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//===- GraphPrinter.cpp - Create a DOT output describing the Scop. --------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Create a DOT output describing the Scop.
//
// For each function a dot file is created that shows the control flow graph of
// the function and highlights the detected Scops.
//
//===----------------------------------------------------------------------===//
#include "polly/LinkAllPasses.h"
#include "polly/ScopDetection.h"
#include "polly/Support/ScopLocation.h"
#include "llvm/Analysis/DOTGraphTraitsPass.h"
#include "llvm/Analysis/RegionInfo.h"
#include "llvm/Analysis/RegionIterator.h"
#include "llvm/Support/CommandLine.h"
using namespace polly;
using namespace llvm;
static cl::opt<std::string>
ViewFilter("polly-view-only",
cl::desc("Only view functions that match this pattern"),
cl::Hidden, cl::init(""), cl::ZeroOrMore);
static cl::opt<bool> ViewAll("polly-view-all",
cl::desc("Also show functions without any scops"),
cl::Hidden, cl::init(false), cl::ZeroOrMore);
namespace llvm {
template <>
struct GraphTraits<ScopDetection *> : public GraphTraits<RegionInfo *> {
static NodeRef getEntryNode(ScopDetection *SD) {
return GraphTraits<RegionInfo *>::getEntryNode(SD->getRI());
}
static nodes_iterator nodes_begin(ScopDetection *SD) {
return nodes_iterator::begin(getEntryNode(SD));
}
static nodes_iterator nodes_end(ScopDetection *SD) {
return nodes_iterator::end(getEntryNode(SD));
}
};
template <>
struct GraphTraits<ScopDetectionWrapperPass *>
: public GraphTraits<ScopDetection *> {
static NodeRef getEntryNode(ScopDetectionWrapperPass *P) {
return GraphTraits<ScopDetection *>::getEntryNode(&P->getSD());
}
static nodes_iterator nodes_begin(ScopDetectionWrapperPass *P) {
return nodes_iterator::begin(getEntryNode(P));
}
static nodes_iterator nodes_end(ScopDetectionWrapperPass *P) {
return nodes_iterator::end(getEntryNode(P));
}
};
template <> struct DOTGraphTraits<RegionNode *> : public DefaultDOTGraphTraits {
DOTGraphTraits(bool isSimple = false) : DefaultDOTGraphTraits(isSimple) {}
std::string getNodeLabel(RegionNode *Node, RegionNode *Graph) {
if (!Node->isSubRegion()) {
BasicBlock *BB = Node->getNodeAs<BasicBlock>();
if (isSimple())
return DOTGraphTraits<const Function *>::getSimpleNodeLabel(
BB, BB->getParent());
else
return DOTGraphTraits<const Function *>::getCompleteNodeLabel(
BB, BB->getParent());
}
return "Not implemented";
}
};
template <>
struct DOTGraphTraits<ScopDetectionWrapperPass *>
: public DOTGraphTraits<RegionNode *> {
DOTGraphTraits(bool isSimple = false)
: DOTGraphTraits<RegionNode *>(isSimple) {}
static std::string getGraphName(ScopDetectionWrapperPass *SD) {
return "Scop Graph";
}
std::string getEdgeAttributes(RegionNode *srcNode,
GraphTraits<RegionInfo *>::ChildIteratorType CI,
ScopDetectionWrapperPass *P) {
RegionNode *destNode = *CI;
auto *SD = &P->getSD();
if (srcNode->isSubRegion() || destNode->isSubRegion())
return "";
// In case of a backedge, do not use it to define the layout of the nodes.
BasicBlock *srcBB = srcNode->getNodeAs<BasicBlock>();
BasicBlock *destBB = destNode->getNodeAs<BasicBlock>();
RegionInfo *RI = SD->getRI();
Region *R = RI->getRegionFor(destBB);
while (R && R->getParent())
if (R->getParent()->getEntry() == destBB)
R = R->getParent();
else
break;
if (R && R->getEntry() == destBB && R->contains(srcBB))
return "constraint=false";
return "";
}
std::string getNodeLabel(RegionNode *Node, ScopDetectionWrapperPass *P) {
return DOTGraphTraits<RegionNode *>::getNodeLabel(
Node, reinterpret_cast<RegionNode *>(
P->getSD().getRI()->getTopLevelRegion()));
}
static std::string escapeString(std::string String) {
std::string Escaped;
for (const auto &C : String) {
if (C == '"')
Escaped += '\\';
Escaped += C;
}
return Escaped;
}
// Print the cluster of the subregions. This groups the single basic blocks
// and adds a different background color for each group.
