https://github.com/JuliaLang/julia
Tip revision: 73627a6a4fa89b5ed5d957918f921b61694fd5d5 authored by Kristoffer on 03 February 2023, 09:59:28 UTC
put back DelimitedFiles as a non-sysimage stdlib, disable Pkg from considering DelimitedFiles as na stdlib
put back DelimitedFiles as a non-sysimage stdlib, disable Pkg from considering DelimitedFiles as na stdlib
Tip revision: 73627a6
llvm-codegen-shared.h
// This file is a part of Julia. License is MIT: https://julialang.org/license
#include <utility>
#include <llvm/ADT/ArrayRef.h>
#include <llvm/Support/Debug.h>
#include <llvm/IR/Attributes.h>
#include <llvm/IR/DebugLoc.h>
#include <llvm/IR/IRBuilder.h>
#include <llvm/IR/MDBuilder.h>
#include "julia.h"
#define STR(csym) #csym
#define XSTR(csym) STR(csym)
enum AddressSpace {
Generic = 0,
Tracked = 10,
Derived = 11,
CalleeRooted = 12,
Loaded = 13,
FirstSpecial = Tracked,
LastSpecial = Loaded,
};
static inline auto getSizeTy(llvm::LLVMContext &ctxt) {
//return M.getDataLayout().getIntPtrType(M.getContext());
if (sizeof(size_t) > sizeof(uint32_t)) {
return llvm::Type::getInt64Ty(ctxt);
} else {
return llvm::Type::getInt32Ty(ctxt);
}
}
namespace JuliaType {
static inline llvm::StructType* get_jlvalue_ty(llvm::LLVMContext &C) {
return llvm::StructType::get(C);
}
static inline llvm::PointerType* get_pjlvalue_ty(llvm::LLVMContext &C, unsigned addressSpace=0) {
return llvm::PointerType::get(get_jlvalue_ty(C), addressSpace);
}
static inline llvm::PointerType* get_prjlvalue_ty(llvm::LLVMContext &C) {
return llvm::PointerType::get(get_jlvalue_ty(C), AddressSpace::Tracked);
}
static inline llvm::PointerType* get_ppjlvalue_ty(llvm::LLVMContext &C) {
return llvm::PointerType::get(get_pjlvalue_ty(C), 0);
}
static inline llvm::PointerType* get_pprjlvalue_ty(llvm::LLVMContext &C) {
return llvm::PointerType::get(get_prjlvalue_ty(C), 0);
}
static inline auto get_jlfunc_ty(llvm::LLVMContext &C) {
auto T_prjlvalue = get_prjlvalue_ty(C);
auto T_pprjlvalue = llvm::PointerType::get(T_prjlvalue, 0);
return llvm::FunctionType::get(T_prjlvalue, {
T_prjlvalue, // function
T_pprjlvalue, // args[]
llvm::Type::getInt32Ty(C)}, // nargs
false);
}
static inline auto get_jlfunc2_ty(llvm::LLVMContext &C) {
auto T_prjlvalue = get_prjlvalue_ty(C);
auto T_pprjlvalue = llvm::PointerType::get(T_prjlvalue, 0);
return llvm::FunctionType::get(T_prjlvalue, {
T_prjlvalue, // function
T_pprjlvalue, // args[]
llvm::Type::getInt32Ty(C),
T_prjlvalue, // linfo
}, // nargs
false);
}
static inline auto get_jlfuncparams_ty(llvm::LLVMContext &C) {
auto T_prjlvalue = get_prjlvalue_ty(C);
auto T_pprjlvalue = llvm::PointerType::get(T_prjlvalue, 0);
return llvm::FunctionType::get(T_prjlvalue, {
T_prjlvalue, // function
T_pprjlvalue, // args[]
llvm::Type::getInt32Ty(C),
T_pprjlvalue, // linfo->sparam_vals
}, // nargs
false);
}
static inline auto get_voidfunc_ty(llvm::LLVMContext &C) {
return llvm::FunctionType::get(llvm::Type::getVoidTy(C), /*isVarArg*/false);
