to reflect the new license. We understand that people may be surprised that we're moving the header entirely to discuss the new license. We checked this carefully with the Foundation's lawyer and we believe this is the correct approach. Essentially, all code in the project is now made available by the LLVM project under our new license, so you will see that the license headers include that license only. Some of our contributors have contributed code under our old license, and accordingly, we have retained a copy of our old license notice in the top-level files in each project and repository. llvm-svn: 351636
196 lines
6.8 KiB
Go
196 lines
6.8 KiB
Go
//===- interfaces.go - IR generation for interfaces -----------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements IR generation for dealing with interface values.
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//
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//===----------------------------------------------------------------------===//
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package irgen
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import (
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"llvm.org/llgo/third_party/gotools/go/types"
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"llvm.org/llvm/bindings/go/llvm"
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)
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// interfaceMethod returns a function and receiver pointer for the specified
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// interface and method pair.
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func (fr *frame) interfaceMethod(lliface llvm.Value, ifacety types.Type, method *types.Func) (fn, recv *govalue) {
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llitab := fr.builder.CreateExtractValue(lliface, 0, "")
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recv = newValue(fr.builder.CreateExtractValue(lliface, 1, ""), types.Typ[types.UnsafePointer])
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methodset := fr.types.MethodSet(ifacety)
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// TODO(axw) cache ordered method index
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index := -1
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for i, m := range orderedMethodSet(methodset) {
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if m.Obj() == method {
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index = i
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break
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}
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}
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if index == -1 {
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panic("could not find method index")
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}
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llitab = fr.builder.CreateBitCast(llitab, llvm.PointerType(llvm.PointerType(llvm.Int8Type(), 0), 0), "")
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// Skip runtime type pointer.
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llifnptr := fr.builder.CreateGEP(llitab, []llvm.Value{
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llvm.ConstInt(llvm.Int32Type(), uint64(index+1), false),
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}, "")
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llifn := fr.builder.CreateLoad(llifnptr, "")
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// Replace receiver type with unsafe.Pointer.
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recvparam := types.NewParam(0, nil, "", types.Typ[types.UnsafePointer])
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sig := method.Type().(*types.Signature)
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sig = types.NewSignature(nil, recvparam, sig.Params(), sig.Results(), sig.Variadic())
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fn = newValue(llifn, sig)
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return
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}
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// compareInterfaces emits code to compare two interfaces for
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// equality.
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func (fr *frame) compareInterfaces(a, b *govalue) *govalue {
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aNull := a.value.IsNull()
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bNull := b.value.IsNull()
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if aNull && bNull {
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return newValue(boolLLVMValue(true), types.Typ[types.Bool])
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}
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compare := fr.runtime.emptyInterfaceCompare
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aI := a.Type().Underlying().(*types.Interface).NumMethods() > 0
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bI := b.Type().Underlying().(*types.Interface).NumMethods() > 0
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switch {
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case aI && bI:
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compare = fr.runtime.interfaceCompare
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case aI:
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a = fr.convertI2E(a)
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case bI:
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b = fr.convertI2E(b)
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}
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result := compare.call(fr, a.value, b.value)[0]
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result = fr.builder.CreateIsNull(result, "")
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result = fr.builder.CreateZExt(result, llvm.Int8Type(), "")
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return newValue(result, types.Typ[types.Bool])
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}
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func (fr *frame) makeInterface(llv llvm.Value, vty types.Type, iface types.Type) *govalue {
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if _, ok := vty.Underlying().(*types.Pointer); !ok {
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ptr := fr.createTypeMalloc(vty)
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fr.builder.CreateStore(llv, ptr)
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llv = ptr
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}
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return fr.makeInterfaceFromPointer(llv, vty, iface)
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}
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func (fr *frame) makeInterfaceFromPointer(vptr llvm.Value, vty types.Type, iface types.Type) *govalue {
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i8ptr := llvm.PointerType(llvm.Int8Type(), 0)
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llv := fr.builder.CreateBitCast(vptr, i8ptr, "")
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value := llvm.Undef(fr.types.ToLLVM(iface))
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itab := fr.types.getItabPointer(vty, iface.Underlying().(*types.Interface))
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value = fr.builder.CreateInsertValue(value, itab, 0, "")
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value = fr.builder.CreateInsertValue(value, llv, 1, "")
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return newValue(value, iface)
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}
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// Reads the type descriptor from the given interface type.
