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45c732502e
Differential Revision: http://reviews.llvm.org/D7756 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@230017 91177308-0d34-0410-b5e6-96231b3b80d8
299 lines
9.6 KiB
C++
299 lines
9.6 KiB
C++
//===-- llvm/IR/Statepoint.h - gc.statepoint utilities ------ --*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file contains utility functions and a wrapper class analogous to
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// CallSite for accessing the fields of gc.statepoint, gc.relocate, and
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// gc.result intrinsics
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//
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//===----------------------------------------------------------------------===//
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#ifndef __LLVM_IR_STATEPOINT_H
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#define __LLVM_IR_STATEPOINT_H
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#include "llvm/ADT/iterator_range.h"
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#include "llvm/IR/BasicBlock.h"
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#include "llvm/IR/CallSite.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/Intrinsics.h"
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#include "llvm/Support/Compiler.h"
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namespace llvm {
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class GCRelocateOperands;
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class ImmutableStatepoint;
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bool isStatepoint(const ImmutableCallSite &CS);
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bool isStatepoint(const Value *inst);
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bool isStatepoint(const Value &inst);
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bool isGCRelocate(const Value *inst);
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bool isGCRelocate(const ImmutableCallSite &CS);
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bool isGCResult(const Value *inst);
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bool isGCResult(const ImmutableCallSite &CS);
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/// Analogous to CallSiteBase, this provides most of the actual
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/// functionality for Statepoint and ImmutableStatepoint. It is
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/// templatized to allow easily specializing of const and non-const
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/// concrete subtypes. This is structured analogous to CallSite
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/// rather than the IntrinsicInst.h helpers since we want to support
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/// invokable statepoints in the near future.
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/// TODO: This does not currently allow the if(Statepoint S = ...)
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/// idiom used with CallSites. Consider refactoring to support.
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template <typename InstructionTy, typename ValueTy, typename CallSiteTy>
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class StatepointBase {
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CallSiteTy StatepointCS;
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void *operator new(size_t, unsigned) = delete;
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void *operator new(size_t s) = delete;
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protected:
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explicit StatepointBase(InstructionTy *I) : StatepointCS(I) {
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assert(isStatepoint(I));
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}
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explicit StatepointBase(CallSiteTy CS) : StatepointCS(CS) {
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assert(isStatepoint(CS));
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}
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public:
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typedef typename CallSiteTy::arg_iterator arg_iterator;
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/// Return the underlying CallSite.
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CallSiteTy getCallSite() {
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return StatepointCS;
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}
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/// Return the value actually being called or invoked.
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ValueTy *actualCallee() {
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return StatepointCS.getArgument(0);
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}
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/// Number of arguments to be passed to the actual callee.
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int numCallArgs() {
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return cast<ConstantInt>(StatepointCS.getArgument(1))->getZExtValue();
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}
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/// Number of additional arguments excluding those intended
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/// for garbage collection.
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int numTotalVMSArgs() {
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return cast<ConstantInt>(StatepointCS.getArgument(3 + numCallArgs()))->getZExtValue();
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}
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typename CallSiteTy::arg_iterator call_args_begin() {
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// 3 = callTarget, #callArgs, flag
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int Offset = 3;
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assert(Offset <= (int)StatepointCS.arg_size());
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return StatepointCS.arg_begin() + Offset;
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}
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typename CallSiteTy::arg_iterator call_args_end() {
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int Offset = 3 + numCallArgs();
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assert(Offset <= (int)StatepointCS.arg_size());
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return StatepointCS.arg_begin() + Offset;
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}
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/// range adapter for call arguments
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iterator_range<arg_iterator> call_args() {
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return iterator_range<arg_iterator>(call_args_begin(), call_args_end());
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}
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typename CallSiteTy::arg_iterator vm_state_begin() {
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return call_args_end();
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}
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typename CallSiteTy::arg_iterator vm_state_end() {
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int Offset = 3 + numCallArgs() + 1 + numTotalVMSArgs();
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assert(Offset <= (int)StatepointCS.arg_size());
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return StatepointCS.arg_begin() + Offset;
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}
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/// range adapter for vm state arguments
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iterator_range<arg_iterator> vm_state_args() {
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return iterator_range<arg_iterator>(vm_state_begin(), vm_state_end());
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}
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typename CallSiteTy::arg_iterator first_vm_state_stack_begin() {
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// 6 = numTotalVMSArgs, 1st_objectID, 1st_bci,
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// 1st_#stack, 1st_#local, 1st_#monitor
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return vm_state_begin() + 6;
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}
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typename CallSiteTy::arg_iterator gc_args_begin() {
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return vm_state_end();
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}
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typename CallSiteTy::arg_iterator gc_args_end() {
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return StatepointCS.arg_end();
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}
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/// range adapter for gc arguments
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iterator_range<arg_iterator> gc_args() {
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return iterator_range<arg_iterator>(gc_args_begin(), gc_args_end());
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}
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/// Get list of all gc reloactes linked to this statepoint
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/// May contain several relocations for the same base/derived pair.
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/// For example this could happen due to relocations on unwinding
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/// path of invoke.
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std::vector<GCRelocateOperands> getRelocates(ImmutableStatepoint &IS);
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#ifndef NDEBUG
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/// Asserts if this statepoint is malformed. Common cases for failure
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/// include incorrect length prefixes for variable length sections or
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/// illegal values for parameters.
