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cgutils.cpp
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cgutils.cpp
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// utility procedures used in code generation
// --- string constants ---
static std::map<const std::string, GlobalVariable*> stringConstants;
static GlobalVariable *stringConst(const std::string &txt)
{
GlobalVariable *gv = stringConstants[txt];
static int strno = 0;
if (gv == NULL) {
std::stringstream ssno;
std::string vname;
ssno << strno;
vname += "_j_str";
vname += ssno.str();
gv = new GlobalVariable(*jl_Module,
ArrayType::get(T_int8, txt.length()+1),
true,
GlobalVariable::ExternalLinkage,
ConstantArray::get(getGlobalContext(),
txt.c_str()),
vname);
stringConstants[txt] = gv;
strno++;
}
return gv;
}
// --- emitting pointers directly into code ---
static Value *literal_pointer_val(void *p, Type *t)
{
#ifdef __LP64__
return ConstantExpr::getIntToPtr(ConstantInt::get(T_int64, (uint64_t)p),
t);
#else
return ConstantExpr::getIntToPtr(ConstantInt::get(T_int32, (uint32_t)p),
t);
#endif
}
static Value *literal_pointer_val(jl_value_t *p)
{
return literal_pointer_val(p, jl_pvalue_llvmt);
}
static Value *literal_pointer_val(void *p)
{
return literal_pointer_val(p, T_pint8);
}
// --- generating various error checks ---
static jl_value_t *llvm_type_to_julia(Type *t, bool err=true);
static Value *emit_typeof(Value *p)
{
// given p, a jl_value_t*, compute its type tag
if (p->getType() == jl_pvalue_llvmt) {
Value *tt = builder.CreateBitCast(p, jl_ppvalue_llvmt);
tt = builder.
CreateLoad(builder.CreateGEP(tt,ConstantInt::get(T_int32,0)),
false);
return tt;
}
return literal_pointer_val(llvm_type_to_julia(p->getType()));
}
static void emit_error(const std::string &txt, jl_codectx_t *ctx)
{
std::string txt2 = "in " + ctx->funcName + ": " + txt;
Value *zeros[2] = { ConstantInt::get(T_int32, 0),
ConstantInt::get(T_int32, 0) };
builder.CreateCall(jlerror_func,
builder.CreateGEP(stringConst(txt2),
ArrayRef<Value*>(zeros)));
}
static void error_unless(Value *cond, const std::string &msg, jl_codectx_t *ctx)
{
BasicBlock *failBB = BasicBlock::Create(getGlobalContext(),"fail",ctx->f);
BasicBlock *passBB = BasicBlock::Create(getGlobalContext(),"pass");
builder.CreateCondBr(cond, passBB, failBB);
builder.SetInsertPoint(failBB);
emit_error(msg, ctx);
builder.CreateBr(passBB);
ctx->f->getBasicBlockList().push_back(passBB);
builder.SetInsertPoint(passBB);
}
static void call_error_func_unless(Value *cond, Function *errfunc,
jl_codectx_t *ctx)
{
BasicBlock *failBB = BasicBlock::Create(getGlobalContext(),"fail",ctx->f);
BasicBlock *passBB = BasicBlock::Create(getGlobalContext(),"pass");
builder.CreateCondBr(cond, passBB, failBB);
builder.SetInsertPoint(failBB);
builder.CreateCall(errfunc);
builder.CreateBr(passBB);
ctx->f->getBasicBlockList().push_back(passBB);
builder.SetInsertPoint(passBB);
}
static void null_pointer_check(Value *v, jl_codectx_t *ctx)
{
call_error_func_unless(builder.CreateICmpNE(v, V_null),
jluniniterror_func, ctx);
}
static Value *boxed(Value *v);
static void emit_type_error(Value *x, jl_value_t *type, const std::string &msg,
jl_codectx_t *ctx)
{
Value *zeros[2] = { ConstantInt::get(T_int32, 0),
ConstantInt::get(T_int32, 0) };
Value *fname_val = builder.CreateGEP(stringConst(ctx->funcName),
ArrayRef<Value*>(zeros));
Value *msg_val = builder.CreateGEP(stringConst(msg),
ArrayRef<Value*>(zeros));
builder.CreateCall4(jltypeerror_func,
fname_val, msg_val,
literal_pointer_val(type), boxed(x));
}
static void emit_typecheck(Value *x, jl_value_t *type, const std::string &msg,
jl_codectx_t *ctx)
{
Value *istype =
builder.CreateICmpEQ(emit_typeof(x), literal_pointer_val(type));
BasicBlock *failBB = BasicBlock::Create(getGlobalContext(),"fail",ctx->f);
BasicBlock *passBB = BasicBlock::Create(getGlobalContext(),"pass");
builder.CreateCondBr(istype, passBB, failBB);
builder.SetInsertPoint(failBB);
emit_type_error(x, type, msg, ctx);
builder.CreateBr(passBB);
ctx->f->getBasicBlockList().push_back(passBB);
builder.SetInsertPoint(passBB);
}
static Value *emit_bounds_check(Value *i, Value *len, const std::string &msg,
jl_codectx_t *ctx)
{
Value *im1 = builder.CreateSub(i, ConstantInt::get(T_size, 1));
Value *ok = builder.CreateICmpULT(im1, len);
error_unless(ok, msg, ctx);
return im1;
}
static void emit_func_check(Value *x, jl_codectx_t *ctx)
{
Value *xty = emit_typeof(x);
Value *isfunc =
builder.
