func (v *Codegen) genAddressOfExpr(n *parser.AddressOfExpr) llvm.Value {
gep := v.builder.CreateGEP(v.variableLookup[n.Access.Accesses[0].Variable], []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false)}, "")
for i := 0; i < len(n.Access.Accesses); i++ {
switch n.Access.Accesses[i].AccessType {
case parser.ACCESS_ARRAY:
gepIndexes := []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), llvm.ConstInt(llvm.Int32Type(), 1, false)}
gep = v.builder.CreateGEP(gep, gepIndexes, "")
load := v.builder.CreateLoad(gep, "")
// TODO check that access is in bounds!
gepIndexes = []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), v.genExpr(n.Access.Accesses[i].Subscript)}
gep = v.builder.CreateGEP(load, gepIndexes, "")
case parser.ACCESS_VARIABLE:
// nothing to do
case parser.ACCESS_STRUCT:
index := n.Access.Accesses[i].Variable.Type.(*parser.StructType).VariableIndex(n.Access.Accesses[i+1].Variable)
gep = v.builder.CreateGEP(gep, []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), llvm.ConstInt(llvm.Int32Type(), uint64(index), false)}, "")
default:
panic("")
}
}
return gep
}
func (fr *frame) chanSelect(sel *ssa.Select) (index, recvOk *govalue, recvElems []*govalue) {
n := uint64(len(sel.States))
if !sel.Blocking {
// non-blocking means there's a default case
n++
}
size := llvm.ConstInt(llvm.Int32Type(), n, false)
selectp := fr.runtime.newSelect.call(fr, size)[0]
// Allocate stack for the values to send and receive.
ptrs := make([]llvm.Value, len(sel.States))
for i, state := range sel.States {
chantyp := state.Chan.Type().Underlying().(*types.Chan)
elemtyp := fr.types.ToLLVM(chantyp.Elem())
if state.Dir == types.SendOnly {
ptrs[i] = fr.allocaBuilder.CreateAlloca(elemtyp, "")
fr.builder.CreateStore(fr.llvmvalue(state.Send), ptrs[i])
} else {
// Only allocate stack space if the received value is used.
used := chanSelectStateUsed(sel, len(recvElems))
if used {
ptrs[i] = fr.allocaBuilder.CreateAlloca(elemtyp, "")
} else {
ptrs[i] = llvm.ConstNull(llvm.PointerType(llvm.Int8Type(), 0))
}
recvElems = append(recvElems, newValue(ptrs[i], chantyp.Elem()))
}
}
// Create select{send,recv2} calls.
var receivedp llvm.Value
if len(recvElems) > 0 {
receivedp = fr.allocaBuilder.CreateAlloca(fr.types.ToLLVM(types.Typ[types.Bool]), "")
}
if !sel.Blocking {
// If the default case is chosen, the index must be -1.
fr.runtime.selectdefault.call(fr, selectp, llvm.ConstAllOnes(llvm.Int32Type()))
}
for i, state := range sel.States {
ch := fr.llvmvalue(state.Chan)
index := llvm.ConstInt(llvm.Int32Type(), uint64(i), false)
if state.Dir == types.SendOnly {
fr.runtime.selectsend.call(fr, selectp, ch, ptrs[i], index)
} else {
fr.runtime.selectrecv2.call(fr, selectp, ch, ptrs[i], receivedp, index)
}
}
// Fire off the select.