static void printRegionCluster(const ScopDetection *SD, const Region *R,
raw_ostream &O, unsigned depth = 0) {
O.indent(2 * depth) << "subgraph cluster_" << static_cast<const void *>(R)
<< " {\n";
unsigned LineBegin, LineEnd;
std::string FileName;
getDebugLocation(R, LineBegin, LineEnd, FileName);
std::string Location;
if (LineBegin != (unsigned)-1) {
Location = escapeString(FileName + ":" + std::to_string(LineBegin) + "-" +
std::to_string(LineEnd) + "\n");
}
std::string ErrorMessage = SD->regionIsInvalidBecause(R);
ErrorMessage = escapeString(ErrorMessage);
O.indent(2 * (depth + 1))
<< "label = \"" << Location << ErrorMessage << "\";\n";
if (SD->isMaxRegionInScop(*R)) {
O.indent(2 * (depth + 1)) << "style = filled;\n";
// Set color to green.
O.indent(2 * (depth + 1)) << "color = 3";
} else {
O.indent(2 * (depth + 1)) << "style = solid;\n";
int color = (R->getDepth() * 2 % 12) + 1;
// We do not want green again.
if (color == 3)
color = 6;
O.indent(2 * (depth + 1)) << "color = " << color << "\n";
}
for (const auto &SubRegion : *R)
printRegionCluster(SD, SubRegion.get(), O, depth + 1);
RegionInfo *RI = R->getRegionInfo();
for (const auto &BB : R->blocks())
if (RI->getRegionFor(BB) == R)
O.indent(2 * (depth + 1))
<< "Node"
<< static_cast<void *>(RI->getTopLevelRegion()->getBBNode(BB))
<< ";\n";
O.indent(2 * depth) << "}\n";
}
static void
addCustomGraphFeatures(const ScopDetectionWrapperPass *SD,
GraphWriter<ScopDetectionWrapperPass *> &GW) {
raw_ostream &O = GW.getOStream();
O << "\tcolorscheme = \"paired12\"\n";
printRegionCluster(&SD->getSD(), SD->getSD().getRI()->getTopLevelRegion(),
O, 4);
}
};
} // end namespace llvm
struct ScopViewer
: public DOTGraphTraitsViewer<ScopDetectionWrapperPass, false> {
static char ID;
ScopViewer()
: DOTGraphTraitsViewer<ScopDetectionWrapperPass, false>("scops", ID) {}
bool processFunction(Function &F, ScopDetectionWrapperPass &SD) override {
if (ViewFilter != "" && !F.getName().count(ViewFilter))
return false;
if (ViewAll)
return true;
// Check that at least one scop was detected.
return std::distance(SD.getSD().begin(), SD.getSD().end()) > 0;
}
};
char ScopViewer::ID = 0;
struct ScopOnlyViewer
: public DOTGraphTraitsViewer<ScopDetectionWrapperPass, true> {
static char ID;
ScopOnlyViewer()
: DOTGraphTraitsViewer<ScopDetectionWrapperPass, true>("scopsonly", ID) {}
};
char ScopOnlyViewer::ID = 0;
struct ScopPrinter
: public DOTGraphTraitsPrinter<ScopDetectionWrapperPass, false> {
static char ID;
ScopPrinter()
: DOTGraphTraitsPrinter<ScopDetectionWrapperPass, false>("scops", ID) {}
};
char ScopPrinter::ID = 0;
struct ScopOnlyPrinter
: public DOTGraphTraitsPrinter<ScopDetectionWrapperPass, true> {
static char ID;
ScopOnlyPrinter()
: DOTGraphTraitsPrinter<ScopDetectionWrapperPass, true>("scopsonly", ID) {
}
};
char ScopOnlyPrinter::ID = 0;
static RegisterPass<ScopViewer> X("view-scops",
"Polly - View Scops of function");
static RegisterPass<ScopOnlyViewer>
Y("view-scops-only",
"Polly - View Scops of function (with no function bodies)");
static RegisterPass<ScopPrinter> M("dot-scops",
"Polly - Print Scops of function");
static RegisterPass<ScopOnlyPrinter>
N("dot-scops-only",
"Polly - Print Scops of function (with no function bodies)");
Pass *polly::createDOTViewerPass() { return new ScopViewer(); }
Pass *polly::createDOTOnlyViewerPass() { return new ScopOnlyViewer(); }
Pass *polly::createDOTPrinterPass() { return new ScopPrinter(); }
Pass *polly::createDOTOnlyPrinterPass() { return new ScopOnlyPrinter(); }
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