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signature.go
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signature.go
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package signature
import (
"fmt"
"io"
"reflect"
"github.com/dave/jennifer/jen"
parsec "github.com/prataprc/goparsec"
)
// MetaObjectSignature is the signature of MetaObject. It is used to
// generate the MetaObject struct which is used to generate the
// services. This step is referred as stage 1.
const MetaObjectSignature = "({I(Issss[(ss)<MetaMethodParameter,name,description>]s)<MetaMethod,uid,returnSignature,name,parametersSignature,description,parameters,returnDescription>}{I(Iss)<MetaSignal,uid,name,signature>}{I(Iss)<MetaProperty,uid,name,signature>}s)<MetaObject,methods,signals,properties,description>"
// ObjectSignature is the signature of ObjectReference.
var ObjectSignature = fmt.Sprintf("(%sII)<ObjectReference,metaObject,serviceID,objectID>",
MetaObjectSignature)
// typeSignature is the signature parser.
var typeSignature parsec.Parser
// Statement is a short version for jen.Statement.
type Statement = jen.Statement
func basicType() parsec.Parser {
return parsec.OrdChoice(nodifyBasicType,
parsec.Atom("I", "uint32"),
parsec.Atom("i", "int32"),
parsec.Atom("s", "string"),
parsec.Atom("L", "uint64"),
parsec.Atom("l", "int64"),
parsec.Atom("b", "bool"),
parsec.Atom("f", "float32"),
parsec.Atom("d", "float64"),
parsec.Atom("m", "value"),
parsec.Atom("o", "github.com/lugu/qiloop/type/object.Object"),
parsec.Atom("X", "interface{}"),
parsec.Atom("v", "void"),
parsec.Atom("c", "int8"),
parsec.Atom("C", "uint8"),
parsec.Atom("w", "int16"),
parsec.Atom("W", "uint16"),
)
}
func typeName() parsec.Parser {
return parsec.Ident()
}
func structName() parsec.Parser {
patterns := []string{
// Allow C++ style name (ex: List<double>)
`[A-Za-z][0-9a-zA-Z_]*\<[A-Za-z][0-9a-zA-Z_]*>`,
`[A-Za-z][0-9a-zA-Z_]*`,
}
names := []string{
"structTemplateName",
"structName",
}
return parsec.OrdTokens(patterns, names)
}
// Node is an alias to parsec.ParsecNode
type Node = parsec.ParsecNode
func nodifyBasicType(nodes []Node) Node {
if len(nodes) != 1 {
return fmt.Errorf("wrong basic arguments %+v", nodes)
}
signature := nodes[0].(*parsec.Terminal).GetValue()
switch signature {
case "i":
return NewIntType()
case "I":
return NewUintType()
case "l":
return NewLongType()
case "L":
return NewULongType()
case "s":
return NewStringType()
case "b":
return NewBoolType()
case "f":
return NewFloatType()
case "d":
return NewDoubleType()
case "v":
return NewVoidType()
case "m":
return NewValueType()
case "o":
return NewObjectType()
case "X":
return NewUnknownType()
case "c":
return NewInt8Type()
case "C":
return NewUint8Type()
case "w":
return NewInt16Type()
case "W":
return NewUint16Type()
default:
return fmt.Errorf("wrong signature %s", signature)
}
}
func extractValue(object interface{}) (Type, error) {
nodes, ok := object.([]Node)
if !ok {
return nil, fmt.Errorf("extraction failed: %+v", reflect.TypeOf(object))
}
value, ok := nodes[0].(Type)
if !ok {
return nil, fmt.Errorf("extraction failed bis: %+v", reflect.TypeOf(nodes[0]))
}
return value, nil
}
func nodifyMap(nodes []Node) Node {
if len(nodes) != 4 {
fmt.Printf("wrong map arguments %+v\n", nodes)
}
key, err := extractValue(nodes[1])
if err != nil {
return fmt.Errorf("key conversion failed: %s", err)
}
value, err := extractValue(nodes[2])
if err != nil {
return fmt.Errorf("value conversion failed: %s", err)
}
return NewMapType(key, value)
}
func nodifyArrayType(nodes []Node) Node {
if len(nodes) != 3 {
return fmt.Errorf("wrong arguments %+v", nodes)
}
value, err := extractValue(nodes[1])
if err != nil {
return fmt.Errorf("value conversion failed: %s", err)
}
return NewListType(value)
}
func extractMembersTypes(node Node) ([]Type, error) {
typeList, ok := node.([]Node)
if !ok {
return nil, fmt.Errorf("member type list is not a list: %s", reflect.TypeOf(node))
}
types := make([]Type, len(typeList))