}
static inline auto get_pvoidfunc_ty(llvm::LLVMContext &C) {
return get_voidfunc_ty(C)->getPointerTo();
}
}
// return how many Tracked pointers are in T (count > 0),
// and if there is anything else in T (all == false)
struct CountTrackedPointers {
unsigned count = 0;
bool all = true;
bool derived = false;
CountTrackedPointers(llvm::Type *T);
};
unsigned TrackWithShadow(llvm::Value *Src, llvm::Type *T, bool isptr, llvm::Value *Dst, llvm::Type *DTy, llvm::IRBuilder<> &irbuilder);
std::vector<llvm::Value*> ExtractTrackedValues(llvm::Value *Src, llvm::Type *STy, bool isptr, llvm::IRBuilder<> &irbuilder, llvm::ArrayRef<unsigned> perm_offsets={});
static inline void llvm_dump(llvm::Value *v)
{
v->print(llvm::dbgs(), true);
llvm::dbgs() << "\n";
}
static inline void llvm_dump(llvm::Type *v)
{
v->print(llvm::dbgs(), true);
llvm::dbgs() << "\n";
}
static inline void llvm_dump(llvm::Function *f)
{
f->print(llvm::dbgs(), nullptr, false, true);
}
static inline void llvm_dump(llvm::Module *m)
{
m->print(llvm::dbgs(), nullptr);
}
static inline void llvm_dump(llvm::Metadata *m)
{
m->print(llvm::dbgs());
llvm::dbgs() << "\n";
}
static inline void llvm_dump(llvm::DebugLoc *dbg)
{
dbg->print(llvm::dbgs());
llvm::dbgs() << "\n";
}
static inline std::pair<llvm::MDNode*,llvm::MDNode*> tbaa_make_child_with_context(llvm::LLVMContext &ctxt, const char *name, llvm::MDNode *parent=nullptr, bool isConstant=false)
{
llvm::MDBuilder mbuilder(ctxt);
llvm::MDNode *jtbaa = mbuilder.createTBAARoot("jtbaa");
llvm::MDNode *tbaa_root = mbuilder.createTBAAScalarTypeNode("jtbaa", jtbaa);
llvm::MDNode *scalar = mbuilder.createTBAAScalarTypeNode(name, parent ? parent : tbaa_root);
llvm::MDNode *n = mbuilder.createTBAAStructTagNode(scalar, scalar, 0, isConstant);
return std::make_pair(n, scalar);
}
static inline llvm::MDNode *get_tbaa_const(llvm::LLVMContext &ctxt) {
return tbaa_make_child_with_context(ctxt, "jtbaa_const", nullptr, true).first;
}
static inline llvm::Instruction *tbaa_decorate(llvm::MDNode *md, llvm::Instruction *inst)
{
inst->setMetadata(llvm::LLVMContext::MD_tbaa, md);
if (llvm::isa<llvm::LoadInst>(inst) && md && md == get_tbaa_const(md->getContext()))
inst->setMetadata(llvm::LLVMContext::MD_invariant_load, llvm::MDNode::get(md->getContext(), llvm::None));
return inst;
}
// bitcast a value, but preserve its address space when dealing with pointer types
static inline llvm::Value *emit_bitcast_with_builder(llvm::IRBuilder<> &builder, llvm::Value *v, llvm::Type *jl_value)
{
using namespace llvm;
if (isa<PointerType>(jl_value) &&
v->getType()->getPointerAddressSpace() != jl_value->getPointerAddressSpace()) {
// Cast to the proper address space
Type *jl_value_addr = PointerType::getWithSamePointeeType(cast<PointerType>(jl_value), v->getType()->getPointerAddressSpace());
return builder.CreateBitCast(v, jl_value_addr);
}
else {
return builder.CreateBitCast(v, jl_value);
}
}
// Get PTLS through current task.
