func (f *File) methodSet(set *types.MethodSet) {
// Build the set of things we're looking for.
methods := make([]method, 0, set.Len())
docs := make([]string, set.Len())
for i := 0; i < set.Len(); i++ {
if ast.IsExported(set.At(i).Obj().Name()) {
m := method{
i,
set.At(i),
}
methods = append(methods, m)
}
}
if len(methods) == 0 {
return
}
// Collect the docs.
for _, file := range f.allFiles {
visitor := &methodVisitor{
File: file,
methods: methods,
docs: docs,
}
ast.Walk(visitor, file.file)
methods = visitor.methods
}
// Print them in order. The incoming method set is sorted by name.
for _, doc := range docs {
if doc != "" {
fmt.Print(doc)
}
}
}
// containsAllIdsOf reports whether the method identifiers of T are a
// superset of those in U. If U belongs to an interface type, the
// result is equal to types.Assignable(T, U), but is cheaper to compute.
//
// TODO(gri): make this a method of *types.MethodSet.
//
func containsAllIdsOf(T, U *types.MethodSet) bool {
t, tlen := 0, T.Len()
u, ulen := 0, U.Len()
for t < tlen && u < ulen {
tMeth := T.At(t).Obj()
uMeth := U.At(u).Obj()
tId := tMeth.Id()
uId := uMeth.Id()
if tId > uId {
// U has a method T lacks: fail.
return false
}
if tId < uId {
// T has a method U lacks: ignore it.
t++
continue
}
// U and T both have a method of this Id. Check types.
if !types.Identical(tMeth.Type(), uMeth.Type()) {
return false // type mismatch
}
u++
t++
}
return u == ulen
}
// p != nil iff we're generatig the uncommonType for a pointer type.
func (tm *TypeMap) uncommonType(n *types.Named, p *types.Pointer) llvm.Value {
uncommonTypeInit := llvm.ConstNull(tm.runtime.uncommonType.llvm)
namePtr := tm.globalStringPtr(n.Obj().Name())
uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, namePtr, []uint32{0})
var path string
if pkg := n.Obj().Pkg(); pkg != nil {
path = pkg.Path()
}
pkgpathPtr := tm.globalStringPtr(path)
uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, pkgpathPtr, []uint32{1})
// If we're dealing with an interface, stop now;
// we store interface methods on the interface
// type.
if _, ok := n.Underlying().(*types.Interface); ok {
return uncommonTypeInit
}
var methodset, pmethodset *types.MethodSet
if p != nil {
methodset = tm.MethodSet(p)
} else {
methodset = tm.MethodSet(n)
}
// Store methods. All methods must be stored, not only exported ones;
// this is to allow satisfying of interfaces with non-exported methods.
methods := make([]llvm.Value, methodset.Len())
for i := range methods {
sel := methodset.At(i)
mname := sel.Obj().Name()
mfunc := tm.methodResolver.ResolveMethod(sel)
ftyp := mfunc.Type().(*types.Signature)
method := llvm.ConstNull(tm.runtime.method.llvm)
name := tm.globalStringPtr(mname)
name = llvm.ConstBitCast(name, tm.runtime.method.llvm.StructElementTypes()[0])
// name
method = llvm.ConstInsertValue(method, name, []uint32{0})
// pkgPath
method = llvm.ConstInsertValue(method, pkgpathPtr, []uint32{1})
// mtyp (method type, no receiver)
{
ftyp := types.NewSignature(nil, nil, ftyp.Params(), ftyp.Results(), ftyp.Variadic())
mtyp := tm.ToRuntime(ftyp)
method = llvm.ConstInsertValue(method, mtyp, []uint32{2})
}
// typ (function type, with receiver)
typ := tm.ToRuntime(ftyp)
method = llvm.ConstInsertValue(method, typ, []uint32{3})
// tfn (standard method/function pointer for plain method calls)
tfn := llvm.ConstPtrToInt(mfunc.LLVMValue(), tm.target.IntPtrType())
// ifn (single-word receiver function pointer for interface calls)
ifn := tfn
if p == nil {
if tm.Sizeof(n) > int64(tm.target.PointerSize()) {
if pmethodset == nil {
pmethodset = tm.MethodSet(types.NewPointer(n))
}
pmfunc := tm.methodResolver.ResolveMethod(pmethodset.Lookup(sel.Obj().Pkg(), mname))
ifn = llvm.ConstPtrToInt(pmfunc.LLVMValue(), tm.target.IntPtrType())
} else if _, ok := n.Underlying().(*types.Pointer); !ok {
// Create a wrapper function that takes an *int8,
// and coerces to the receiver type.
ifn = tm.interfaceFuncWrapper(mfunc.LLVMValue())
ifn = llvm.ConstPtrToInt(ifn, tm.target.IntPtrType())
}
}
method = llvm.ConstInsertValue(method, ifn, []uint32{4})
method = llvm.ConstInsertValue(method, tfn, []uint32{5})
methods[i] = method
}
methodsSliceType := tm.runtime.uncommonType.llvm.StructElementTypes()[2]
methodsSlice := tm.makeSlice(methods, methodsSliceType)
uncommonTypeInit = llvm.ConstInsertValue(uncommonTypeInit, methodsSlice, []uint32{2})
return uncommonTypeInit
}
