func (p *common) typ(resolve lpp.ForeignResolver, t *ir.Type) { assert.For(p.sym.Code == lss.Ident, 20, "type identifier expected here but found ", p.sym.Code) id := p.ident() if it := types.TypMap[id]; it != types.UNDEF { t.Basic = true t.Builtin = &ir.BuiltinType{Code: it} } else if ft := resolve(id); ft != nil { //append import resolver t.Basic = false t.Foreign = ft } else { p.mark("undefined type ", id) } p.next() }
func (p *pr) varDecl() { assert.For(p.sym.Code == lss.Var || p.sym.Code == lss.Reg, 20, "VAR block expected") mod := mods.NONE if p.is(lss.Reg) { mod = mods.REG } p.next() for { if p.await(lss.Ident, lss.Delimiter, lss.Separator) { var vl []*ir.Variable for { id := p.ident() v := &ir.Variable{Name: id, Unit: p.target.unit} vl = append(vl, v) p.next() if mod == mods.NONE && p.await(lss.Minus) || p.is(lss.Plus) { v.Modifier = mods.SymMod[p.sym.Code] p.next() } else if mod != mods.NONE && p.is(lss.Minus) || p.is(lss.Plus) { p.mark("registers private only") } else if mod == mods.REG { v.Modifier = mods.REG } if p.await(lss.Comma, lss.Separator) { p.next() p.pass(lss.Separator) } else { break } } if p.await(lss.Ident, lss.Separator) { tb := &ir.Type{} p.typ(p.resolve, tb) for _, v := range vl { v.Type = *tb if !tb.Basic { p.target.foreign(v.Name, v) } if !tb.Basic && v.Modifier != mods.NONE { p.mark("only hidden foreigns allowed") } p.target.obj(v.Name, v) } } else if p.is(lss.Unit) { p.next() tb := ir.Type{} tb.Basic = true tb.Builtin = &ir.BuiltinType{Code: types.UNIT} for _, v := range vl { v.Type = tb p.target.obj(v.Name, v) } } else { p.mark("type or identifier expected") } } else { break } } }