CreateOr(builder.
CreateICmpEQ(xty,
literal_pointer_val((jl_value_t*)jl_function_type)),
builder.
CreateICmpEQ(xty,
literal_pointer_val((jl_value_t*)jl_struct_kind)));
BasicBlock *elseBB1 = BasicBlock::Create(getGlobalContext(),"notf", ctx->f);
BasicBlock *mergeBB1 = BasicBlock::Create(getGlobalContext(),"isf");
builder.CreateCondBr(isfunc, mergeBB1, elseBB1);
builder.SetInsertPoint(elseBB1);
emit_type_error(x, (jl_value_t*)jl_function_type, "apply", ctx);
builder.CreateBr(mergeBB1);
ctx->f->getBasicBlockList().push_back(mergeBB1);
builder.SetInsertPoint(mergeBB1);
}
// --- loading and storing the Nth word in an object ---
static Value *emit_nthptr_addr(Value *v, size_t n)
{
return builder.CreateGEP(builder.CreateBitCast(v, jl_ppvalue_llvmt),
ConstantInt::get(T_int32, n));
}
static Value *emit_nthptr_addr(Value *v, Value *idx)
{
return builder.CreateGEP(builder.CreateBitCast(v, jl_ppvalue_llvmt), idx);
}
static Value *emit_nthptr(Value *v, size_t n)
{
// p = (jl_value_t**)v; p[n]
Value *vptr = emit_nthptr_addr(v, n);
return builder.CreateLoad(vptr, false);
}
static Value *emit_nthptr(Value *v, Value *idx)
{
// p = (jl_value_t**)v; p[n]
Value *vptr = emit_nthptr_addr(v, idx);
return builder.CreateLoad(vptr, false);
}
// --- convert boolean value to julia ---
static Value *julia_bool(Value *cond)
{
return builder.CreateSelect(cond,
literal_pointer_val(jl_true),
literal_pointer_val(jl_false));
}
// --- get the inferred type of an AST node ---
static jl_value_t *expr_type(jl_value_t *e, jl_codectx_t *ctx)
{
if (jl_is_expr(e))
return ((jl_expr_t*)e)->etype;
if (jl_is_symbolnode(e))
return jl_symbolnode_type(e);
if (jl_is_quotenode(e))
return (jl_value_t*)jl_typeof(jl_fieldref(e,0));
if (jl_is_symbol(e))
return (jl_value_t*)jl_any_type;
if (jl_is_lambda_info(e))
return (jl_value_t*)jl_function_type;
if (jl_is_topnode(e)) {
jl_binding_t *b = jl_get_binding(ctx->module,
(jl_sym_t*)jl_fieldref(e,0));
if (!b || !b->value)
return jl_top_type;
if (b->constp)
e = b->value;
else
return (jl_value_t*)jl_any_type;
}
if (jl_is_some_tag_type(e))
return (jl_value_t*)jl_wrap_Type(e);
return (jl_value_t*)jl_typeof(e);
}
// --- accessing the representations of built-in data types ---
static Value *emit_tuplelen(Value *t)
{
Value *lenbits = emit_nthptr(t, 1);
#ifdef __LP64__
return builder.CreatePtrToInt(lenbits, T_int64);
#else
return builder.CreatePtrToInt(lenbits, T_int32);
#endif
}
// emit length of vararg tuple
static Value *emit_n_varargs(jl_codectx_t *ctx)
{
int nreq = ctx->nReqArgs;
Value *valen = builder.CreateSub((Value*)ctx->argCount,
ConstantInt::get(T_int32, nreq));
#ifdef __LP64__
return builder.CreateSExt(valen, T_int64);
#else
return valen;
#endif
}
static Value *emit_arraysize(Value *t, Value *dim)
{
#ifdef __LP64__
int o = 3;
#else
int o = 4;
#endif
Value *dbits =
emit_nthptr(t, builder.CreateAdd(dim,
ConstantInt::get(dim->getType(), o)));
return builder.CreatePtrToInt(dbits, T_size);
}
static Value *emit_arraysize(Value *t, int dim)
{
return emit_arraysize(t, ConstantInt::get(T_int32, dim));
}
static Value *emit_arraylen(Value *t)
{
Value *lenbits = emit_nthptr(t, 2);
return builder.CreatePtrToInt(lenbits, T_size);
}
static Value *emit_arrayptr(Value *t)
{
return emit_nthptr(t, 1);
}
static Value *bitstype_pointer(Value *x)
{
return builder.CreateGEP(builder.CreateBitCast(x, jl_ppvalue_llvmt),
ConstantInt::get(T_int32, 1));
}
// --- scheme for tagging llvm values with julia types using metadata ---
static std::map<int, jl_value_t*> typeIdToType;
static std::map<jl_value_t*, int> typeToTypeId;
static int cur_type_id = 1;
static int jl_type_to_typeid(jl_value_t *t)
{
