本文整理汇总了Golang中github.com/axw/gollvm/llvm.Int1Type函数的典型用法代码示例。如果您正苦于以下问题:Golang Int1Type函数的具体用法?Golang Int1Type怎么用?Golang Int1Type使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了Int1Type函数的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Golang代码示例。
示例1: mapLookup
// mapLookup searches a map for a specified key, returning a pointer to the
// memory location for the value. If insert is given as true, and the key
// does not exist in the map, it will be added with an uninitialised value.
func (c *compiler) mapLookup(m *LLVMValue, key Value, insert bool) (elem *LLVMValue, notnull *LLVMValue) {
mapType := m.Type().Underlying().(*types.Map)
maplookup := c.NamedFunction("runtime.maplookup", "func f(t, m, k uintptr, insert bool) uintptr")
ptrType := c.target.IntPtrType()
args := make([]llvm.Value, 4)
args[0] = llvm.ConstPtrToInt(c.types.ToRuntime(mapType), ptrType)
args[1] = c.builder.CreatePtrToInt(m.LLVMValue(), ptrType, "")
if insert {
args[3] = llvm.ConstAllOnes(llvm.Int1Type())
} else {
args[3] = llvm.ConstNull(llvm.Int1Type())
}
if lv, islv := key.(*LLVMValue); islv && lv.pointer != nil {
args[2] = c.builder.CreatePtrToInt(lv.pointer.LLVMValue(), ptrType, "")
}
if args[2].IsNil() {
stackval := c.builder.CreateAlloca(c.types.ToLLVM(key.Type()), "")
c.builder.CreateStore(key.LLVMValue(), stackval)
args[2] = c.builder.CreatePtrToInt(stackval, ptrType, "")
}
eltPtrType := types.NewPointer(mapType.Elem())
llvmtyp := c.types.ToLLVM(eltPtrType)
zeroglobal := llvm.AddGlobal(c.module.Module, llvmtyp.ElementType(), "")
zeroglobal.SetInitializer(llvm.ConstNull(llvmtyp.ElementType()))
result := c.builder.CreateCall(maplookup, args, "")
result = c.builder.CreateIntToPtr(result, llvmtyp, "")
notnull_ := c.builder.CreateIsNotNull(result, "")
result = c.builder.CreateSelect(notnull_, result, zeroglobal, "")
value := c.NewValue(result, eltPtrType)
return value.makePointee(), c.NewValue(notnull_, types.Typ[types.Bool])
}
示例2: defineMemcpyFunction
func (c *compiler) defineMemcpyFunction(fn llvm.Value) {
entry := llvm.AddBasicBlock(fn, "entry")
c.builder.SetInsertPointAtEnd(entry)
dst, src, size := fn.Param(0), fn.Param(1), fn.Param(2)
pint8 := llvm.PointerType(llvm.Int8Type(), 0)
dst = c.builder.CreateIntToPtr(dst, pint8, "")
src = c.builder.CreateIntToPtr(src, pint8, "")
sizeType := size.Type()
sizeBits := sizeType.IntTypeWidth()
memcpyName := "llvm.memcpy.p0i8.p0i8.i" + strconv.Itoa(sizeBits)
memcpy := c.module.NamedFunction(memcpyName)
if memcpy.IsNil() {
paramtypes := []llvm.Type{
pint8, pint8, size.Type(), llvm.Int32Type(), llvm.Int1Type()}
memcpyType := llvm.FunctionType(llvm.VoidType(), paramtypes, false)
memcpy = llvm.AddFunction(c.module.Module, memcpyName, memcpyType)
}
args := []llvm.Value{
dst, src, size,
llvm.ConstInt(llvm.Int32Type(), 1, false), // single byte alignment
llvm.ConstInt(llvm.Int1Type(), 0, false), // not volatile
}
c.builder.CreateCall(memcpy, args, "")
c.builder.CreateRetVoid()
}
示例3: convertI2V
// convertI2V converts an interface to a value.
func (v *LLVMValue) convertI2V(typ types.Type) (result, success Value) {
builder := v.compiler.builder
predicate := v.interfaceTypeEquals(typ).LLVMValue()
// If result is zero, then we've got a match.