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func (fr *frame) getInterfaceTypeDescriptor(v *govalue) llvm.Value {
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isempty := v.Type().Underlying().(*types.Interface).NumMethods() == 0
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itab := fr.builder.CreateExtractValue(v.value, 0, "")
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if isempty {
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return itab
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} else {
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itabnonnull := fr.builder.CreateIsNotNull(itab, "")
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return fr.loadOrNull(itabnonnull, itab, types.Typ[types.UnsafePointer]).value
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}
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}
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// Reads the value from the given interface type, assuming that the
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// interface holds a value of the correct type.
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func (fr *frame) getInterfaceValue(v *govalue, ty types.Type) *govalue {
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val := fr.builder.CreateExtractValue(v.value, 1, "")
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if _, ok := ty.Underlying().(*types.Pointer); !ok {
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typedval := fr.builder.CreateBitCast(val, llvm.PointerType(fr.types.ToLLVM(ty), 0), "")
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val = fr.builder.CreateLoad(typedval, "")
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}
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return newValue(val, ty)
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}
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// If cond is true, reads the value from the given interface type, otherwise
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// returns a nil value.
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func (fr *frame) getInterfaceValueOrNull(cond llvm.Value, v *govalue, ty types.Type) *govalue {
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val := fr.builder.CreateExtractValue(v.value, 1, "")
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if _, ok := ty.Underlying().(*types.Pointer); ok {
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val = fr.builder.CreateSelect(cond, val, llvm.ConstNull(val.Type()), "")
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} else {
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val = fr.loadOrNull(cond, val, ty).value
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}
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return newValue(val, ty)
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}
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func (fr *frame) interfaceTypeCheck(val *govalue, ty types.Type) (v *govalue, okval *govalue) {
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tytd := fr.types.ToRuntime(ty)
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if _, ok := ty.Underlying().(*types.Interface); ok {
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var result []llvm.Value
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if val.Type().Underlying().(*types.Interface).NumMethods() > 0 {
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result = fr.runtime.ifaceI2I2.call(fr, tytd, val.value)
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} else {
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result = fr.runtime.ifaceE2I2.call(fr, tytd, val.value)
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}
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v = newValue(result[0], ty)
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okval = newValue(result[1], types.Typ[types.Bool])
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} else {
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valtd := fr.getInterfaceTypeDescriptor(val)
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tyequal := fr.runtime.typeDescriptorsEqual.call(fr, valtd, tytd)[0]
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okval = newValue(tyequal, types.Typ[types.Bool])
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tyequal = fr.builder.CreateTrunc(tyequal, llvm.Int1Type(), "")
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v = fr.getInterfaceValueOrNull(tyequal, val, ty)
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}
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return
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}
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func (fr *frame) interfaceTypeAssert(val *govalue, ty types.Type) *govalue {
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if _, ok := ty.Underlying().(*types.Interface); ok {
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return fr.changeInterface(val, ty, true)
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} else {
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valtytd := fr.types.ToRuntime(val.Type())
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valtd := fr.getInterfaceTypeDescriptor(val)
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tytd := fr.types.ToRuntime(ty)
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fr.runtime.checkInterfaceType.call(fr, valtd, tytd, valtytd)
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return fr.getInterfaceValue(val, ty)
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}
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}
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// convertI2E converts a non-empty interface value to an empty interface.
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func (fr *frame) convertI2E(v *govalue) *govalue {
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td := fr.getInterfaceTypeDescriptor(v)
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val := fr.builder.CreateExtractValue(v.value, 1, "")
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typ := types.NewInterface(nil, nil)
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intf := llvm.Undef(fr.types.ToLLVM(typ))
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intf = fr.builder.CreateInsertValue(intf, td, 0, "")
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intf = fr.builder.CreateInsertValue(intf, val, 1, "")
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return newValue(intf, typ)
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}
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func (fr *frame) changeInterface(v *govalue, ty types.Type, assert bool) *govalue {
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td := fr.getInterfaceTypeDescriptor(v)
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tytd := fr.types.ToRuntime(ty)
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var itab llvm.Value
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if assert {
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itab = fr.runtime.assertInterface.call(fr, tytd, td)[0]
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} else {
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itab = fr.runtime.convertInterface.call(fr, tytd, td)[0]
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}
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val := fr.builder.CreateExtractValue(v.value, 1, "")
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intf := llvm.Undef(fr.types.ToLLVM(ty))
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intf = fr.builder.CreateInsertValue(intf, itab, 0, "")
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intf = fr.builder.CreateInsertValue(intf, val, 1, "")
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return newValue(intf, ty)
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}
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