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llvm-6502/utils/TableGen/DAGISelEmitter.cpp
Chris Lattner 283d1ceb57 Switch pattern sorting predicate from stable sort -> sort, it 
doesn't need to be stable because the patterns are fully ordered.

Add a first level sort predicate that orders patterns in this
order:  1) scalar integer operations 2) scalar floating point 
3) vector int 4) vector float.  This is a trivial sort on their
top level pattern type so it is nice and transitive.  The
benefit of doing this is that simple integer operations are
much more common than insane vector things and isel was trying
to match the big complex vector patterns before the simple
ones because the complexity of the vector operations was much
higher.  Since they can't both match, it is best (for compile
time) to try the simple integer ones first.

This cuts down the # failed match attempts on real code by
quite a bit, for example, this reduces backtracks on crafty
(as a random example) from 228285 -> 188369.


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@99797 91177308-0d34-0410-b5e6-96231b3b80d8
2010-03-29 02:02:45 +00:00

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//===- DAGISelEmitter.cpp - Generate an instruction selector --------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This tablegen backend emits a DAG instruction selector.
//
//===----------------------------------------------------------------------===//
#include "DAGISelEmitter.h"
#include "DAGISelMatcher.h"
#include "Record.h"
#include "llvm/Support/Debug.h"
using namespace llvm;
//===----------------------------------------------------------------------===//
// DAGISelEmitter Helper methods
//
/// getResultPatternCost - Compute the number of instructions for this pattern.
/// This is a temporary hack. We should really include the instruction
/// latencies in this calculation.
static unsigned getResultPatternCost(TreePatternNode *P,
CodeGenDAGPatterns &CGP) {
if (P->isLeaf()) return 0;
unsigned Cost = 0;
Record *Op = P->getOperator();
if (Op->isSubClassOf("Instruction")) {
Cost++;
CodeGenInstruction &II = CGP.getTargetInfo().getInstruction(Op);
if (II.usesCustomInserter)
Cost += 10;
}
for (unsigned i = 0, e = P->getNumChildren(); i != e; ++i)
Cost += getResultPatternCost(P->getChild(i), CGP);
return Cost;
}
/// getResultPatternCodeSize - Compute the code size of instructions for this
/// pattern.
static unsigned getResultPatternSize(TreePatternNode *P,
CodeGenDAGPatterns &CGP) {
if (P->isLeaf()) return 0;
unsigned Cost = 0;
Record *Op = P->getOperator();
if (Op->isSubClassOf("Instruction")) {
Cost += Op->getValueAsInt("CodeSize");
}
for (unsigned i = 0, e = P->getNumChildren(); i != e; ++i)
Cost += getResultPatternSize(P->getChild(i), CGP);
return Cost;
}
//===----------------------------------------------------------------------===//
// Predicate emitter implementation.
//
void DAGISelEmitter::EmitPredicateFunctions(raw_ostream &OS) {
OS << "\n// Predicate functions.\n";
// Walk the pattern fragments, adding them to a map, which sorts them by
// name.
typedef std::map<std::string, std::pair<Record*, TreePattern*> > PFsByNameTy;
PFsByNameTy PFsByName;
for (CodeGenDAGPatterns::pf_iterator I = CGP.pf_begin(), E = CGP.pf_end();
I != E; ++I)
PFsByName.insert(std::make_pair(I->first->getName(), *I));
for (PFsByNameTy::iterator I = PFsByName.begin(), E = PFsByName.end();
I != E; ++I) {
Record *PatFragRecord = I->second.first;// Record that derives from PatFrag.
TreePattern *P = I->second.second;
// If there is a code init for this fragment, emit the predicate code.
std::string Code = PatFragRecord->getValueAsCode("Predicate");
if (Code.empty()) continue;
if (P->getOnlyTree()->isLeaf())
OS << "inline bool Predicate_" << PatFragRecord->getName()
<< "(SDNode *N) const {\n";
else {
std::string ClassName =
CGP.getSDNodeInfo(P->getOnlyTree()->getOperator()).getSDClassName();