end := llvm.InsertBasicBlock(builder.GetInsertBlock(), "end")
end.MoveAfter(builder.GetInsertBlock())
nonmatch := llvm.InsertBasicBlock(end, "nonmatch")
match := llvm.InsertBasicBlock(nonmatch, "match")
builder.CreateCondBr(predicate, match, nonmatch)
builder.SetInsertPointAtEnd(match)
matchResultValue := v.loadI2V(typ).LLVMValue()
builder.CreateBr(end)
builder.SetInsertPointAtEnd(nonmatch)
nonmatchResultValue := llvm.ConstNull(matchResultValue.Type())
builder.CreateBr(end)
builder.SetInsertPointAtEnd(end)
successValue := builder.CreatePHI(llvm.Int1Type(), "")
resultValue := builder.CreatePHI(matchResultValue.Type(), "")
successValues := []llvm.Value{llvm.ConstAllOnes(llvm.Int1Type()), llvm.ConstNull(llvm.Int1Type())}
successBlocks := []llvm.BasicBlock{match, nonmatch}
successValue.AddIncoming(successValues, successBlocks)
success = v.compiler.NewValue(successValue, types.Typ[types.Bool])
resultValues := []llvm.Value{matchResultValue, nonmatchResultValue}
resultBlocks := []llvm.BasicBlock{match, nonmatch}
resultValue.AddIncoming(resultValues, resultBlocks)
result = v.compiler.NewValue(resultValue, typ)
return result, success
}
示例4: compileLogicalOp
// Binary logical operators are handled specially, outside of the Value
// type, because of the need to perform lazy evaluation.
//
// Binary logical operators are implemented using a Phi node, which takes
// on the appropriate value depending on which basic blocks branch to it.
func (c *compiler) compileLogicalOp(op token.Token, lhs Value, rhsFunc func() Value) Value {
lhsBlock := c.builder.GetInsertBlock()
resultBlock := llvm.AddBasicBlock(lhsBlock.Parent(), "")
resultBlock.MoveAfter(lhsBlock)
rhsBlock := llvm.InsertBasicBlock(resultBlock, "")
falseBlock := llvm.InsertBasicBlock(resultBlock, "")
if op == token.LOR {
c.builder.CreateCondBr(lhs.LLVMValue(), resultBlock, rhsBlock)
} else {
c.builder.CreateCondBr(lhs.LLVMValue(), rhsBlock, falseBlock)
}
c.builder.SetInsertPointAtEnd(rhsBlock)
rhs := rhsFunc()
rhsBlock = c.builder.GetInsertBlock() // rhsFunc may create blocks
c.builder.CreateCondBr(rhs.LLVMValue(), resultBlock, falseBlock)
c.builder.SetInsertPointAtEnd(falseBlock)
c.builder.CreateBr(resultBlock)
c.builder.SetInsertPointAtEnd(resultBlock)
result := c.builder.CreatePHI(llvm.Int1Type(), "")
trueValue := llvm.ConstAllOnes(llvm.Int1Type())
falseValue := llvm.ConstNull(llvm.Int1Type())
var values []llvm.Value
var blocks []llvm.BasicBlock
if op == token.LOR {
values = []llvm.Value{trueValue, trueValue, falseValue}
blocks = []llvm.BasicBlock{lhsBlock, rhsBlock, falseBlock}
} else {
values = []llvm.Value{trueValue, falseValue}
blocks = []llvm.BasicBlock{rhsBlock, falseBlock}
}
result.AddIncoming(values, blocks)
return c.NewLLVMValue(result, types.Bool)
}
示例5: boolLLVMValue
func boolLLVMValue(v bool) (lv llvm.Value) {
if v {
lv = llvm.ConstAllOnes(llvm.Int1Type())
} else {
lv = llvm.ConstNull(llvm.Int1Type())
}
return lv
}
示例6: LLVMValue
func (v ConstValue) LLVMValue() llvm.Value {
typ := types.Underlying(v.Type())
switch typ {
case types.Int, types.Uint:
return llvm.ConstInt(llvm.Int32Type(), uint64(v.Int64()), true)