index = newValue(fr.runtime.selectgo.call(fr, selectp)[0], types.Typ[types.Int])
if len(recvElems) > 0 {
recvOk = newValue(fr.builder.CreateLoad(receivedp, ""), types.Typ[types.Bool])
for _, recvElem := range recvElems {
recvElem.value = fr.builder.CreateLoad(recvElem.value, "")
}
}
return index, recvOk, recvElems
}
func (v *Codegen) genAccessGEP(n parser.Expr) llvm.Value {
switch access := n.(type) {
case *parser.VariableAccessExpr:
varType := v.getVariable(access.Variable)
log.Debugln("codegen", "%v => %v", access.Variable, varType)
if varType.IsNil() {
panic("varType was nil")
}
gep := v.builder().CreateGEP(varType, []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false)}, "")
if _, ok := access.GetType().(parser.MutableReferenceType); ok {
return v.builder().CreateLoad(gep, "")
}
if _, ok := access.GetType().(parser.ConstantReferenceType); ok {
return v.builder().CreateLoad(gep, "")
}
return gep
case *parser.StructAccessExpr:
gep := v.genAccessGEP(access.Struct)
typ := access.Struct.GetType().ActualType()
index := typ.(parser.StructType).VariableIndex(access.Variable)
return v.builder().CreateStructGEP(gep, index, "")
case *parser.ArrayAccessExpr:
gep := v.genAccessGEP(access.Array)
subscriptExpr := v.genExpr(access.Subscript)
v.genBoundsCheck(v.builder().CreateLoad(v.builder().CreateStructGEP(gep, 0, ""), ""),
subscriptExpr, access.Subscript.GetType())
gep = v.builder().CreateStructGEP(gep, 1, "")
load := v.builder().CreateLoad(gep, "")
gepIndexes := []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), subscriptExpr}
return v.builder().CreateGEP(load, gepIndexes, "")
case *parser.TupleAccessExpr:
gep := v.genAccessGEP(access.Tuple)
// TODO: Check overflow
return v.builder().CreateStructGEP(gep, int(access.Index), "")
case *parser.DerefAccessExpr:
return v.genExpr(access.Expr)
default:
panic("unhandled access type")
}
}
func (fr *frame) setBranchWeightMetadata(br llvm.Value, trueweight, falseweight uint64) {
mdprof := llvm.MDKindID("prof")
mdnode := llvm.MDNode([]llvm.Value{
llvm.MDString("branch_weights"),
llvm.ConstInt(llvm.Int32Type(), trueweight, false),
llvm.ConstInt(llvm.Int32Type(), falseweight, false),
})
br.SetMetadata(mdprof, mdnode)
}
func (fr *frame) chanSelect(states []selectState, blocking bool) (index, recvOk *govalue, recvElems []*govalue) {
n := uint64(len(states))
if !blocking {
// non-blocking means there's a default case
n++
}
size := llvm.ConstInt(llvm.Int32Type(), n, false)
selectp := fr.runtime.newSelect.call(fr, size)[0]
// Allocate stack for the values to send and receive.
//
// TODO(axw) check if received elements have any users, and
// elide stack allocation if not (pass nil to recv2 instead.)
ptrs := make([]llvm.Value, len(states))
for i, state := range states {
chantyp := state.Chan.Type().Underlying().(*types.Chan)
elemtyp := fr.types.ToLLVM(chantyp.Elem())
ptrs[i] = fr.allocaBuilder.CreateAlloca(elemtyp, "")
if state.Dir == types.SendOnly {
fr.builder.CreateStore(state.Send.value, ptrs[i])
} else {
recvElems = append(recvElems, newValue(ptrs[i], chantyp.Elem()))
}
}
// Create select{send,recv2} calls.
var receivedp llvm.Value
if len(recvElems) > 0 {
receivedp = fr.allocaBuilder.CreateAlloca(fr.types.ToLLVM(types.Typ[types.Bool]), "")
}
if !blocking {
// If the default case is chosen, the index must be -1.
fr.runtime.selectdefault.call(fr, selectp, llvm.ConstAllOnes(llvm.Int32Type()))
}
for i, state := range states {
ch := state.Chan.value
index := llvm.ConstInt(llvm.Int32Type(), uint64(i), false)
if state.Dir == types.SendOnly {
fr.runtime.selectsend.call(fr, selectp, ch, ptrs[i], index)
} else {
fr.runtime.selectrecv2.call(fr, selectp, ch, ptrs[i], receivedp, index)
}
}
// Fire off the select.
index = newValue(fr.runtime.selectgo.call(fr, selectp)[0], types.Typ[types.Int])
if len(recvElems) > 0 {
recvOk = newValue(fr.builder.CreateLoad(receivedp, ""), types.Typ[types.Bool])
for _, recvElem := range recvElems {
recvElem.value = fr.builder.CreateLoad(recvElem.value, "")
}
}
return index, recvOk, recvElems
}
// interfaceMethod returns a function and receiver pointer for the specified
// interface and method pair.
