llvm-6502/include/llvm/CodeGen/GCMetadata.h
Philip Reames 5e62b8471d GCStrategy should not own GCFunctionInfo
This change moves the ownership and access of GCFunctionInfo (the object which describes the safepoints associated with a safepoint under GCRoot) to GCModuleInfo. Previously, this was owned by GCStrategy which was in turned owned by GCModuleInfo. This made GCStrategy module specific which is 'surprising' given it's name and other purposes.

There's a few more changes needed, but we're getting towards the point we can reuse GCStrategy for gc.statepoint as well.

p.s. The style of this code ends up being a mess. I was trying to move code around without otherwise changing much. Once I get the ownership structure rearranged, I will go through and fixup spacing, naming, comments etc.

Differential Revision: http://reviews.llvm.org/D6587



git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@223994 91177308-0d34-0410-b5e6-96231b3b80d8
2014-12-11 01:47:23 +00:00

219 lines
7.5 KiB
C++

//===-- GCMetadata.h - Garbage collector metadata ---------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file declares the GCFunctionInfo and GCModuleInfo classes, which are
// used as a communication channel from the target code generator to the target
// garbage collectors. This interface allows code generators and garbage
// collectors to be developed independently.
//
// The GCFunctionInfo class logs the data necessary to build a type accurate
// stack map. The code generator outputs:
//
// - Safe points as specified by the GCStrategy's NeededSafePoints.
// - Stack offsets for GC roots, as specified by calls to llvm.gcroot
//
// As a refinement, liveness analysis calculates the set of live roots at each
// safe point. Liveness analysis is not presently performed by the code
// generator, so all roots are assumed live.
//
// GCModuleInfo simply collects GCFunctionInfo instances for each Function as
// they are compiled. This accretion is necessary for collectors which must emit
// a stack map for the compilation unit as a whole. Therefore, GCFunctionInfo
// outlives the MachineFunction from which it is derived and must not refer to
// any code generator data structures.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CODEGEN_GCMETADATA_H
#define LLVM_CODEGEN_GCMETADATA_H
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/IR/DebugLoc.h"
#include "llvm/Pass.h"
#include <memory>
namespace llvm {
class AsmPrinter;
class GCStrategy;
class Constant;
class MCSymbol;
namespace GC {
/// PointKind - The type of a collector-safe point.
///
enum PointKind {
Loop, ///< Instr is a loop (backwards branch).
Return, ///< Instr is a return instruction.
PreCall, ///< Instr is a call instruction.
PostCall ///< Instr is the return address of a call.
};
}
/// GCPoint - Metadata for a collector-safe point in machine code.
///
struct GCPoint {
GC::PointKind Kind; ///< The kind of the safe point.
MCSymbol *Label; ///< A label.
DebugLoc Loc;
GCPoint(GC::PointKind K, MCSymbol *L, DebugLoc DL)
: Kind(K), Label(L), Loc(DL) {}
};
/// GCRoot - Metadata for a pointer to an object managed by the garbage
/// collector.
struct GCRoot {
int Num; ///< Usually a frame index.
int StackOffset; ///< Offset from the stack pointer.
const Constant *Metadata; ///< Metadata straight from the call
///< to llvm.gcroot.
GCRoot(int N, const Constant *MD) : Num(N), StackOffset(-1), Metadata(MD) {}
};
/// Garbage collection metadata for a single function. Currently, this
/// information only applies to GCStrategies which use GCRoot.
class GCFunctionInfo {
public:
typedef std::vector<GCPoint>::iterator iterator;
typedef std::vector<GCRoot>::iterator roots_iterator;
typedef std::vector<GCRoot>::const_iterator live_iterator;
private:
const Function &F;
GCStrategy &S;
uint64_t FrameSize;
std::vector<GCRoot> Roots;
std::vector<GCPoint> SafePoints;