// TODO 32/64bit (probably wait for gc)
//int_val := v.Val.(*big.Int)
//if int_val.Cmp(maxBigInt32) > 0 || int_val.Cmp(minBigInt32) < 0 {
// panic(fmt.Sprint("const ", int_val, " overflows int"))
//}
//return llvm.ConstInt(v.compiler.target.IntPtrType(), uint64(v.Int64()), true)
case types.Uint:
return llvm.ConstInt(llvm.Int32Type(), uint64(v.Int64()), false)
case types.Int8:
return llvm.ConstInt(llvm.Int8Type(), uint64(v.Int64()), true)
case types.Uint8, types.Byte:
return llvm.ConstInt(llvm.Int8Type(), uint64(v.Int64()), false)
case types.Int16:
return llvm.ConstInt(llvm.Int16Type(), uint64(v.Int64()), true)
case types.Uint16:
return llvm.ConstInt(llvm.Int16Type(), uint64(v.Int64()), false)
case types.Int32, types.Rune:
return llvm.ConstInt(llvm.Int32Type(), uint64(v.Int64()), true)
case types.Uint32:
return llvm.ConstInt(llvm.Int32Type(), uint64(v.Int64()), false)
case types.Int64:
return llvm.ConstInt(llvm.Int64Type(), uint64(v.Int64()), true)
case types.Uint64:
return llvm.ConstInt(llvm.Int64Type(), uint64(v.Int64()), true)
case types.Float32:
return llvm.ConstFloat(llvm.FloatType(), float64(v.Float64()))
case types.Float64:
return llvm.ConstFloat(llvm.DoubleType(), float64(v.Float64()))
case types.UnsafePointer, types.Uintptr:
inttype := v.compiler.target.IntPtrType()
return llvm.ConstInt(inttype, uint64(v.Int64()), false)
case types.String:
strval := (v.Val).(string)
ptr := v.compiler.builder.CreateGlobalStringPtr(strval, "")
len_ := llvm.ConstInt(llvm.Int32Type(), uint64(len(strval)), false)
return llvm.ConstStruct([]llvm.Value{ptr, len_}, false)
case types.Bool:
if v := v.Val.(bool); v {
return llvm.ConstAllOnes(llvm.Int1Type())
}
return llvm.ConstNull(llvm.Int1Type())
}
panic(fmt.Errorf("Unhandled type: %v", typ)) //v.typ.Kind))
}
示例7: basicLLVMType
func (tm *TypeMap) basicLLVMType(b *types.Basic) llvm.Type {
switch b.Kind {
case types.BoolKind:
return llvm.Int1Type()
case types.Int8Kind, types.Uint8Kind:
return llvm.Int8Type()
case types.Int16Kind, types.Uint16Kind:
return llvm.Int16Type()
case types.Int32Kind, types.Uint32Kind:
return llvm.Int32Type()
case types.Int64Kind, types.Uint64Kind:
return llvm.Int64Type()
case types.Float32Kind:
return llvm.FloatType()
case types.Float64Kind:
return llvm.DoubleType()
case types.UnsafePointerKind, types.UintptrKind,
types.UintKind, types.IntKind:
return tm.target.IntPtrType()
//case Complex64: TODO
//case Complex128:
//case UntypedInt:
//case UntypedFloat:
//case UntypedComplex:
case types.StringKind:
i8ptr := llvm.PointerType(llvm.Int8Type(), 0)
elements := []llvm.Type{i8ptr, llvm.Int32Type()}
return llvm.StructType(elements, false)
}
panic(fmt.Sprint("unhandled kind: ", b.Kind))
}
示例8: basicLLVMType
func (tm *llvmTypeMap) basicLLVMType(b *types.Basic) llvm.Type {
switch b.Kind() {
case types.Bool:
return llvm.Int1Type()
case types.Int8, types.Uint8:
return llvm.Int8Type()
case types.Int16, types.Uint16:
return llvm.Int16Type()
case types.Int32, types.Uint32:
return llvm.Int32Type()
case types.Uint, types.Int:
return tm.inttype
case types.Int64, types.Uint64:
return llvm.Int64Type()
case types.Float32:
return llvm.FloatType()