func (fr *frame) interfaceMethod(lliface llvm.Value, ifacety types.Type, method *types.Func) (fn, recv *govalue) {
llitab := fr.builder.CreateExtractValue(lliface, 0, "")
recv = newValue(fr.builder.CreateExtractValue(lliface, 1, ""), types.Typ[types.UnsafePointer])
methodset := fr.types.MethodSet(ifacety)
// TODO(axw) cache ordered method index
index := -1
for i, m := range orderedMethodSet(methodset) {
if m.Obj() == method {
index = i
break
}
}
if index == -1 {
panic("could not find method index")
}
llitab = fr.builder.CreateBitCast(llitab, llvm.PointerType(llvm.PointerType(llvm.Int8Type(), 0), 0), "")
// Skip runtime type pointer.
llifnptr := fr.builder.CreateGEP(llitab, []llvm.Value{
llvm.ConstInt(llvm.Int32Type(), uint64(index+1), false),
}, "")
llifn := fr.builder.CreateLoad(llifnptr, "")
// Replace receiver type with unsafe.Pointer.
recvparam := types.NewParam(0, nil, "", types.Typ[types.UnsafePointer])
sig := method.Type().(*types.Signature)
sig = types.NewSignature(nil, recvparam, sig.Params(), sig.Results(), sig.Variadic())
fn = newValue(llifn, sig)
return
}
func (fr *frame) condBrRuntimeError(cond llvm.Value, errcode uint64) {
if cond.IsNull() {
return
}
errorbb := fr.runtimeErrorBlocks[errcode]
newbb := errorbb.C == nil
if newbb {
errorbb = llvm.AddBasicBlock(fr.function, "")
fr.runtimeErrorBlocks[errcode] = errorbb
}
contbb := llvm.AddBasicBlock(fr.function, "")
br := fr.builder.CreateCondBr(cond, errorbb, contbb)
fr.setBranchWeightMetadata(br, 1, 1000)
if newbb {
fr.builder.SetInsertPointAtEnd(errorbb)
fr.runtime.runtimeError.call(fr, llvm.ConstInt(llvm.Int32Type(), errcode, false))
fr.builder.CreateUnreachable()
}
fr.builder.SetInsertPointAtEnd(contbb)
}
func (v *Codegen) genAccessGEP(n parser.Expr) llvm.Value {
switch n.(type) {
case *parser.VariableAccessExpr:
vae := n.(*parser.VariableAccessExpr)
return v.builder.CreateGEP(v.variableLookup[vae.Variable], []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false)}, "")
case *parser.StructAccessExpr:
sae := n.(*parser.StructAccessExpr)
gep := v.genAccessGEP(sae.Struct)
index := sae.Struct.GetType().(*parser.StructType).VariableIndex(sae.Variable)
return v.builder.CreateGEP(gep, []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), llvm.ConstInt(llvm.Int32Type(), uint64(index), false)}, "")
case *parser.ArrayAccessExpr:
aae := n.(*parser.ArrayAccessExpr)
gep := v.genAccessGEP(aae.Array)
subscriptExpr := v.genExpr(aae.Subscript)
sizeGepIndexes := []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), llvm.ConstInt(llvm.Int32Type(), 0, false)}
v.genBoundsCheck(v.builder.CreateLoad(v.builder.CreateGEP(gep, sizeGepIndexes, ""), ""), subscriptExpr, aae.Subscript.GetType())
gepIndexes := []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), llvm.ConstInt(llvm.Int32Type(), 1, false)}
gep = v.builder.CreateGEP(gep, gepIndexes, "")
load := v.builder.CreateLoad(gep, "")
gepIndexes = []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), subscriptExpr}
return v.builder.CreateGEP(load, gepIndexes, "")
case *parser.TupleAccessExpr:
tae := n.(*parser.TupleAccessExpr)
gep := v.genAccessGEP(tae.Tuple)
index := tae.Index
return v.builder.CreateGEP(gep, []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 0, false), llvm.ConstInt(llvm.Int32Type(), index, false)}, "")
case *parser.DerefAccessExpr:
dae := n.(*parser.DerefAccessExpr)
return v.genExpr(dae.Expr)
default:
panic("unhandled access type")
}
}
func (fr *frame) memcpy(dest llvm.Value, src llvm.Value, size llvm.Value) {
memcpy := fr.runtime.memcpy
dest = fr.builder.CreateBitCast(dest, llvm.PointerType(llvm.Int8Type(), 0), "")
src = fr.builder.CreateBitCast(src, llvm.PointerType(llvm.Int8Type(), 0), "")
size = fr.createZExtOrTrunc(size, fr.target.IntPtrType(), "")
align := llvm.ConstInt(llvm.Int32Type(), 1, false)
isvolatile := llvm.ConstNull(llvm.Int1Type())
fr.builder.CreateCall(memcpy, []llvm.Value{dest, src, size, align, isvolatile}, "")
}
func (fr *frame) memsetZero(ptr llvm.Value, size llvm.Value) {
memset := fr.runtime.memset
ptr = fr.builder.CreateBitCast(ptr, llvm.PointerType(llvm.Int8Type(), 0), "")
fill := llvm.ConstNull(llvm.Int8Type())
size = fr.createZExtOrTrunc(size, fr.target.IntPtrType(), "")
align := llvm.ConstInt(llvm.Int32Type(), 1, false)
isvolatile := llvm.ConstNull(llvm.Int1Type())
fr.builder.CreateCall(memset, []llvm.Value{ptr, fill, size, align, isvolatile}, "")
}
// SetLocation sets the current debug location.