// FIXME: Liveness. A 2D BitVector, perhaps?
//
// BitVector Liveness;
//
// bool islive(int point, int root) =
// Liveness[point * SafePoints.size() + root]
//
// The bit vector is the more compact representation where >3.2% of roots
// are live per safe point (1.5% on 64-bit hosts).
public:
GCFunctionInfo(const Function &F, GCStrategy &S);
~GCFunctionInfo();
/// getFunction - Return the function to which this metadata applies.
///
const Function &getFunction() const { return F; }
/// getStrategy - Return the GC strategy for the function.
///
GCStrategy &getStrategy() { return S; }
/// addStackRoot - Registers a root that lives on the stack. Num is the
/// stack object ID for the alloca (if the code generator is
// using MachineFrameInfo).
void addStackRoot(int Num, const Constant *Metadata) {
Roots.push_back(GCRoot(Num, Metadata));
}
/// removeStackRoot - Removes a root.
roots_iterator removeStackRoot(roots_iterator position) {
return Roots.erase(position);
}
/// addSafePoint - Notes the existence of a safe point. Num is the ID of the
/// label just prior to the safe point (if the code generator is using
/// MachineModuleInfo).
void addSafePoint(GC::PointKind Kind, MCSymbol *Label, DebugLoc DL) {
SafePoints.push_back(GCPoint(Kind, Label, DL));
}
/// getFrameSize/setFrameSize - Records the function's frame size.
///
uint64_t getFrameSize() const { return FrameSize; }
void setFrameSize(uint64_t S) { FrameSize = S; }
/// begin/end - Iterators for safe points.
///
iterator begin() { return SafePoints.begin(); }
iterator end() { return SafePoints.end(); }
size_t size() const { return SafePoints.size(); }
/// roots_begin/roots_end - Iterators for all roots in the function.
///
roots_iterator roots_begin() { return Roots.begin(); }
roots_iterator roots_end () { return Roots.end(); }
size_t roots_size() const { return Roots.size(); }
/// live_begin/live_end - Iterators for live roots at a given safe point.
///
live_iterator live_begin(const iterator &p) { return roots_begin(); }
live_iterator live_end (const iterator &p) { return roots_end(); }
size_t live_size(const iterator &p) const { return roots_size(); }
};
/// An analysis pass which caches information about the entire Module.
/// Records both the function level information used by GCRoots and a
/// cache of the 'active' gc strategy objects for the current Module.
class GCModuleInfo : public ImmutablePass {
typedef StringMap<GCStrategy*> strategy_map_type;
typedef std::vector<std::unique_ptr<GCStrategy>> list_type;
strategy_map_type StrategyMap;
list_type StrategyList;
GCStrategy *getOrCreateStrategy(const Module *M, const std::string &Name);
public:
/// List of per function info objects. In theory, Each of these
/// may be associated with a different GC.
typedef std::vector<std::unique_ptr<GCFunctionInfo>> FuncInfoVec;
FuncInfoVec::iterator funcinfo_begin() { return Functions.begin(); }
FuncInfoVec::iterator funcinfo_end() { return Functions.end(); }
private:
/// Owning list of all GCFunctionInfos associated with this Module
FuncInfoVec Functions;
/// Non-owning map to bypass linear search when finding the GCFunctionInfo
/// associated with a particular Function.
typedef DenseMap<const Function*,GCFunctionInfo*> finfo_map_type;
finfo_map_type FInfoMap;
public:
typedef list_type::const_iterator iterator;
static char ID;
GCModuleInfo();
/// clear - Resets the pass. Any pass, which uses GCModuleInfo, should
/// call it in doFinalization().
///
void clear();
/// begin/end - Iterators for used strategies.
///
iterator begin() const { return StrategyList.begin(); }
iterator end() const { return StrategyList.end(); }
/// get - Look up function metadata. This is currently assumed
/// have the side effect of initializing the associated GCStrategy. That
/// will soon change.
GCFunctionInfo &getFunctionInfo(const Function &F);
};
}
#endif