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clang-p2996/polly/lib/Analysis/ScopGraphPrinter.cpp
Tobias Grosser a63b7cee66 Adding debug location information to Polly's JSCOP and dot exports 
This change adds location information for the detected regions in Polly when the
required debug information is available.

The JSCOP output format is extended with a "location" field which contains the
information in the format "source.c:start-end"

The dot output is extended to contain the location information for each nested
region in the analyzed function.

As part of this change, the existing getDebugLocation function has been moved
into lib/Support/ScopLocation.cpp to avoid having to include
polly/ScopDetectionDiagnostics.h.

Differential Revision: http://reviews.llvm.org/D9431

Contributed-by: Roal Jordans <r.jordans@tue.nl>
llvm-svn: 236393
2015-05-03 05:21:36 +00:00

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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"
using namespace polly;
using namespace llvm;
namespace llvm {
template <>
struct GraphTraits<ScopDetection *> : public GraphTraits<RegionInfo *> {
static NodeType *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 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<ScopDetection *> : public DOTGraphTraits<RegionNode *> {
DOTGraphTraits(bool isSimple = false)
: DOTGraphTraits<RegionNode *>(isSimple) {}
static std::string getGraphName(ScopDetection *SD) { return "Scop Graph"; }
std::string getEdgeAttributes(RegionNode *srcNode,
GraphTraits<RegionInfo *>::ChildIteratorType CI,
ScopDetection *SD) {
RegionNode *destNode = *CI;
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, ScopDetection *SD) {
return DOTGraphTraits<RegionNode *>::getNodeLabel(
Node, reinterpret_cast<RegionNode *>(SD->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 ScopDetection *SD,
GraphWriter<ScopDetection *> &GW) {
raw_ostream &O = GW.getOStream();
O << "\tcolorscheme = \"paired12\"\n";
printRegionCluster(SD, SD->getRI()->getTopLevelRegion(), O, 4);
}
};
} // end namespace llvm
struct ScopViewer : public DOTGraphTraitsViewer<ScopDetection, false> {
static char ID;
ScopViewer() : DOTGraphTraitsViewer<ScopDetection, false>("scops", ID) {}
};
char ScopViewer::ID = 0;
struct ScopOnlyViewer : public DOTGraphTraitsViewer<ScopDetection, true> {
static char ID;
ScopOnlyViewer()
: DOTGraphTraitsViewer<ScopDetection, true>("scopsonly", ID) {}
};
char ScopOnlyViewer::ID = 0;
struct ScopPrinter : public DOTGraphTraitsPrinter<ScopDetection, false> {
static char ID;
ScopPrinter() : DOTGraphTraitsPrinter<ScopDetection, false>("scops", ID) {}
};
char ScopPrinter::ID = 0;
struct ScopOnlyPrinter : public DOTGraphTraitsPrinter<ScopDetection, true> {
static char ID;
ScopOnlyPrinter()
: DOTGraphTraitsPrinter<ScopDetection, 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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