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llvm-mirror/include/llvm/Analysis/InlineCost.h

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2010-04-22 07:33:15 +02:00
//===- InlineCost.h - Cost analysis for inliner -----------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements heuristics for inlining decisions.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_ANALYSIS_INLINECOST_H
#define LLVM_ANALYSIS_INLINECOST_H
#include <cassert>
#include <climits>
#include <vector>
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/ValueMap.h"
#include "llvm/Analysis/CodeMetrics.h"
namespace llvm {
class Value;
class Function;
class BasicBlock;
class CallSite;
template<class PtrType, unsigned SmallSize>
class SmallPtrSet;
namespace InlineConstants {
// Various magic constants used to adjust heuristics.
const int InstrCost = 5;
const int IndirectCallBonus = -100;
const int CallPenalty = 25;
const int LastCallToStaticBonus = -15000;
const int ColdccPenalty = 2000;
const int NoreturnPenalty = 10000;
}
/// InlineCost - Represent the cost of inlining a function. This
/// supports special values for functions which should "always" or
/// "never" be inlined. Otherwise, the cost represents a unitless
/// amount; smaller values increase the likelyhood of the function
/// being inlined.
class InlineCost {
enum Kind {
Value,
Always,
Never
};
// This is a do-it-yourself implementation of
// int Cost : 30;
// unsigned Type : 2;
// We used to use bitfields, but they were sometimes miscompiled (PR3822).
enum { TYPE_BITS = 2 };
enum { COST_BITS = unsigned(sizeof(unsigned)) * CHAR_BIT - TYPE_BITS };
unsigned TypedCost; // int Cost : COST_BITS; unsigned Type : TYPE_BITS;
Kind getType() const {
return Kind(TypedCost >> COST_BITS);
}
int getCost() const {
// Sign-extend the bottom COST_BITS bits.
return (int(TypedCost << TYPE_BITS)) >> TYPE_BITS;
}
InlineCost(int C, int T) {
TypedCost = (unsigned(C << TYPE_BITS) >> TYPE_BITS) | (T << COST_BITS);
assert(getCost() == C && "Cost exceeds InlineCost precision");
}
public:
static InlineCost get(int Cost) { return InlineCost(Cost, Value); }
static InlineCost getAlways() { return InlineCost(0, Always); }
static InlineCost getNever() { return InlineCost(0, Never); }
bool isVariable() const { return getType() == Value; }
bool isAlways() const { return getType() == Always; }
bool isNever() const { return getType() == Never; }
/// getValue() - Return a "variable" inline cost's amount. It is
/// an error to call this on an "always" or "never" InlineCost.
int getValue() const {
assert(getType() == Value && "Invalid access of InlineCost");
return getCost();
}
};
/// InlineCostAnalyzer - Cost analyzer used by inliner.
class InlineCostAnalyzer {
struct ArgInfo {
public:
unsigned ConstantWeight;
unsigned AllocaWeight;
ArgInfo(unsigned CWeight, unsigned AWeight)
: ConstantWeight(CWeight), AllocaWeight(AWeight)
{}
};
struct FunctionInfo {
CodeMetrics Metrics;
/// ArgumentWeights - Each formal argument of the function is inspected to
/// see if it is used in any contexts where making it a constant or alloca
/// would reduce the code size. If so, we add some value to the argument
/// entry here.
std::vector<ArgInfo> ArgumentWeights;
/// analyzeFunction - Add information about the specified function
/// to the current structure.
void analyzeFunction(Function *F);
/// NeverInline - Returns true if the function should never be
/// inlined into any caller.
bool NeverInline();
};
// The Function* for a function can be changed (by ArgumentPromotion);
// the ValueMap will update itself when this happens.
ValueMap<const Function *, FunctionInfo> CachedFunctionInfo;
int CountBonusForConstant(Value *V, Constant *C = NULL);
int ConstantFunctionBonus(CallSite CS, Constant *C);
int getInlineSize(CallSite CS, Function *Callee);
int getInlineBonuses(CallSite CS, Function *Callee);
public:
/// getInlineCost - The heuristic used to determine if we should inline the
/// function call or not.
///
InlineCost getInlineCost(CallSite CS,
SmallPtrSet<const Function *, 16> &NeverInline);
/// getCalledFunction - The heuristic used to determine if we should inline
/// the function call or not. The callee is explicitly specified, to allow
/// you to calculate the cost of inlining a function via a pointer. The
/// result assumes that the inlined version will always be used. You should
/// weight it yourself in cases where this callee will not always be called.
InlineCost getInlineCost(CallSite CS,
Function *Callee,
SmallPtrSet<const Function *, 16> &NeverInline);
/// getSpecializationBonus - The heuristic used to determine the per-call
/// performance boost for using a specialization of Callee with argument
/// SpecializedArgNos replaced by a constant.
int getSpecializationBonus(Function *Callee,
SmallVectorImpl<unsigned> &SpecializedArgNo);
/// getSpecializationCost - The heuristic used to determine the code-size
/// impact of creating a specialized version of Callee with argument
/// SpecializedArgNo replaced by a constant.
InlineCost getSpecializationCost(Function *Callee,
SmallVectorImpl<unsigned> &SpecializedArgNo);
/// getInlineFudgeFactor - Return a > 1.0 factor if the inliner should use a
/// higher threshold to determine if the function call should be inlined.
2008-05-31 00:47:19 +02:00
float getInlineFudgeFactor(CallSite CS);
/// resetCachedFunctionInfo - erase any cached cost info for this function.
void resetCachedCostInfo(Function* Caller) {
CachedFunctionInfo[Caller] = FunctionInfo();
}
/// growCachedCostInfo - update the cached cost info for Caller after Callee
/// has been inlined. If Callee is NULL it means a dead call has been
/// eliminated.
void growCachedCostInfo(Function* Caller, Function* Callee);
/// clear - empty the cache of inline costs
void clear();
};
/// callIsSmall - If a call is likely to lower to a single target instruction,
/// or is otherwise deemed small return true.
bool callIsSmall(const Function *Callee);
}
#endif