func (d *DIBuilder) SetLocation(b llvm.Builder, pos token.Pos) {
if !pos.IsValid() {
return
}
position := d.fset.Position(pos)
d.lb = llvm.Value{nil}
if position.Filename != d.fnFile && position.Filename != "" {
// This can happen rarely, e.g. in init functions.
diFile := d.builder.CreateFile(d.remapFilePath(position.Filename), "")
d.lb = d.builder.CreateLexicalBlockFile(d.scope(), diFile, 0)
}
b.SetCurrentDebugLocation(llvm.MDNode([]llvm.Value{
llvm.ConstInt(llvm.Int32Type(), uint64(position.Line), false),
llvm.ConstInt(llvm.Int32Type(), uint64(position.Column), false),
d.scope(),
llvm.Value{},
}))
}
// Finalize must be called after all compilation units are translated,
// generating the final debug metadata for the module.
func (d *DIBuilder) Finalize() {
d.module.AddNamedMetadataOperand(
"llvm.module.flags",
llvm.GlobalContext().MDNode([]llvm.Metadata{
llvm.ConstInt(llvm.Int32Type(), 2, false).ConstantAsMetadata(), // Warn on mismatch
llvm.GlobalContext().MDString("Dwarf Version"),
llvm.ConstInt(llvm.Int32Type(), 4, false).ConstantAsMetadata(),
}),
)
d.module.AddNamedMetadataOperand(
"llvm.module.flags",
llvm.GlobalContext().MDNode([]llvm.Metadata{
llvm.ConstInt(llvm.Int32Type(), 1, false).ConstantAsMetadata(), // Error on mismatch
llvm.GlobalContext().MDString("Debug Info Version"),
llvm.ConstInt(llvm.Int32Type(), 2, false).ConstantAsMetadata(),
}),
)
d.builder.Finalize()
}
func (fr *frame) returnAddress(level uint64) llvm.Value {
returnaddress := fr.runtime.returnaddress
levelValue := llvm.ConstInt(llvm.Int32Type(), level, false)
return fr.builder.CreateCall(returnaddress, []llvm.Value{levelValue}, "")
}
func newRuntimeInterface(module llvm.Module, tm *llvmTypeMap) (*runtimeInterface, error) {
var ri runtimeInterface
Bool := types.Typ[types.Bool]
Complex128 := types.Typ[types.Complex128]
Float64 := types.Typ[types.Float64]
Int32 := types.Typ[types.Int32]
Int64 := types.Typ[types.Int64]
Int := types.Typ[types.Int]
Rune := types.Typ[types.Rune]
String := types.Typ[types.String]
Uintptr := types.Typ[types.Uintptr]
UnsafePointer := types.Typ[types.UnsafePointer]
EmptyInterface := types.NewInterface(nil, nil)
IntSlice := types.NewSlice(types.Typ[types.Int])
for _, rt := range [...]struct {
name string
rfi *runtimeFnInfo
args, res []types.Type
attrs []llvm.Attribute
}{
{
name: "__go_append",
rfi: &ri.append,
args: []types.Type{IntSlice, UnsafePointer, Uintptr, Uintptr},
res: []types.Type{IntSlice},
},
{
name: "__go_assert_interface",
rfi: &ri.assertInterface,
args: []types.Type{UnsafePointer, UnsafePointer},
res: []types.Type{UnsafePointer},
},
{
name: "__go_can_recover",
rfi: &ri.canRecover,
args: []types.Type{UnsafePointer},
res: []types.Type{Bool},
},
{
name: "__go_chan_cap",
rfi: &ri.chanCap,
args: []types.Type{UnsafePointer},
res: []types.Type{Int},
},
{
name: "__go_chan_len",
rfi: &ri.chanLen,
args: []types.Type{UnsafePointer},
res: []types.Type{Int},
},
{