std::map<jl_value_t*, int>::iterator it = typeToTypeId.find(t);
if (it == typeToTypeId.end()) {
int mine = cur_type_id++;
if (mine > 65025)
jl_error("unexpected error: too many bits types");
typeToTypeId[t] = mine;
typeIdToType[mine] = t;
return mine;
}
return (*it).second;
}
static jl_value_t *jl_typeid_to_type(int i)
{
std::map<int, jl_value_t*>::iterator it = typeIdToType.find(i);
if (it == typeIdToType.end()) {
jl_error("unexpected error: invalid type id");
}
return (*it).second;
}
static bool has_julia_type(Value *v)
{
return ((dyn_cast<Instruction>(v) != NULL) &&
((Instruction*)v)->getMetadata("julia_type")!=NULL);
}
static jl_value_t *julia_type_of_without_metadata(Value *v, bool err=true)
{
if (dyn_cast<AllocaInst>(v) != NULL ||
dyn_cast<GetElementPtrInst>(v) != NULL) {
// an alloca always has llvm type pointer
return llvm_type_to_julia(v->getType()->getContainedType(0), err);
}
return llvm_type_to_julia(v->getType(), err);
}
static jl_value_t *julia_type_of(Value *v)
{
MDNode *mdn;
if (dyn_cast<Instruction>(v) == NULL ||
(mdn = ((Instruction*)v)->getMetadata("julia_type")) == NULL) {
return julia_type_of_without_metadata(v, true);
}
MDString *md = (MDString*)mdn->getOperand(0);
const char *vts = md->getString().data();
int id = (vts[0]-1) + (vts[1]-1)*255;
return jl_typeid_to_type(id);
}
static Value *NoOpCast(Value *v)
{
v = CastInst::Create(Instruction::BitCast, v, v->getType());
builder.Insert((Instruction*)v);
return v;
}
static Value *mark_julia_type(Value *v, jl_value_t *jt)
{
if (jt == (jl_value_t*)jl_any_type)
return v;
if (has_julia_type(v) && julia_type_of(v) == jt)
return v;
if (julia_type_of_without_metadata(v,false) == jt)
return NoOpCast(v);
if (dyn_cast<Instruction>(v) == NULL)
v = NoOpCast(v);
assert(dyn_cast<Instruction>(v));
char name[3];
int id = jl_type_to_typeid(jt);
// store id as base-255 to avoid NUL
name[0] = (id%255)+1;
name[1] = (id/255)+1;
name[2] = '\0';
MDString *md = MDString::get(jl_LLVMContext, name);
MDNode *mdn = MDNode::get(jl_LLVMContext, ArrayRef<Value*>(md));
((Instruction*)v)->setMetadata("julia_type", mdn);
return v;
}
static Value *mark_julia_type(Value *v, jl_bits_type_t *jt)
{
return mark_julia_type(v, (jl_value_t*)jt);
}
// --- propagate julia type from value a to b. returns b. ---
static Value *tpropagate(Value *a, Value *b)
{
if (has_julia_type(a))
return mark_julia_type(b, julia_type_of(a));
return b;
}
// --- mapping between julia and llvm types ---
static Type *julia_type_to_llvm(jl_value_t *jt, jl_codectx_t *ctx)
{
if (jt == (jl_value_t*)jl_bool_type) return T_int1;
if (jt == (jl_value_t*)jl_float32_type) return T_float32;
if (jt == (jl_value_t*)jl_float64_type) return T_float64;
//if (jt == (jl_value_t*)jl_null) return T_void;
if (jl_is_bits_type(jt) && jl_is_cpointer_type(jt)) {
Type *lt = julia_type_to_llvm(jl_tparam0(jt), ctx);
if (lt == NULL)
return NULL;
if (lt == T_void)
lt = T_int8;
return PointerType::get(lt, 0);
}
if (jl_is_bits_type(jt)) {
int nb = jl_bitstype_nbits(jt);
if (nb == 8) return T_int8;
if (nb == 16) return T_int16;
if (nb == 32) return T_int32;
if (nb == 64) return T_int64;
else return Type::getIntNTy(getGlobalContext(), nb);
}
if (jt == (jl_value_t*)jl_bottom_type) return T_void;
//if (jt == (jl_value_t*)jl_any_type)
// return jl_pvalue_llvmt;
return jl_pvalue_llvmt;
//emit_type_error(literal_pointer_val(jt), (jl_value_t*)jl_bits_kind,
// "conversion to native type", ctx);
//return NULL;
}
// NOTE: llvm cannot express all julia types (for example unsigned),
// so this is an approximation. it's only correct if the associated LLVM
// value is not tagged with our value name hack.
