2 Commits

Author SHA1 Message Date
amery 8557ef9a7e decoder [WIP]
Signed-off-by: Alejandro Mery <amery@jpi.io>
2023-09-02 01:13:18 +00:00
amery 652f7a7aa0 basic: refactor error handling
Signed-off-by: Alejandro Mery <amery@jpi.io>
2023-09-02 01:09:04 +00:00
4 changed files with 61 additions and 150 deletions
+30 -33
View File
@@ -29,25 +29,27 @@ func (dec *decoder) executeFinal() {
}
}
func (dec *decoder) execute(typ parser.TokenType) {
func (dec *decoder) execute(typ parser.TokenType) error {
switch typ {
case parser.TokenSectionEnd:
name1, ok1 := dec.queueValue(1, parser.TokenSectionName)
name1, ok1 := dec.getValue(1, parser.TokenSectionName)
if ok1 {
name2, ok2 := dec.queueValue(2, parser.TokenSectionSubname)
name2, ok2 := dec.getValue(2, parser.TokenSectionSubname)
dec.addSection(name1, name2, ok2)
}
dec.queueReset()
dec.reset()
case parser.TokenFieldValue:
key, _ := dec.queueValue(0, parser.TokenFieldKey)
value, _ := dec.queueValue(1, parser.TokenFieldValue)
key, _ := dec.getValue(0, parser.TokenFieldKey)
value, _ := dec.getValue(1, parser.TokenFieldValue)
dec.addField(key, value)
dec.queueReset()
dec.reset()
}
return nil
}
func (dec *decoder) addSection(key, id string, allowEmptyID bool) {
@@ -82,8 +84,7 @@ func (dec *decoder) addField(key, value string) {
}
}
// queueValue extracts the value of element on the queue if the type matches.
func (dec *decoder) queueValue(idx int, typ parser.TokenType) (string, bool) {
func (dec *decoder) getValue(idx int, typ parser.TokenType) (string, bool) {
switch {
case idx < 0 || idx >= len(dec.queue):
// out of range
@@ -96,48 +97,40 @@ func (dec *decoder) queueValue(idx int, typ parser.TokenType) (string, bool) {
}
}
// queueReset removes all tokens from the queue
func (dec *decoder) queueReset() {
func (dec *decoder) reset() {
dec.queue = dec.queue[:0]
}
// queueDepth confirms the current depth of the queue
func (dec *decoder) queueDepth(depth int) bool {
func (dec *decoder) depth(depth int) bool {
return len(dec.queue) == depth
}
// queueDepthType confirms the current depth of the queue and the type of the last
// element.
func (dec *decoder) queueDepthType(depth int, typ parser.TokenType) bool {
if dec.queueDepth(depth) {
return dec.queueType(depth-1, typ)
func (dec *decoder) depthAfter(depth int, typ parser.TokenType) bool {
_, ok := dec.getValue(depth-1, typ)
if ok {
return len(dec.queue) == depth
}
return false
}
// queueType tells if the specified element on the queue is of the required type.
func (dec *decoder) queueType(idx int, typ parser.TokenType) bool {
_, ok := dec.queueValue(idx, typ)
return ok
}
func (dec *decoder) typeOK(typ parser.TokenType) bool {
switch typ {
case parser.TokenSectionStart, parser.TokenFieldKey:
// first token only
return dec.queueDepth(0)
return dec.depth(0)
case parser.TokenSectionName:
// right after TokenSectionStart
return dec.queueDepthType(1, parser.TokenSectionStart)
return dec.depthAfter(1, parser.TokenSectionStart)
case parser.TokenSectionSubname:
// right after TokenSectionName
return dec.queueDepthType(2, parser.TokenSectionName)
return dec.depthAfter(2, parser.TokenSectionName)
case parser.TokenSectionEnd:
// only on a section with name
return dec.queueType(1, parser.TokenSectionName)
_, ok := dec.getValue(1, parser.TokenSectionName)
return ok
case parser.TokenFieldValue:
// right after a TokenFieldKey
return dec.queueDepthType(1, parser.TokenFieldKey)
return dec.depthAfter(1, parser.TokenFieldKey)
default:
// never
return false
@@ -145,21 +138,25 @@ func (dec *decoder) typeOK(typ parser.TokenType) bool {
}
func (dec *decoder) OnToken(pos lexer.Position, typ parser.TokenType, value string) error {
var err error
t := &token{pos, typ, value}
switch {
case typ == parser.TokenComment:
// ignore comments
return nil
case dec.typeOK(typ):
// acceptable token
dec.queue = append(dec.queue, t)
dec.execute(typ)
return nil
err = dec.execute(typ)
default:
// unacceptable
err := newErrInvalidToken(t)
err = newErrInvalidToken(t)
}
if err != nil {
dec.executeFinal()
return err
}
return nil
}
+15 -14
View File
@@ -11,16 +11,16 @@ import (
)
// Decoder ...
type Decoder struct {
type Decoder[T any] struct {
io.Closer
out *reflection.Reflection
out *reflection.Reflection[T]
p *parser.Parser
queue []*token
}
// Decode ...