static inline llvm::Value *get_current_task_from_pgcstack(llvm::IRBuilder<> &builder, llvm::Value *pgcstack)
{
using namespace llvm;
auto T_ppjlvalue = JuliaType::get_ppjlvalue_ty(builder.getContext());
auto T_pjlvalue = JuliaType::get_pjlvalue_ty(builder.getContext());
const int pgcstack_offset = offsetof(jl_task_t, gcstack);
return builder.CreateInBoundsGEP(
T_pjlvalue, emit_bitcast_with_builder(builder, pgcstack, T_ppjlvalue),
ConstantInt::get(getSizeTy(builder.getContext()), -(pgcstack_offset / sizeof(void *))),
"current_task");
}
// Get PTLS through current task.
static inline llvm::Value *get_current_ptls_from_task(llvm::IRBuilder<> &builder, llvm::Value *current_task, llvm::MDNode *tbaa)
{
using namespace llvm;
auto T_ppjlvalue = JuliaType::get_ppjlvalue_ty(builder.getContext());
auto T_pjlvalue = JuliaType::get_pjlvalue_ty(builder.getContext());
auto T_size = getSizeTy(builder.getContext());
const int ptls_offset = offsetof(jl_task_t, ptls);
llvm::Value *pptls = builder.CreateInBoundsGEP(
T_pjlvalue, current_task,
ConstantInt::get(T_size, ptls_offset / sizeof(void *)),
"ptls_field");
LoadInst *ptls_load = builder.CreateAlignedLoad(T_pjlvalue,
emit_bitcast_with_builder(builder, pptls, T_ppjlvalue), Align(sizeof(void *)), "ptls_load");
// Note: Corresponding store (`t->ptls = ptls`) happens in `ctx_switch` of tasks.c.
tbaa_decorate(tbaa, ptls_load);
return builder.CreateBitCast(ptls_load, T_ppjlvalue, "ptls");
}
// Get signal page through current task.
static inline llvm::Value *get_current_signal_page_from_ptls(llvm::IRBuilder<> &builder, llvm::Value *ptls, llvm::MDNode *tbaa)
{
using namespace llvm;
// return builder.CreateCall(prepare_call(reuse_signal_page_func));
auto T_size = getSizeTy(builder.getContext());
auto T_psize = T_size->getPointerTo();
auto T_ppsize = T_psize->getPointerTo();
int nthfield = offsetof(jl_tls_states_t, safepoint) / sizeof(void *);
ptls = emit_bitcast_with_builder(builder, ptls, T_ppsize);
llvm::Value *psafepoint = builder.CreateInBoundsGEP(
T_psize, ptls, ConstantInt::get(T_size, nthfield));
LoadInst *ptls_load = builder.CreateAlignedLoad(
T_psize, psafepoint, Align(sizeof(void *)), "safepoint");
tbaa_decorate(tbaa, ptls_load);
return ptls_load;
}
static inline void emit_signal_fence(llvm::IRBuilder<> &builder)
{
using namespace llvm;
builder.CreateFence(AtomicOrdering::SequentiallyConsistent, SyncScope::SingleThread);
}
static inline void emit_gc_safepoint(llvm::IRBuilder<> &builder, llvm::Value *ptls, llvm::MDNode *tbaa, bool final = false)
{
using namespace llvm;
llvm::Value *signal_page = get_current_signal_page_from_ptls(builder, ptls, tbaa);
emit_signal_fence(builder);
Module *M = builder.GetInsertBlock()->getModule();
LLVMContext &C = builder.getContext();
// inline jlsafepoint_func->realize(M)
if (final) {
auto T_size = getSizeTy(builder.getContext());
builder.CreateLoad(T_size, signal_page, true);
}
else {
Function *F = M->getFunction("julia.safepoint");
if (!F) {
auto T_size = getSizeTy(builder.getContext());