// boxed(v) below gets the correct type.
static jl_value_t *llvm_type_to_julia(Type *t, bool throw_error)
{
if (t == T_int1) return (jl_value_t*)jl_bool_type;
if (t == T_int8) return (jl_value_t*)jl_int8_type;
if (t == T_int16) return (jl_value_t*)jl_int16_type;
if (t == T_int32) return (jl_value_t*)jl_int32_type;
if (t == T_int64) return (jl_value_t*)jl_int64_type;
if (t == T_float32) return (jl_value_t*)jl_float32_type;
if (t == T_float64) return (jl_value_t*)jl_float64_type;
if (t == T_void) return (jl_value_t*)jl_bottom_type;
if (t == jl_pvalue_llvmt)
return (jl_value_t*)jl_any_type;
if (t->isPointerTy()) {
jl_value_t *elty = llvm_type_to_julia(t->getContainedType(0),
throw_error);
if (elty != NULL) {
return (jl_value_t*)jl_apply_type((jl_value_t*)jl_pointer_type,
jl_tuple1(elty));
}
}
if (throw_error) {
jl_error("cannot convert type to a julia type");
}
return NULL;
}
// --- boxing ---
// this is used to wrap values for generic contexts, where a
// dynamically-typed value is required (e.g. argument to unknown function).
// if it's already a pointer it's left alone.
static Value *boxed(Value *v)
{
Type *t = v->getType();
if (t == jl_pvalue_llvmt)
return v;
if (t == T_void)
return literal_pointer_val((jl_value_t*)jl_nothing);
if (t == T_int1) return julia_bool(v);
jl_value_t *jt = julia_type_of(v);
jl_bits_type_t *jb = (jl_bits_type_t*)jt;
if (jb == jl_int8_type)
return builder.CreateCall(box_int8_func,
builder.CreateSExt(v, T_int32));
if (jb == jl_int16_type) return builder.CreateCall(box_int16_func, v);
if (jb == jl_int32_type) return builder.CreateCall(box_int32_func, v);
if (jb == jl_int64_type) return builder.CreateCall(box_int64_func, v);
if (jb == jl_float32_type) return builder.CreateCall(box_float32_func, v);
if (jb == jl_float64_type) return builder.CreateCall(box_float64_func, v);
if (jb == jl_uint8_type)
return builder.CreateCall(box_uint8_func,
builder.CreateZExt(v, T_int32));
if (jb == jl_uint16_type) return builder.CreateCall(box_uint16_func, v);
if (jb == jl_uint32_type) return builder.CreateCall(box_uint32_func, v);
if (jb == jl_uint64_type) return builder.CreateCall(box_uint64_func, v);
if (jb == jl_char_type) return builder.CreateCall(box_char_func, v);
// TODO: skip the call for constant arguments
if (jl_is_bits_type(jt)) {
if (v->getType()->isPointerTy()) {
v = builder.CreatePtrToInt(v, T_size);
}
int nb = jl_bitstype_nbits(jt);
if (nb == 8)
return builder.CreateCall2(box8_func, literal_pointer_val(jt), v);
if (nb == 16)
return builder.CreateCall2(box16_func, literal_pointer_val(jt), v);
if (nb == 32)
return builder.CreateCall2(box32_func, literal_pointer_val(jt), v);
if (nb == 64)
return builder.CreateCall2(box64_func, literal_pointer_val(jt), v);
size_t sz = sizeof(void*) + (nb+7)/8;
Value *newv = builder.CreateCall(jlallocobj_func,
ConstantInt::get(T_size, sz));
builder.CreateStore(literal_pointer_val(jt),
builder.CreateBitCast(newv, jl_ppvalue_llvmt));
builder.CreateStore(v,
builder.CreateBitCast(bitstype_pointer(newv),
PointerType::get(t,0)));
// TODO: make sure this is rooted. I think it is.
return builder.CreateBitCast(newv, jl_pvalue_llvmt);
}
assert("Don't know how to box this type" && false);
return NULL;
}