name: "runtime.chanrecv2",
rfi: &ri.chanrecv2,
args: []types.Type{UnsafePointer, UnsafePointer, UnsafePointer},
res: []types.Type{Bool},
},
{
name: "__go_check_defer",
rfi: &ri.checkDefer,
args: []types.Type{UnsafePointer},
},
{
name: "__go_check_interface_type",
rfi: &ri.checkInterfaceType,
args: []types.Type{UnsafePointer, UnsafePointer, UnsafePointer},
},
{
name: "__go_builtin_close",
rfi: &ri.builtinClose,
args: []types.Type{UnsafePointer},
},
{
name: "__go_convert_interface",
rfi: &ri.convertInterface,
args: []types.Type{UnsafePointer, UnsafePointer},
res: []types.Type{UnsafePointer},
},
{
name: "__go_copy",
rfi: &ri.copy,
args: []types.Type{UnsafePointer, UnsafePointer, Uintptr},
},
{
name: "__go_defer",
rfi: &ri.Defer,
args: []types.Type{UnsafePointer, UnsafePointer, UnsafePointer},
},
{
name: "__go_deferred_recover",
rfi: &ri.deferredRecover,
res: []types.Type{EmptyInterface},
},
{
name: "__go_empty_interface_compare",
rfi: &ri.emptyInterfaceCompare,
args: []types.Type{EmptyInterface, EmptyInterface},
res: []types.Type{Int},
},
{
name: "__go_go",
rfi: &ri.Go,
args: []types.Type{UnsafePointer, UnsafePointer},
},
{
name: "runtime.ifaceE2I2",
rfi: &ri.ifaceE2I2,
args: []types.Type{UnsafePointer, EmptyInterface},
res: []types.Type{EmptyInterface, Bool},
},
{
name: "runtime.ifaceI2I2",
rfi: &ri.ifaceI2I2,
args: []types.Type{UnsafePointer, EmptyInterface},
res: []types.Type{EmptyInterface, Bool},
},
{
name: "__go_int_array_to_string",
rfi: &ri.intArrayToString,
args: []types.Type{UnsafePointer, Int},
res: []types.Type{String},
},
{
name: "__go_int_to_string",
rfi: &ri.intToString,
args: []types.Type{Int},
res: []types.Type{String},
},
{
name: "__go_interface_compare",
rfi: &ri.interfaceCompare,
args: []types.Type{EmptyInterface, EmptyInterface},
res: []types.Type{Int},
},
{
name: "__go_make_slice2",
rfi: &ri.makeSlice,
args: []types.Type{UnsafePointer, Uintptr, Uintptr},
res: []types.Type{IntSlice},
},
{
name: "runtime.mapdelete",
rfi: &ri.mapdelete,
args: []types.Type{UnsafePointer, UnsafePointer},
},
{
name: "runtime.mapiter2",
rfi: &ri.mapiter2,
args: []types.Type{UnsafePointer, UnsafePointer, UnsafePointer},
},
{
name: "runtime.mapiterinit",
rfi: &ri.mapiterinit,
args: []types.Type{UnsafePointer, UnsafePointer},
},
{
name: "runtime.mapiternext",
rfi: &ri.mapiternext,
args: []types.Type{UnsafePointer},
},
{
name: "__go_map_index",
rfi: &ri.mapIndex,
args: []types.Type{UnsafePointer, UnsafePointer, Bool},
res: []types.Type{UnsafePointer},
},
{
name: "__go_map_len",
rfi: &ri.mapLen,
args: []types.Type{UnsafePointer},
res: []types.Type{Int},
},
{
name: "__go_new",
rfi: &ri.New,
args: []types.Type{UnsafePointer, Uintptr},
res: []types.Type{UnsafePointer},
},
{
name: "__go_new_channel",
rfi: &ri.newChannel,
args: []types.Type{UnsafePointer, Uintptr},
res: []types.Type{UnsafePointer},
},
{
name: "__go_new_map",
rfi: &ri.newMap,
args: []types.Type{UnsafePointer, Uintptr},