auto T_psize = T_size->getPointerTo();
FunctionType *FT = FunctionType::get(Type::getVoidTy(C), {T_psize}, false);
F = Function::Create(FT, Function::ExternalLinkage, "julia.safepoint", M);
F->addFnAttr(Attribute::InaccessibleMemOrArgMemOnly);
}
builder.CreateCall(F, {signal_page});
}
emit_signal_fence(builder);
}
static inline llvm::Value *emit_gc_state_set(llvm::IRBuilder<> &builder, llvm::Value *ptls, llvm::Value *state, llvm::Value *old_state, bool final)
{
using namespace llvm;
Type *T_int8 = state->getType();
llvm::Value *ptls_i8 = emit_bitcast_with_builder(builder, ptls, builder.getInt8PtrTy());
Constant *offset = ConstantInt::getSigned(builder.getInt32Ty(), offsetof(jl_tls_states_t, gc_state));
Value *gc_state = builder.CreateInBoundsGEP(T_int8, ptls_i8, ArrayRef<Value*>(offset), "gc_state");
if (old_state == nullptr) {
old_state = builder.CreateLoad(T_int8, gc_state);
cast<LoadInst>(old_state)->setOrdering(AtomicOrdering::Monotonic);
}
builder.CreateAlignedStore(state, gc_state, Align(sizeof(void*)))->setOrdering(AtomicOrdering::Release);
if (auto *C = dyn_cast<ConstantInt>(old_state))
if (C->isZero())
return old_state;
if (auto *C = dyn_cast<ConstantInt>(state))
if (!C->isZero())
return old_state;
BasicBlock *passBB = BasicBlock::Create(builder.getContext(), "safepoint", builder.GetInsertBlock()->getParent());
BasicBlock *exitBB = BasicBlock::Create(builder.getContext(), "after_safepoint", builder.GetInsertBlock()->getParent());
Constant *zero8 = ConstantInt::get(T_int8, 0);
builder.CreateCondBr(builder.CreateAnd(builder.CreateICmpNE(old_state, zero8), // if (old_state && !state)
builder.CreateICmpEQ(state, zero8)),
passBB, exitBB);
builder.SetInsertPoint(passBB);
MDNode *tbaa = get_tbaa_const(builder.getContext());
emit_gc_safepoint(builder, ptls, tbaa, final);
builder.CreateBr(exitBB);
builder.SetInsertPoint(exitBB);
return old_state;
}
static inline llvm::Value *emit_gc_unsafe_enter(llvm::IRBuilder<> &builder, llvm::Value *ptls, bool final)
{
using namespace llvm;
Value *state = builder.getInt8(0);
return emit_gc_state_set(builder, ptls, state, nullptr, final);
}
static inline llvm::Value *emit_gc_unsafe_leave(llvm::IRBuilder<> &builder, llvm::Value *ptls, llvm::Value *state, bool final)
{
using namespace llvm;
Value *old_state = builder.getInt8(0);
return emit_gc_state_set(builder, ptls, state, old_state, final);
}
static inline llvm::Value *emit_gc_safe_enter(llvm::IRBuilder<> &builder, llvm::Value *ptls, bool final)
{
using namespace llvm;
Value *state = builder.getInt8(JL_GC_STATE_SAFE);
return emit_gc_state_set(builder, ptls, state, nullptr, final);
}
static inline llvm::Value *emit_gc_safe_leave(llvm::IRBuilder<> &builder, llvm::Value *ptls, llvm::Value *state, bool final)
{
using namespace llvm;
Value *old_state = builder.getInt8(JL_GC_STATE_SAFE);
return emit_gc_state_set(builder, ptls, state, old_state, final);
}
// Compatibility shims for LLVM attribute APIs that were renamed in LLVM 14.