const char *C2 = ClassName == "SDNode" ? "N" : "inN";
OS << "inline bool Predicate_" << PatFragRecord->getName()
<< "(SDNode *" << C2 << ") const {\n";
if (ClassName != "SDNode")
OS << " " << ClassName << " *N = cast<" << ClassName << ">(inN);\n";
}
OS << Code << "\n}\n";
}
OS << "\n\n";
}
namespace {
// PatternSortingPredicate - return true if we prefer to match LHS before RHS.
// In particular, we want to match maximal patterns first and lowest cost within
// a particular complexity first.
struct PatternSortingPredicate {
PatternSortingPredicate(CodeGenDAGPatterns &cgp) : CGP(cgp) {}
CodeGenDAGPatterns &CGP;
bool operator()(const PatternToMatch *LHS, const PatternToMatch *RHS) {
const TreePatternNode *LHSSrc = LHS->getSrcPattern();
const TreePatternNode *RHSSrc = RHS->getSrcPattern();
if (LHSSrc->getNumTypes() != 0 && RHSSrc->getNumTypes() != 0 &&
LHSSrc->getType(0) != RHSSrc->getType(0)) {
MVT::SimpleValueType V1 = LHSSrc->getType(0), V2 = RHSSrc->getType(0);
if (MVT(V1).isVector() != MVT(V2).isVector())
return MVT(V2).isVector();
if (MVT(V1).isFloatingPoint() != MVT(V2).isFloatingPoint())
return MVT(V2).isFloatingPoint();
}
// Otherwise, if the patterns might both match, sort based on complexity,
// which means that we prefer to match patterns that cover more nodes in the
// input over nodes that cover fewer.
unsigned LHSSize = LHS->getPatternComplexity(CGP);
unsigned RHSSize = RHS->getPatternComplexity(CGP);
if (LHSSize > RHSSize) return true; // LHS -> bigger -> less cost
if (LHSSize < RHSSize) return false;
// If the patterns have equal complexity, compare generated instruction cost
unsigned LHSCost = getResultPatternCost(LHS->getDstPattern(), CGP);
unsigned RHSCost = getResultPatternCost(RHS->getDstPattern(), CGP);
if (LHSCost < RHSCost) return true;
if (LHSCost > RHSCost) return false;
unsigned LHSPatSize = getResultPatternSize(LHS->getDstPattern(), CGP);
unsigned RHSPatSize = getResultPatternSize(RHS->getDstPattern(), CGP);
if (LHSPatSize < RHSPatSize) return true;
if (LHSPatSize > RHSPatSize) return false;
// Sort based on the UID of the pattern, giving us a deterministic ordering
// if all other sorting conditions fail.
assert(LHS == RHS || LHS->ID != RHS->ID);
return LHS->ID < RHS->ID;
}
};
}
void DAGISelEmitter::run(raw_ostream &OS) {
EmitSourceFileHeader("DAG Instruction Selector for the " +
CGP.getTargetInfo().getName() + " target", OS);
OS << "// *** NOTE: This file is #included into the middle of the target\n"
<< "// *** instruction selector class. These functions are really "
<< "methods.\n\n";
DEBUG(errs() << "\n\nALL PATTERNS TO MATCH:\n\n";
for (CodeGenDAGPatterns::ptm_iterator I = CGP.ptm_begin(),
E = CGP.ptm_end(); I != E; ++I) {
errs() << "PATTERN: "; I->getSrcPattern()->dump();
errs() << "\nRESULT: "; I->getDstPattern()->dump();
errs() << "\n";
});
// FIXME: These are being used by hand written code, gross.
EmitPredicateFunctions(OS);
// Add all the patterns to a temporary list so we can sort them.
std::vector<const PatternToMatch*> Patterns;
for (CodeGenDAGPatterns::ptm_iterator I = CGP.ptm_begin(), E = CGP.ptm_end();
I != E; ++I)
Patterns.push_back(&*I);
// We want to process the matches in order of minimal cost. Sort the patterns
// so the least cost one is at the start.
std::sort(Patterns.begin(), Patterns.end(), PatternSortingPredicate(CGP));
// Convert each variant of each pattern into a Matcher.
std::vector<Matcher*> PatternMatchers;
for (unsigned i = 0, e = Patterns.size(); i != e; ++i) {
for (unsigned Variant = 0; ; ++Variant) {
if (Matcher *M = ConvertPatternToMatcher(*Patterns[i], Variant, CGP))
PatternMatchers.push_back(M);
else
break;
}
}
Matcher *TheMatcher = new ScopeMatcher(&PatternMatchers[0],
PatternMatchers.size());
TheMatcher = OptimizeMatcher(TheMatcher, CGP);
//Matcher->dump();
EmitMatcherTable(TheMatcher, CGP, OS);
delete TheMatcher;
}
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