case types.Float64:
return llvm.DoubleType()
case types.UnsafePointer, types.Uintptr:
return tm.target.IntPtrType()
case types.Complex64:
f32 := llvm.FloatType()
elements := []llvm.Type{f32, f32}
return llvm.StructType(elements, false)
case types.Complex128:
f64 := llvm.DoubleType()
elements := []llvm.Type{f64, f64}
return llvm.StructType(elements, false)
case types.String:
i8ptr := llvm.PointerType(llvm.Int8Type(), 0)
elements := []llvm.Type{i8ptr, tm.inttype}
return llvm.StructType(elements, false)
}
panic(fmt.Sprint("unhandled kind: ", b.Kind))
}
示例9: compareI2V
func (lhs *LLVMValue) compareI2V(rhs *LLVMValue) Value {
c := lhs.compiler
predicate := lhs.interfaceTypeEquals(rhs.typ).LLVMValue()
end := llvm.InsertBasicBlock(c.builder.GetInsertBlock(), "end")
end.MoveAfter(c.builder.GetInsertBlock())
nonmatch := llvm.InsertBasicBlock(end, "nonmatch")
match := llvm.InsertBasicBlock(nonmatch, "match")
c.builder.CreateCondBr(predicate, match, nonmatch)
c.builder.SetInsertPointAtEnd(match)
lhsValue := lhs.loadI2V(rhs.typ)
matchResultValue := lhsValue.BinaryOp(token.EQL, rhs).LLVMValue()
c.builder.CreateBr(end)
c.builder.SetInsertPointAtEnd(nonmatch)
nonmatchResultValue := llvm.ConstNull(llvm.Int1Type())
c.builder.CreateBr(end)
c.builder.SetInsertPointAtEnd(end)
resultValue := c.builder.CreatePHI(matchResultValue.Type(), "")
resultValues := []llvm.Value{matchResultValue, nonmatchResultValue}
resultBlocks := []llvm.BasicBlock{match, nonmatch}
resultValue.AddIncoming(resultValues, resultBlocks)
return c.NewValue(resultValue, types.Typ[types.Bool])
}
示例10: compareI2I
// interfacesEqual compares two interfaces for equality, returning
// a dynamic boolean value.
func (lhs *LLVMValue) compareI2I(rhs *LLVMValue) Value {
c := lhs.compiler
b := c.builder
lhsValue := b.CreateExtractValue(lhs.LLVMValue(), 0, "")
rhsValue := b.CreateExtractValue(rhs.LLVMValue(), 0, "")
lhsType := b.CreateExtractValue(lhs.LLVMValue(), 1, "")
rhsType := b.CreateExtractValue(rhs.LLVMValue(), 1, "")
llvmUintptr := c.target.IntPtrType()
runtimeCompareI2I := c.module.Module.NamedFunction("runtime.compareI2I")
if runtimeCompareI2I.IsNil() {
args := []llvm.Type{llvmUintptr, llvmUintptr, llvmUintptr, llvmUintptr}
functype := llvm.FunctionType(llvm.Int1Type(), args, false)
runtimeCompareI2I = llvm.AddFunction(
c.module.Module, "runtime.compareI2I", functype)
}
args := []llvm.Value{
c.builder.CreatePtrToInt(lhsType, llvmUintptr, ""),
c.builder.CreatePtrToInt(rhsType, llvmUintptr, ""),
c.builder.CreatePtrToInt(lhsValue, llvmUintptr, ""),
c.builder.CreatePtrToInt(rhsValue, llvmUintptr, ""),
}
result := c.builder.CreateCall(runtimeCompareI2I, args, "")
return c.NewLLVMValue(result, types.Bool)
}
示例11: NewTypeMap
func NewTypeMap(llvmtm *LLVMTypeMap, module llvm.Module, pkgpath string, exprTypes map[ast.Expr]types.Type, c *FunctionCache, r Resolver) *TypeMap {
tm := &TypeMap{
LLVMTypeMap: llvmtm,
module: module,
pkgpath: pkgpath,
types: make(map[string]runtimeTypeInfo),
expr: exprTypes,
functions: c,
resolver: r,
}
// Load runtime/reflect types, and generate LLVM types for
// the structures we need to populate runtime type information.