func (dec *Decoder) Decode(v any) error {
func (dec *Decoder[T]) Decode(v *T) error {
defer dec.Close()
r, err := reflection.New(v)
@@ -40,32 +40,33 @@ func (dec *Decoder) Decode(v any) error {
// NewDecoder creates a Decoder using the provided [io.Reader]
// as source
func NewDecoder(r io.Reader) *Decoder {
func NewDecoder[T any](r io.Reader) *Decoder[T] {
rc := core.NewReadCloser(r)
switch {
case rc == nil:
return nil
default:
dec := &Decoder{
dec := &Decoder[T]{
p: parser.NewParser(rc),
Closer: rc,
}
// callbacks
dec.p.OnToken = dec.parserOnToken
dec.p.OnError = dec.parserOnError
dec.init()
return dec
}
}
func (dec *Decoder[T]) init() {
dec.p.OnToken = dec.parserOnToken
dec.p.OnError = dec.parserOnError
}
// NewDecoderBytes creates a Decoder using the provided bytes array
// as source
func NewDecoderBytes(b []byte) *Decoder {
return NewDecoder(bytes.NewReader(b))
func NewDecoderBytes[T any](b []byte) *Decoder[T] {
return NewDecoder[T](bytes.NewReader(b))
}
// NewDecoderString creates a Decoder over a provided string of data
func NewDecoderString(s string) *Decoder {
return NewDecoder(strings.NewReader(s))
func NewDecoderString[T any](s string) *Decoder[T] {
return NewDecoder[T](strings.NewReader(s))
}
+3 -2
View File
@@ -20,13 +20,14 @@ func newError(pos lexer.Position, content, hint string, err error) *lexer.Error
Err: err,
}
}
func (*Decoder) newErrInvalidToken(t *token) *lexer.Error {
func (*Decoder[T]) newErrInvalidToken(t *token) *lexer.Error {
return newError(t.pos, t.value, "", errInvalidToken)
}
// parserOnError is the callback for lexer errors
func (*Decoder) parserOnError(pos lexer.Position, content string, err error) error {
func (dec *Decoder[T]) parserOnError(pos lexer.Position, content string, err error) error {
log.Printf("%s: %s %s: %q: %v", "ini", pos, "error:", content, err)
dec.executeFinal()
return newError(pos, content, "", err)
}
+13 -101
View File
@@ -18,115 +18,22 @@ func (t token) String() string {
return fmt.Sprintf("%s %s: %q", t.pos, t.typ, t.value)
}
// queueValue extracts the value of element on the queue if the type matches.
func (dec *Decoder) queueValue(idx int, typ parser.TokenType) (string, bool) {
switch {
case idx < 0 || idx >= len(dec.queue):
// out of range
return "", false
case dec.queue[idx].typ != typ:
// wrong type
return "", false
default:
// match
return dec.queue[idx].value, true
}
}
// queueReset removes all tokens from the queue
func (dec *Decoder) queueReset() {
dec.queue = dec.queue[:0]
}
// queueType tells if the specified element on the queue is of the required type.
func (dec *Decoder) queueType(idx int, typ parser.TokenType) bool {
_, ok := dec.queueValue(idx, typ)
return ok
}
// queueDepth confirms the current depth of the queue
func (dec *Decoder) queueDepth(depth int) bool {
return len(dec.queue) == depth
}
// queueDepthType confirms the current depth of the queue and the type of the last
// element.
func (dec *Decoder) queueDepthType(depth int, typ parser.TokenType) bool {
if dec.queueDepth(depth) {
return dec.queueType(depth-1, typ)
}
return false
}
// typeOK tells if a token of the specified type is acceptable
// at this time.
func (dec *Decoder) typeOK(typ parser.TokenType) bool {
switch typ {
case parser.TokenSectionStart:
return dec.queueDepth(0)
case parser.TokenSectionName:
return dec.queueDepthType(1, parser.TokenSectionStart)
case parser.TokenSectionSubname:
return dec.queueDepthType(2, parser.TokenSectionName)
case parser.TokenSectionEnd:
return dec.queueType(1, parser.TokenSectionName)
case parser.TokenFieldKey:
return dec.queueDepth(0)
case parser.TokenFieldValue:
return dec.queueDepthType(1, parser.TokenFieldKey)
case parser.TokenComment:
panic("unreachable")
default:
return false
}
}
func (dec *Decoder[T]) typeOK(typ parser.TokenType) bool
// execute is called after each acceptable token is appended to the queue
func (dec *Decoder) execute() error {
if l := len(dec.queue); l > 0 {
// based on the type of the last element
switch dec.queue[l-1].typ {
case parser.TokenSectionEnd:
name1, _ := dec.queueValue(1, parser.TokenSectionName)
name2, ok2 := dec.queueValue(2, parser.TokenSectionSubname)
defer dec.queueReset()
func (dec *Decoder[T]) execute() error
return dec.executeSection(name1, name2, ok2)
case parser.TokenFieldValue:
key, _ := dec.queueValue(0, parser.TokenFieldKey)
value, _ := dec.queueValue(1, parser.TokenFieldValue)
defer dec.queueReset()
return dec.executeField(key, value)
}
}
return nil
}
// revive:disable:flag-parameter
func (*Decoder) executeSection(key, id string, hasID bool) error {
// revive:enable:flag-parameter
if hasID {
log.Printf("%s: %s%s[%q]: %q", "ini", "", "section", key, id)
} else {
log.Printf("%s: %s%s[%q]", "ini", "", "section", key)
}
return nil
}
func (*Decoder) executeField(key, value string) error {
log.Printf("%s: %s%s[%q]: %q", "ini", " ", "field", key, value)
return nil
}
// executeFinal is called after an error
func (dec *Decoder[T]) executeFinal()
// parserOnToken is the callback from the parser
func (dec *Decoder) parserOnToken(pos lexer.Position, typ parser.TokenType, value string) error {
func (dec *Decoder[T]) parserOnToken(pos lexer.Position, typ parser.TokenType, value string) error {
var err error
log.Printf("%s: %s %s %q", "ini", pos, typ, value)
t := &token{pos, typ, value}
switch {
case typ == parser.TokenComment:
@@ -140,5 +47,10 @@ func (dec *Decoder) parserOnToken(pos lexer.Position, typ parser.TokenType, valu
err = dec.newErrInvalidToken(t)
}
return err
if err != nil {
dec.executeFinal()
return err
}
return nil
}