//
// Once we no longer support LLVM < 14, these can be mechanically removed by
// translating foo(Bar, …) into Bar->foo(…) resp. Bar.foo(…).
namespace {
using namespace llvm;
inline void addFnAttr(CallInst *Target, Attribute::AttrKind Attr)
{
#if JL_LLVM_VERSION >= 140000
Target->addFnAttr(Attr);
#else
Target->addAttribute(AttributeList::FunctionIndex, Attr);
#endif
}
template<class T, class A>
inline void addRetAttr(T *Target, A Attr)
{
#if JL_LLVM_VERSION >= 140000
Target->addRetAttr(Attr);
#else
Target->addAttribute(AttributeList::ReturnIndex, Attr);
#endif
}
inline void addAttributeAtIndex(Function *F, unsigned Index, Attribute Attr)
{
#if JL_LLVM_VERSION >= 140000
F->addAttributeAtIndex(Index, Attr);
#else
F->addAttribute(Index, Attr);
#endif
}
inline AttributeSet getFnAttrs(const AttributeList &Attrs)
{
#if JL_LLVM_VERSION >= 140000
return Attrs.getFnAttrs();
#else
return Attrs.getFnAttributes();
#endif
}
inline AttributeSet getRetAttrs(const AttributeList &Attrs)
{
#if JL_LLVM_VERSION >= 140000
return Attrs.getRetAttrs();
#else
return Attrs.getRetAttributes();
#endif
}
inline bool hasFnAttr(const AttributeList &L, Attribute::AttrKind Kind)
{
#if JL_LLVM_VERSION >= 140000
return L.hasFnAttr(Kind);
#else
return L.hasAttribute(AttributeList::FunctionIndex, Kind);
#endif
}
inline AttributeList addAttributeAtIndex(const AttributeList &L, LLVMContext &C,
unsigned Index, Attribute::AttrKind Kind)
{
#if JL_LLVM_VERSION >= 140000
return L.addAttributeAtIndex(C, Index, Kind);
#else
return L.addAttribute(C, Index, Kind);
#endif
}
inline AttributeList addAttributeAtIndex(const AttributeList &L, LLVMContext &C,
unsigned Index, Attribute Attr)
{
#if JL_LLVM_VERSION >= 140000
return L.addAttributeAtIndex(C, Index, Attr);
#else
return L.addAttribute(C, Index, Attr);
#endif
}
inline AttributeList addAttributesAtIndex(const AttributeList &L, LLVMContext &C,
unsigned Index, const AttrBuilder &Builder)
{
#if JL_LLVM_VERSION >= 140000
return L.addAttributesAtIndex(C, Index, Builder);
#else
return L.addAttributes(C, Index, Builder);
#endif
}
inline AttributeList addFnAttribute(const AttributeList &L, LLVMContext &C,
Attribute::AttrKind Kind)
{
#if JL_LLVM_VERSION >= 140000
return L.addFnAttribute(C, Kind);
#else
return L.addAttribute(C, AttributeList::FunctionIndex, Kind);
#endif
}
inline AttributeList addRetAttribute(const AttributeList &L, LLVMContext &C,
Attribute::AttrKind Kind)
{
#if JL_LLVM_VERSION >= 140000
return L.addRetAttribute(C, Kind);
#else
return L.addAttribute(C, AttributeList::ReturnIndex, Kind);
#endif
}
inline bool hasAttributesAtIndex(const AttributeList &L, unsigned Index)
{
#if JL_LLVM_VERSION >= 140000
return L.hasAttributesAtIndex(Index);
#else
return L.hasAttributes(Index);
#endif
}
inline Attribute getAttributeAtIndex(const AttributeList &L, unsigned Index, Attribute::AttrKind Kind)
{
#if JL_LLVM_VERSION >= 140000
return L.getAttributeAtIndex(Index, Kind);
#else
return L.getAttribute(Index, Kind);
#endif
}
}