pkg, err := c.compiler.parseReflect()
if err != nil {
panic(err) // FIXME return err
}
reflectLLVMType := func(name string) llvm.Type {
obj := pkg.Scope.Lookup(name)
if obj == nil {
panic(fmt.Errorf("Failed to find type: %s", name))
}
return tm.ToLLVM(obj.Type.(types.Type))
}
tm.runtimeType = reflectLLVMType("runtimeType")
tm.runtimeCommonType = reflectLLVMType("commonType")
tm.runtimeUncommonType = reflectLLVMType("uncommonType")
tm.runtimeArrayType = reflectLLVMType("arrayType")
tm.runtimeChanType = reflectLLVMType("chanType")
tm.runtimeFuncType = reflectLLVMType("funcType")
tm.runtimeMethod = reflectLLVMType("method")
tm.runtimeImethod = reflectLLVMType("imethod")
tm.runtimeInterfaceType = reflectLLVMType("interfaceType")
tm.runtimeMapType = reflectLLVMType("mapType")
tm.runtimePtrType = reflectLLVMType("ptrType")
tm.runtimeSliceType = reflectLLVMType("sliceType")
tm.runtimeStructType = reflectLLVMType("structType")
tm.commonType = pkg.Scope.Lookup("commonType").Type.(*types.Name)
// Types for algorithms. See 'runtime/runtime.h'.
uintptrType := tm.target.IntPtrType()
voidPtrType := llvm.PointerType(llvm.Int8Type(), 0)
boolType := llvm.Int1Type()
// Create runtime algorithm function types.
params := []llvm.Type{uintptrType, voidPtrType}
tm.hashAlgFunctionType = llvm.FunctionType(uintptrType, params, false)
params = []llvm.Type{uintptrType, uintptrType, uintptrType}
tm.equalAlgFunctionType = llvm.FunctionType(boolType, params, false)
params = []llvm.Type{uintptrType, voidPtrType}
tm.printAlgFunctionType = llvm.FunctionType(llvm.VoidType(), params, false)
params = []llvm.Type{uintptrType, voidPtrType, voidPtrType}
tm.copyAlgFunctionType = llvm.FunctionType(llvm.VoidType(), params, false)
return tm
}
示例12: convertI2V
// convertI2V converts an interface to a value.
func (v *LLVMValue) convertI2V(typ types.Type) (result, success Value) {
typptrType := llvm.PointerType(llvm.Int8Type(), 0)
runtimeType := v.compiler.types.ToRuntime(typ)
runtimeType = llvm.ConstBitCast(runtimeType, typptrType)
vval := v.LLVMValue()
builder := v.compiler.builder
ifaceType := builder.CreateExtractValue(vval, 0, "")
diff := builder.CreatePtrDiff(runtimeType, ifaceType, "")
zero := llvm.ConstNull(diff.Type())
predicate := builder.CreateICmp(llvm.IntEQ, diff, zero, "")
// If result is zero, then we've got a match.
end := llvm.InsertBasicBlock(builder.GetInsertBlock(), "end")
end.MoveAfter(builder.GetInsertBlock())
nonmatch := llvm.InsertBasicBlock(end, "nonmatch")
match := llvm.InsertBasicBlock(nonmatch, "match")
builder.CreateCondBr(predicate, match, nonmatch)
builder.SetInsertPointAtEnd(match)
matchResultValue := v.loadI2V(typ).LLVMValue()
builder.CreateBr(end)
builder.SetInsertPointAtEnd(nonmatch)
nonmatchResultValue := llvm.ConstNull(matchResultValue.Type())
builder.CreateBr(end)
builder.SetInsertPointAtEnd(end)
successValue := builder.CreatePHI(llvm.Int1Type(), "")
resultValue := builder.CreatePHI(matchResultValue.Type(), "")
successValues := []llvm.Value{llvm.ConstAllOnes(llvm.Int1Type()), llvm.ConstNull(llvm.Int1Type())}
successBlocks := []llvm.BasicBlock{match, nonmatch}
successValue.AddIncoming(successValues, successBlocks)
success = v.compiler.NewLLVMValue(successValue, types.Bool)
resultValues := []llvm.Value{matchResultValue, nonmatchResultValue}
resultBlocks := []llvm.BasicBlock{match, nonmatch}
resultValue.AddIncoming(resultValues, resultBlocks)
result = v.compiler.NewLLVMValue(resultValue, typ)
return result, success
}
示例13: NewTypeMap
func NewTypeMap(llvmtm *LLVMTypeMap, pkgpath string, exprTypes map[ast.Expr]types.Type, c *FunctionCache, p map[*ast.Object]string, r Resolver) *TypeMap {
tm := &TypeMap{
LLVMTypeMap: llvmtm,
pkgpath: pkgpath,
types: make(map[types.Type]llvm.Value),
expr: exprTypes,
pkgmap: p,
functions: c,
resolver: r,
}
// Load "reflect.go", and generate LLVM types for the runtime type
// structures.
