package analyzer import "fmt" import "git.tebibyte.media/arf/arf/types" import "git.tebibyte.media/arf/arf/parser" import "git.tebibyte.media/arf/arf/infoerr" // TypeSection represents a type definition section. type TypeSection struct { sectionBase what Type argument Argument members []ObjectMember } // ObjectMember is a member of an object type. type ObjectMember struct { locatable name string bitWidth uint64 permission types.Permission what Type argument Argument } // ToString returns all data stored within the member, in string form. func (member ObjectMember) ToString (indent int) (output string) { output += doIndent ( indent, "member ", member.permission.ToString(), " ", member.name) if member.bitWidth > 0 { output += fmt.Sprint(" width ", member.bitWidth) } output += "\n" output += member.what.ToString(indent + 1) if member.argument != nil { output += member.argument.ToString(indent + 1) } return } // ToString returns all data stored within the type section, in string form. func (section TypeSection) ToString (indent int) (output string) { output += doIndent(indent, "typeSection ") output += section.permission.ToString() + " " output += section.where.ToString() output += "\n" output += section.what.ToString(indent + 1) if section.argument != nil { output += section.argument.ToString(indent + 1) } for _, member := range section.members { output += member.ToString(indent + 1) } return } // Member returns the membrs ksdn ,mn ,mxc lkzxjclkjxzc l,mnzc .,zxmn.,zxmc // IT RECURSES! func (section TypeSection) Member ( name string, ) ( member ObjectMember, exists bool, ) { switch section.what.kind { case TypeKindBasic: for _, currentMember := range section.members { if currentMember.name == name { member = currentMember exists = true break } } if !exists { if section.what.actual == nil { return } actual, isTypeSection := section.what.actual.(*TypeSection) if !isTypeSection { return } member, exists = actual.Member(name) } case TypeKindPointer: points := section.what.points if points == nil { return } actual, isTypeSection := points.actual.(*TypeSection) if !isTypeSection { return } member, exists = actual.Member(name) } return } // analyzeTypeSection analyzes a type section. func (analyzer analysisOperation) analyzeTypeSection () ( section Section, err error, ) { outputSection := TypeSection { } outputSection.where = analyzer.currentPosition section = &outputSection analyzer.addSection(section) inputSection := analyzer.currentSection.(parser.TypeSection) outputSection.location = analyzer.currentSection.Location() if inputSection.Permission() == types.PermissionReadWrite { err = inputSection.NewError ( "read-write (rw) permission not understood in this " + "context, try read-only (ro)", infoerr.ErrorKindError) return } outputSection.permission = inputSection.Permission() // get inherited type outputSection.what, err = analyzer.analyzeType(inputSection.Type()) if err != nil { return } // type sections are only allowed to inherit other type sections _, inheritsFromTypeSection := outputSection.what.actual.(*TypeSection) if !inheritsFromTypeSection { err = inputSection.Type().NewError ( "type sections can only inherit from other type " + "sections", infoerr.ErrorKindError) return } if !inputSection.Argument().Nil() { outputSection.argument, err = analyzer.analyzeArgument(inputSection.Argument()) if err != nil { return } // type check default value err = analyzer.typeCheck ( outputSection.argument, outputSection.what) if err != nil { return } } // analyze members isObj := outputSection.what.underlyingPrimitive() == &PrimitiveObj if isObj { err = analyzer.analyzeObjectMembers ( &outputSection, inputSection) if err != nil { return } } else if inputSection.MembersLength() > 0 { // if there are members, and the inherited type does not have // Obj as a primitive, throw an error. err = inputSection.Member(0).NewError ( "members can only be defined on types descending " + "from Obj", infoerr.ErrorKindError) if err != nil { return } } outputSection.complete = true return } // analyzeObjectMembers analyzes object members from a parser type section into // a semantic type section. func (analyzer *analysisOperation) analyzeObjectMembers ( into *TypeSection, from parser.TypeSection, ) ( err error, ) { inheritedSection := into.what.actual.(*TypeSection) inheritsFromSameModule := analyzer.inCurrentModule(inheritedSection) for index := 0; index < from.MembersLength(); index ++ { inputMember := from.Member(index) outputMember := ObjectMember { } outputMember.location = inputMember.Location() outputMember.name = inputMember.Name() outputMember.permission = inputMember.Permission() outputMember.bitWidth = inputMember.BitWidth() inheritedMember, exists := inheritedSection.Member(inputMember.Name()) if exists { // modifying default value/permissions of an // inherited member canAccessMember := inheritsFromSameModule || inheritedMember.permission != types.PermissionPrivate if !canAccessMember { err = inputMember.NewError ( "inherited member is private (pv) in " + "parent type, and cannot be modified " + "here", infoerr.ErrorKindError) return } outputMember.what = inheritedMember.what if !inputMember.Type().Nil() { err = inputMember.NewError ( "cannot override type of " + "inherited member", infoerr.ErrorKindError) return } if outputMember.permission > inheritedMember.permission { err = inputMember.NewError ( "cannot relax permission of " + "inherited member", infoerr.ErrorKindError) return } canOverwriteMember := inheritsFromSameModule || inheritedMember.permission == types.PermissionReadWrite // apply default value if inputMember.Argument().Nil() { // if it is unspecified, inherit it outputMember.argument = inheritedMember.argument } else { if !canOverwriteMember { err = inputMember.Argument().NewError ( "member is read-only (ro) in " + "parent type, its default " + "value cannot be overridden", infoerr.ErrorKindError) return } outputMember.argument, err = analyzer.analyzeArgument(inputMember.Argument()) if err != nil { return } // type check default value err = analyzer.typeCheck ( outputMember.argument, outputMember.what) if err != nil { return } } } else { // defining a new member if inputMember.Type().Nil() { err = inputMember.NewError ( "new members must be given a " + "type", infoerr.ErrorKindError) return } outputMember.what, err = analyzer.analyzeType ( inputMember.Type()) if err != nil { return } // apply default value if !inputMember.Argument().Nil() { outputMember.argument, err = analyzer.analyzeArgument(inputMember.Argument()) if err != nil { return } // type check default value err = analyzer.typeCheck ( outputMember.argument, outputMember.what) if err != nil { return } } } into.members = append ( into.members, outputMember) } return }