func findPackageSym(
b *builder, sub *lex8.Token, pkg *types.Pkg,
) *sym8.Symbol {
sym := pkg.Syms.Query(sub.Lit)
if sym == nil {
b.Errorf(sub.Pos, "%s has no symbol named %s",
pkg, sub.Lit,
)
return nil
}
name := sym.Name()
if !sym8.IsPublic(name) && sym.Pkg() != b.path {
b.Errorf(sub.Pos, "symbol %s is not public", name)
return nil
}
return sym
}
func linkSymbol(b *builder, s *funcStmt, f *link8.Func) {
t := s.symTok
if b.curPkg == nil {
b.Errorf(t.Pos, "no context for resolving %q", t.Lit)
return // this may happen for bare function
}
typ, pkg, name := resolveSymbol(b, s)
if typ == SymNone {
return
}
if s.fill == fillLink && typ != SymFunc {
b.Errorf(t.Pos, "%s %q is not a function", SymStr(typ), t.Lit)
return
} else if pkg != b.curPkg.Path() && !sym8.IsPublic(s.sym) {
// for imported package, check if it is public
b.Errorf(t.Pos, "%q is not public", t.Lit)
return
}
// save the link
f.AddLink(s.fill, &link8.PkgSym{pkg, name})
}
func buildMember(b *builder, m *ast.MemberExpr) tast.Expr {
obj := b.buildExpr(m.Expr)
if obj == nil {
return nil
}
ref := obj.R()
if !ref.IsSingle() {
b.Errorf(m.Dot.Pos, "%s does not have any member", ref)
return nil
}
t := ref.T
if pkg, ok := t.(*types.Pkg); ok {
r, sym := buildPkgSym(b, m, pkg)
if r == nil {
return nil
}
// TODO: this can be further optimized
return &tast.MemberExpr{obj, m.Sub, r, sym}
}
pt := types.PointerOf(t)
var tstruct *types.Struct
var ok bool
if pt != nil {
if tstruct, ok = pt.(*types.Struct); !ok {
b.Errorf(m.Dot.Pos, "*%s is not a pointer of struct", t)
return nil
}
} else {
if tstruct, ok = t.(*types.Struct); !ok {
b.Errorf(m.Dot.Pos, "%s is not a struct", t)
return nil
}
}
symTable := tstruct.Syms
name := m.Sub.Lit
sym := symTable.Query(name)
if sym == nil {
b.Errorf(m.Sub.Pos, "struct %s has no member named %s",
tstruct, name,
)
return nil
} else if !sym8.IsPublic(name) && sym.Pkg() != b.path {
b.Errorf(m.Sub.Pos, "symbol %s is not public", name)
return nil
}
b.refSym(sym, m.Sub.Pos)
if sym.Type == tast.SymField {
t := sym.ObjType.(types.T)
r := tast.NewAddressableRef(t)
return &tast.MemberExpr{obj, m.Sub, r, sym}
} else if sym.Type == tast.SymFunc {
ft := sym.ObjType.(*types.Func)
r := tast.NewRef(ft.MethodFunc)
r.Recv = ref
return &tast.MemberExpr{obj, m.Sub, r, sym}
}
b.Errorf(m.Sub.Pos, "invalid sym type: %s", tast.SymStr(sym.Type))
return nil
}
func buildType(b *builder, expr ast.Expr) types.T {
if expr == nil {
panic("bug")
}
switch expr := expr.(type) {
case *ast.Operand:
ret := buildOperand(b, expr)
if ret == nil {
return nil
}
ref := ret.R()
t, ok := ref.T.(*types.Type)
if !ok {
b.Errorf(ast.ExprPos(expr), "expect a type, got %s", ref.T)
return nil
}
return t.T
case *ast.StarExpr:
t := buildType(b, expr.Expr)
if t == nil {
return nil
}
return &types.Pointer{t}
case *ast.ArrayTypeExpr:
return buildArrayType(b, expr)
case *ast.ParenExpr:
return buildType(b, expr.Expr)
case *ast.FuncTypeExpr:
return buildFuncType(b, nil, expr.FuncSig)
case *ast.MemberExpr:
op, ok := expr.Expr.(*ast.Operand)
if !ok {
b.Errorf(ast.ExprPos(expr.Expr), "expect a package")
return nil
}
pkg := buildPkgRef(b, op.Token)
if pkg == nil {
return nil
}
name := expr.Sub.Lit
s := pkg.Syms.Query(name)
if s == nil {
b.Errorf(expr.Sub.Pos, "symbol %s not found", name)
return nil
}
if !sym8.IsPublic(name) && s.Pkg() != b.path {
b.Errorf(expr.Sub.Pos, "symbol %s is not public", name)
return nil
}
if s.Type != tast.SymStruct {
b.Errorf(expr.Sub.Pos, "symbol %s is a %s, not a struct",
name, tast.SymStr(s.Type),
)
return nil
}
return s.ObjType.(*types.Type).T
}
b.Errorf(ast.ExprPos(expr), "expect a type")
return nil
}