for i := range typeList {
memberType, err := extractValue(typeList[i])
if err != nil {
return nil, fmt.Errorf("member type value conversion failed: %s", err)
}
types[i] = memberType
}
return types, nil
}
func extractMembersName(node Node) ([]string, error) {
membersList, ok := node.([]Node)
if !ok {
return nil, fmt.Errorf("member name list is not a list: %s", reflect.TypeOf(node))
}
names := make([]string, len(membersList))
for i, n := range membersList {
memberName, ok := n.(*parsec.Terminal)
if !ok {
return nil, fmt.Errorf("convert member names %s", reflect.TypeOf(n))
}
names[i] = memberName.GetValue()
}
return names, nil
}
func extractMembers(typesNode, namesNode Node) ([]MemberType, error) {
types, err := extractMembersTypes(typesNode)
if err != nil {
return nil, fmt.Errorf("extract members types: %s", err)
}
names, err := extractMembersName(namesNode)
if err != nil {
return nil, fmt.Errorf("extract members name: %s", err)
}
if len(types) != len(names) {
return nil, fmt.Errorf("member types and names of different size: %+v, %+v", types, names)
}
members := make([]MemberType, len(names))
for i := range types {
members[i] = NewMemberType(names[i], types[i])
}
return members, nil
}
func nodifyTupleType(nodes []Node) Node {
types, err := extractMembersTypes(nodes[1])
if err != nil {
return fmt.Errorf("extract tuple member type: %s", err)
}
return NewTupleType(types)
}
func nodifyTypeMember(nodes []Node) Node {
return nodes[1]
}
func nodifyStrucType(nodes []Node) Node {
terminal, ok := nodes[4].(*parsec.Terminal)
if !ok {
return fmt.Errorf("wrong name %s", reflect.TypeOf(nodes[4]))
}
name := terminal.GetValue()
members, err := extractMembers(nodes[1], nodes[5])
if err != nil {
return fmt.Errorf("extract type definition: %s", err)
}
return NewStructType(name, members)
}
func init() {
var arrayType parsec.Parser
var mapType parsec.Parser
var structType parsec.Parser
var tupleType parsec.Parser
var declarationType = parsec.OrdChoice(nil,
basicType(), &mapType, &arrayType, &structType, &tupleType)
arrayType = parsec.And(nodifyArrayType,
parsec.Atom("[", "MapStart"),
&declarationType,
parsec.Atom("]", "MapClose"))
var listType = parsec.Kleene(nil, &declarationType)
var typeMemberList = parsec.Kleene(
nil, parsec.And(
nodifyTypeMember,
parsec.Atom(",", "TypeComa"),
typeName(),
))
tupleType = parsec.And(nodifyTupleType,
parsec.Atom("(", "TypeParameterStart"),
&listType,
parsec.Atom(")", "TypeParameterClose"))
structType = parsec.And(nodifyStrucType,
parsec.Atom("(", "TypeParameterStart"),
&listType,
parsec.Atom(")", "TypeParameterClose"),
parsec.Atom("<", "TypeDefinitionStart"),
structName(),
&typeMemberList,
parsec.Atom(">", "TypeDefinitionClose"))
mapType = parsec.And(nodifyMap,
parsec.Atom("{", "MapStart"),
&declarationType, &declarationType,
parsec.Atom("}", "MapClose"))
typeSignature = declarationType
}
// Parse reads a signature contained in a string and constructs its
// type representation.
func Parse(input string) (Type, error) {
text := []byte(input)
root, rest := typeSignature(parsec.NewScanner(text))
if root == nil {
return nil, fmt.Errorf("parse signature: %s", input)
}
if !rest.Endof() {
return nil, fmt.Errorf("Signature not completely parsed: %s", text)
}
types, ok := root.([]Node)
if !ok {
err, ok := root.(error)
if !ok {
return nil, fmt.Errorf("convert array: %+v",
reflect.TypeOf(root))
}
return nil, err
}
if len(types) != 1 {
return nil, fmt.Errorf("did not parse only one type: %+v", root)
}
constructor, ok := types[0].(Type)
if !ok {
return nil, fmt.Errorf("convert value: %+v",
reflect.TypeOf(types[0]))
}
return constructor, nil
}
// GenerateType generate the code required to serialize the given
// type.
func GenerateType(v Type, packageName string, w io.Writer) error {
file := jen.NewFile(packageName)
file.PackageComment("file generated. DO NOT EDIT.")
set := NewTypeSet()
v.RegisterTo(set)
set.Declare(file)
if err := file.Render(w); err != nil {
return fmt.Errorf("render %s: %s", v.Signature(), err)
}
return nil
}