res: []types.Type{UnsafePointer},
},
{
name: "__go_new_nopointers",
rfi: &ri.NewNopointers,
args: []types.Type{UnsafePointer, Uintptr},
res: []types.Type{UnsafePointer},
},
{
name: "runtime.newselect",
rfi: &ri.newSelect,
args: []types.Type{Int32},
res: []types.Type{UnsafePointer},
},
{
name: "__go_panic",
rfi: &ri.panic,
args: []types.Type{EmptyInterface},
attrs: []llvm.Attribute{llvm.NoReturnAttribute},
},
{
name: "__go_print_bool",
rfi: &ri.printBool,
args: []types.Type{Bool},
},
{
name: "__go_print_complex",
rfi: &ri.printComplex,
args: []types.Type{Complex128},
},
{
name: "__go_print_double",
rfi: &ri.printDouble,
args: []types.Type{Float64},
},
{
name: "__go_print_empty_interface",
rfi: &ri.printEmptyInterface,
args: []types.Type{EmptyInterface},
},
{
name: "__go_print_interface",
rfi: &ri.printInterface,
args: []types.Type{EmptyInterface},
},
{
name: "__go_print_int64",
rfi: &ri.printInt64,
args: []types.Type{Int64},
},
{
name: "__go_print_nl",
rfi: &ri.printNl,
},
{
name: "__go_print_pointer",
rfi: &ri.printPointer,
args: []types.Type{UnsafePointer},
},
{
name: "__go_print_slice",
rfi: &ri.printSlice,
args: []types.Type{IntSlice},
},
{
name: "__go_print_space",
rfi: &ri.printSpace,
},
{
name: "__go_print_string",
rfi: &ri.printString,
args: []types.Type{String},
},
{
name: "__go_print_uint64",
rfi: &ri.printUint64,
args: []types.Type{Int64},
},
{
name: "__go_receive",
rfi: &ri.receive,
args: []types.Type{UnsafePointer, UnsafePointer, UnsafePointer},
},
{
name: "__go_recover",
rfi: &ri.recover,
res: []types.Type{EmptyInterface},
},
{
name: "__go_register_gc_roots",
rfi: &ri.registerGcRoots,
args: []types.Type{UnsafePointer},
},
{
name: "__go_runtime_error",
rfi: &ri.runtimeError,
args: []types.Type{Int32},
attrs: []llvm.Attribute{llvm.NoReturnAttribute},
},
{
name: "runtime.selectdefault",
rfi: &ri.selectdefault,
args: []types.Type{UnsafePointer, Int32},
},
{
name: "runtime.selectgo",
rfi: &ri.selectgo,
args: []types.Type{UnsafePointer},
res: []types.Type{Int},
},
{
name: "runtime.selectrecv2",
rfi: &ri.selectrecv2,
args: []types.Type{UnsafePointer, UnsafePointer, UnsafePointer, UnsafePointer, Int32},
},
{
name: "runtime.selectsend",
rfi: &ri.selectsend,
args: []types.Type{UnsafePointer, UnsafePointer, UnsafePointer, Int32},
},
{
name: "__go_send_big",
rfi: &ri.sendBig,
args: []types.Type{UnsafePointer, UnsafePointer, UnsafePointer},
},
{
name: "__go_set_defer_retaddr",
rfi: &ri.setDeferRetaddr,
args: []types.Type{UnsafePointer},
res: []types.Type{Bool},
},
{
name: "__go_strcmp",
rfi: &ri.strcmp,
args: []types.Type{String, String},
res: []types.Type{Int},
},
{
name: "__go_string_plus",
rfi: &ri.stringPlus,
args: []types.Type{String, String},
res: []types.Type{String},
},
{
name: "__go_string_slice",
rfi: &ri.stringSlice,
args: []types.Type{String, Int, Int},
res: []types.Type{String},
},
{
name: "__go_string_to_int_array",
rfi: &ri.stringToIntArray,
args: []types.Type{String},
