if (R->getExit()) {
R->getExit()->printAsOperand(ExitStr, false);
ExitStr.str();
} else
ExitName = "FunctionExit";
std::string RegionName = EntryName + "---" + ExitName;
std::string FileName = FunctionName + "___" + RegionName + ".cloog";
return FileName;
}
char CloogExporter::ID = 0;
bool CloogExporter::runOnScop(Scop &S) {
Region &R = S.getRegion();
CloogInfo &C = getAnalysis<CloogInfo>();
std::string FunctionName = R.getEntry()->getParent()->getName();
std::string Filename = getFileName(&R);
errs() << "Writing Scop '" << R.getNameStr() << "' in function '"
<< FunctionName << "' to '" << Filename << "'...\n";
FILE *F = fopen(Filename.c_str(), "w");
C.dump(F);
fclose(F);
return false;
}
void CloogExporter::getAnalysisUsage(AnalysisUsage &AU) const {
// Get the Common analysis usage of ScopPasses.
ScopPass::getAnalysisUsage(AU);
AU.addRequired<CloogInfo>();
}
static RegisterPass<CloogExporter> A("polly-export-cloog",
"Polly - Export the Cloog input file"
" (Writes a .cloog file for each Scop)");
llvm::Pass *polly::createCloogExporterPass() { return new CloogExporter(); }
/// Write a .cloog input file
void CloogInfo::dump(FILE *F) { C->dump(F); }
/// Print a source code representation of the program.
void CloogInfo::pprint(llvm::raw_ostream &OS) { C->pprint(OS); }
/// Create the Cloog AST from this program.
const struct clast_root *CloogInfo::getClast() { return C->getClast(); }
void CloogInfo::releaseMemory() {
if (C) {
delete C;
C = 0;
}
}
bool CloogInfo::runOnScop(Scop &S) {
if (C)
delete C;
scop = &S;
C = new Cloog(&S);
Function *F = S.getRegion().getEntry()->getParent();
(void)F;
DEBUG(dbgs() << ":: " << F->getName());
DEBUG(dbgs() << " : " << S.getRegion().getNameStr() << "\n");
DEBUG(C->pprint(dbgs()));
return false;
}
void CloogInfo::printScop(raw_ostream &OS) const {
Function *function = scop->getRegion().getEntry()->getParent();
OS << function->getName() << "():\n";
C->pprint(OS);
}
void CloogInfo::getAnalysisUsage(AnalysisUsage &AU) const {
// Get the Common analysis usage of ScopPasses.
ScopPass::getAnalysisUsage(AU);
}
char CloogInfo::ID = 0;
Pass *polly::createCloogInfoPass() { return new CloogInfo(); }
INITIALIZE_PASS_BEGIN(CloogInfo, "polly-cloog", "Execute Cloog code generation",
false, false);
INITIALIZE_PASS_DEPENDENCY(ScopInfo);
INITIALIZE_PASS_END(CloogInfo, "polly-cloog", "Execute Cloog code generation",
false, false)
#endif // CLOOG_FOUND
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