pkg, err := parseReflect()
if err != nil {
panic(err) // FIXME return err
}
objToLLVMType := func(name string) llvm.Type {
obj := pkg.Scope.Lookup(name)
return tm.ToLLVM(obj.Type.(types.Type))
}
tm.runtimeType = objToLLVMType("runtimeType")
tm.runtimeCommonType = objToLLVMType("commonType")
tm.runtimeUncommonType = objToLLVMType("uncommonType")
tm.runtimeArrayType = objToLLVMType("arrayType")
tm.runtimeChanType = objToLLVMType("chanType")
tm.runtimeFuncType = objToLLVMType("funcType")
tm.runtimeMethod = objToLLVMType("method")
tm.runtimeImethod = objToLLVMType("imethod")
tm.runtimeInterfaceType = objToLLVMType("interfaceType")
tm.runtimeMapType = objToLLVMType("mapType")
tm.runtimePtrType = objToLLVMType("ptrType")
tm.runtimeSliceType = objToLLVMType("sliceType")
tm.runtimeStructType = objToLLVMType("structType")
// Types for algorithms. See 'runtime/runtime.h'.
uintptrType := tm.target.IntPtrType()
voidPtrType := llvm.PointerType(llvm.Int8Type(), 0)
boolType := llvm.Int1Type()
// Create runtime algorithm function types.
params := []llvm.Type{uintptrType, voidPtrType}
tm.hashAlgFunctionType = llvm.FunctionType(uintptrType, params, false)
params = []llvm.Type{uintptrType, uintptrType, uintptrType}
tm.equalAlgFunctionType = llvm.FunctionType(boolType, params, false)
params = []llvm.Type{uintptrType, voidPtrType}
tm.printAlgFunctionType = llvm.FunctionType(llvm.VoidType(), params, false)
params = []llvm.Type{uintptrType, voidPtrType, voidPtrType}
tm.copyAlgFunctionType = llvm.FunctionType(llvm.VoidType(), params, false)
return tm
}
示例14: funcRuntimeType
func (tm *TypeMap) funcRuntimeType(f *types.Signature) (global, ptr llvm.Value) {
rtype := tm.makeRtype(f, reflect.Func)
funcType := llvm.ConstNull(tm.runtimeFuncType)
funcType = llvm.ConstInsertValue(funcType, rtype, []uint32{0})
// dotdotdot
if f.IsVariadic() {
variadic := llvm.ConstInt(llvm.Int1Type(), 1, false)
funcType = llvm.ConstInsertValue(funcType, variadic, []uint32{1})
}
// TODO in
//funcType = llvm.ConstInsertValue(funcType, tm.ToRuntime(p.Elt()), []uint32{2})
// TODO out
//funcType = llvm.ConstInsertValue(funcType, tm.ToRuntime(p.Elt()), []uint32{3})
return tm.makeRuntimeTypeGlobal(funcType)
}
示例15: mdNode
func (d *SubprogramDescriptor) mdNode(info *DebugInfo) llvm.Value {
return llvm.MDNode([]llvm.Value{
llvm.ConstInt(llvm.Int32Type(), llvm.LLVMDebugVersion+uint64(d.Tag()), false),
FileDescriptor(d.File).path(),
info.MDNode(d.Context),
llvm.MDString(d.Name),
llvm.MDString(d.DisplayName),
llvm.MDString(""), // mips linkage name
llvm.ConstInt(llvm.Int32Type(), uint64(d.Line), false),
info.MDNode(d.Type),
llvm.ConstNull(llvm.Int1Type()), // not static
llvm.ConstAllOnes(llvm.Int1Type()), // locally defined (not extern)
llvm.ConstNull(llvm.Int32Type()), // virtuality
llvm.ConstNull(llvm.Int32Type()), // index into a virtual function
info.MDNode(nil), // basetype containing the vtable pointer
llvm.ConstInt(llvm.Int32Type(), 0, false), // flags
llvm.ConstNull(llvm.Int1Type()), // not optimised
d.Function,
info.MDNode(nil), // Template parameters
info.MDNode(nil), // function declaration descriptor
llvm.MDNode(nil), // function variables
llvm.ConstInt(llvm.Int32Type(), uint64(d.ScopeLine), false), // Line number where the scope of the subprogram begins
})
}