res: []types.Type{IntSlice},
},
{
name: "runtime.stringiter2",
rfi: &ri.stringiter2,
args: []types.Type{String, Int},
res: []types.Type{Int, Rune},
},
{
name: "__go_type_descriptors_equal",
rfi: &ri.typeDescriptorsEqual,
args: []types.Type{UnsafePointer, UnsafePointer},
res: []types.Type{Bool},
},
{
name: "__go_undefer",
rfi: &ri.undefer,
args: []types.Type{UnsafePointer},
},
} {
rt.rfi.init(tm, module, rt.name, rt.args, rt.res)
for _, attr := range rt.attrs {
rt.rfi.fn.AddFunctionAttr(attr)
}
}
memsetName := "llvm.memset.p0i8.i" + strconv.Itoa(tm.target.IntPtrType().IntTypeWidth())
memsetType := llvm.FunctionType(
llvm.VoidType(),
[]llvm.Type{
llvm.PointerType(llvm.Int8Type(), 0),
llvm.Int8Type(),
tm.target.IntPtrType(),
llvm.Int32Type(),
llvm.Int1Type(),
},
false,
)
ri.memset = llvm.AddFunction(module, memsetName, memsetType)
memcpyName := "llvm.memcpy.p0i8.p0i8.i" + strconv.Itoa(tm.target.IntPtrType().IntTypeWidth())
memcpyType := llvm.FunctionType(
llvm.VoidType(),
[]llvm.Type{
llvm.PointerType(llvm.Int8Type(), 0),
llvm.PointerType(llvm.Int8Type(), 0),
tm.target.IntPtrType(),
llvm.Int32Type(),
llvm.Int1Type(),
},
false,
)
ri.memcpy = llvm.AddFunction(module, memcpyName, memcpyType)
returnaddressType := llvm.FunctionType(
llvm.PointerType(llvm.Int8Type(), 0),
[]llvm.Type{llvm.Int32Type()},
false,
)
ri.returnaddress = llvm.AddFunction(module, "llvm.returnaddress", returnaddressType)
gccgoPersonalityType := llvm.FunctionType(
llvm.Int32Type(),
[]llvm.Type{
llvm.Int32Type(),
llvm.Int64Type(),
llvm.PointerType(llvm.Int8Type(), 0),
llvm.PointerType(llvm.Int8Type(), 0),
},
false,
)
ri.gccgoPersonality = llvm.AddFunction(module, "__gccgo_personality_v0", gccgoPersonalityType)
ri.gccgoExceptionType = llvm.StructType(
[]llvm.Type{
llvm.PointerType(llvm.Int8Type(), 0),
llvm.Int32Type(),
},
false,
)
return &ri, nil
}
func (v *Codegen) genSizeofExpr(n *parser.SizeofExpr) llvm.Value {
if n.Expr != nil {
gep := v.builder.CreateGEP(llvm.ConstNull(llvm.PointerType(v.typeToLLVMType(n.Expr.GetType()), 0)), []llvm.Value{llvm.ConstInt(llvm.Int32Type(), 1, false)}, "")
return v.builder.CreatePtrToInt(gep, v.typeToLLVMType(n.GetType()), "sizeof")
} else {
// we have a type
panic("can't do this yet")
}
}
package codegen
import (
"log"
"github.com/furryfaust/lyca/src/parser"
"llvm.org/llvm/bindings/go/llvm"
)
var PRIMITIVE_TYPES = map[string]llvm.Type{
"int": llvm.Int32Type(), "char": llvm.Int8Type(), "float": llvm.FloatType(), "boolean": llvm.Int1Type(),
}
var null llvm.Value = llvm.Value{}
func (c *Codegen) getLLVMFuncType(ret parser.Node, params []*parser.VarDeclNode, obj llvm.Type) llvm.Type {
p := make([]llvm.Type, 0)
if obj != llvm.VoidType() {
p = append(p, obj)
}
for _, v := range params {
p = append(p, c.getLLVMType(v.Type))
}
return llvm.FunctionType(c.getLLVMType(ret), p, false)
}
func (c *Codegen) getLLVMType(node parser.Node) llvm.Type {
switch t := node.(type) {
/*