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void verify() {
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assert(numCallArgs() >= 0 &&
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"number of arguments to actually callee can't be negative");
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// The internal asserts in the iterator accessors do the rest.
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(void)call_args_begin();
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(void)call_args_end();
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(void)vm_state_begin();
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(void)vm_state_end();
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(void)gc_args_begin();
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(void)gc_args_end();
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}
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#endif
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};
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/// A specialization of it's base class for read only access
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/// to a gc.statepoint.
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class ImmutableStatepoint
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: public StatepointBase<const Instruction, const Value,
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ImmutableCallSite> {
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typedef StatepointBase<const Instruction, const Value, ImmutableCallSite>
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Base;
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public:
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explicit ImmutableStatepoint(const Instruction *I) : Base(I) {}
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explicit ImmutableStatepoint(ImmutableCallSite CS) : Base(CS) {}
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};
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/// A specialization of it's base class for read-write access
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/// to a gc.statepoint.
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class Statepoint : public StatepointBase<Instruction, Value, CallSite> {
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typedef StatepointBase<Instruction, Value, CallSite> Base;
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public:
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explicit Statepoint(Instruction *I) : Base(I) {}
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explicit Statepoint(CallSite CS) : Base(CS) {}
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};
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/// Wraps a call to a gc.relocate and provides access to it's operands.
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/// TODO: This should likely be refactored to resememble the wrappers in
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/// InstrinsicInst.h.
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class GCRelocateOperands {
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ImmutableCallSite RelocateCS;
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public:
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GCRelocateOperands(const User* U) : RelocateCS(U) {
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assert(isGCRelocate(U));
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}
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GCRelocateOperands(const Instruction *inst) : RelocateCS(inst) {
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assert(isGCRelocate(inst));
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}
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GCRelocateOperands(CallSite CS) : RelocateCS(CS) {
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assert(isGCRelocate(CS));
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}
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/// Return true if this relocate is tied to the invoke statepoint.
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/// This includes relocates which are on the unwinding path.
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bool isTiedToInvoke() const {
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const Value *Token = RelocateCS.getArgument(0);
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return isa<ExtractValueInst>(Token) ||
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isa<InvokeInst>(Token);
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}
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/// Get enclosed relocate intrinsic
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ImmutableCallSite getUnderlyingCallSite() {
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return RelocateCS;
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}
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/// The statepoint with which this gc.relocate is associated.
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const Instruction *statepoint() {
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const Value *token = RelocateCS.getArgument(0);
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// This takes care both of relocates for call statepoints and relocates
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// on normal path of invoke statepoint.
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if (!isa<ExtractValueInst>(token)) {
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return cast<Instruction>(token);
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}
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// This relocate is on exceptional path of an invoke statepoint
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const BasicBlock *invokeBB =
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cast<Instruction>(token)->getParent()->getUniquePredecessor();
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assert(invokeBB && "safepoints should have unique landingpads");
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assert(invokeBB->getTerminator() && "safepoint block should be well formed");
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assert(isStatepoint(invokeBB->getTerminator()));
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return invokeBB->getTerminator();
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}
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/// The index into the associate statepoint's argument list
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/// which contains the base pointer of the pointer whose
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/// relocation this gc.relocate describes.
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unsigned basePtrIndex() {
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return cast<ConstantInt>(RelocateCS.getArgument(1))->getZExtValue();
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}
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/// The index into the associate statepoint's argument list which
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/// contains the pointer whose relocation this gc.relocate describes.
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unsigned derivedPtrIndex() {
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return cast<ConstantInt>(RelocateCS.getArgument(2))->getZExtValue();
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}
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Value *basePtr() {
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ImmutableCallSite CS(statepoint());
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return *(CS.arg_begin() + basePtrIndex());
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}
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Value *derivedPtr() {
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ImmutableCallSite CS(statepoint());
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return *(CS.arg_begin() + derivedPtrIndex());
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}
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};
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template <typename InstructionTy, typename ValueTy, typename CallSiteTy>
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std::vector<GCRelocateOperands>
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StatepointBase<InstructionTy, ValueTy, CallSiteTy>::
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getRelocates(ImmutableStatepoint &IS) {
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std::vector<GCRelocateOperands> res;
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ImmutableCallSite StatepointCS = IS.getCallSite();
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// Search for relocated pointers. Note that working backwards from the
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// gc_relocates ensures that we only get pairs which are actually relocated
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// and used after the statepoint.
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for (const User *U : StatepointCS.getInstruction()->users()) {
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if (isGCRelocate(U)) {
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res.push_back(GCRelocateOperands(U));
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}
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}
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if (!StatepointCS.isInvoke()) {
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return res;
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}
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// We need to scan thorough exceptional relocations if it is invoke statepoint
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LandingPadInst *LandingPad =
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cast<InvokeInst>(StatepointCS.getInstruction())->getLandingPadInst();
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// Search for extract value from landingpad instruction to which
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// gc relocates will be attached
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for (const User *LandingPadUser : LandingPad->users()) {
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if (!isa<ExtractValueInst>(LandingPadUser)) {
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continue;
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}
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// gc relocates should be attached to this extract value
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for (const User *U : LandingPadUser->users()) {
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if (isGCRelocate(U)) {
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res.push_back(GCRelocateOperands(U));
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}
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}
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}
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return res;
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}
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}
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#endif
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