go-json/decode_slice.go

276 lines
6.2 KiB
Go

package json
import (
"reflect"
"sync"
"unsafe"
)
type sliceDecoder struct {
elemType *rtype
valueDecoder decoder
size uintptr
arrayPool sync.Pool
structName string
fieldName string
}
// If use reflect.SliceHeader, data type is uintptr.
// In this case, Go compiler cannot trace reference created by newArray().
// So, define using unsafe.Pointer as data type
type sliceHeader struct {
data unsafe.Pointer
len int
cap int
}
const (
defaultSliceCapacity = 2
)
func newSliceDecoder(dec decoder, elemType *rtype, size uintptr, structName, fieldName string) *sliceDecoder {
return &sliceDecoder{
valueDecoder: dec,
elemType: elemType,
size: size,
arrayPool: sync.Pool{
New: func() interface{} {
return &sliceHeader{
data: newArray(elemType, defaultSliceCapacity),
len: 0,
cap: defaultSliceCapacity,
}
},
},
structName: structName,
fieldName: fieldName,
}
}
func (d *sliceDecoder) newSlice() *sliceHeader {
slice := d.arrayPool.Get().(*sliceHeader)
slice.len = 0
return slice
}
func (d *sliceDecoder) releaseSlice(p *sliceHeader) {
d.arrayPool.Put(p)
}
//go:linkname copySlice reflect.typedslicecopy
func copySlice(elemType *rtype, dst, src sliceHeader) int
//go:linkname newArray reflect.unsafe_NewArray
func newArray(*rtype, int) unsafe.Pointer
func (d *sliceDecoder) errNumber(offset int64) *UnmarshalTypeError {
return &UnmarshalTypeError{
Value: "number",
Type: reflect.SliceOf(rtype2type(d.elemType)),
Struct: d.structName,
Field: d.fieldName,
Offset: offset,
}
}
func (d *sliceDecoder) decodeStream(s *stream, depth int64, p unsafe.Pointer) error {
depth++
if depth > maxDecodeNestingDepth {
return errExceededMaxDepth(s.char(), s.cursor)
}
for {
switch s.char() {
case ' ', '\n', '\t', '\r':
s.cursor++
continue
case 'n':
if err := nullBytes(s); err != nil {
return err
}
*(*unsafe.Pointer)(p) = nil
return nil
case '[':
s.cursor++
s.skipWhiteSpace()
if s.char() == ']' {
*(*sliceHeader)(p) = sliceHeader{
data: newArray(d.elemType, 0),
len: 0,
cap: 0,
}
s.cursor++
return nil
}
idx := 0
slice := d.newSlice()
capacity := slice.cap
data := slice.data
for {
if capacity <= idx {
src := sliceHeader{data: data, len: idx, cap: capacity}
capacity *= 2
data = newArray(d.elemType, capacity)
dst := sliceHeader{data: data, len: idx, cap: capacity}
copySlice(d.elemType, dst, src)
}
ep := unsafe.Pointer(uintptr(data) + uintptr(idx)*d.size)
*(*unsafe.Pointer)(ep) = nil // initialize elem pointer
if err := d.valueDecoder.decodeStream(s, depth, ep); err != nil {
return err
}
s.skipWhiteSpace()
RETRY:
switch s.char() {
case ']':
slice.cap = capacity
slice.len = idx + 1
slice.data = data
dstCap := idx + 1
dst := sliceHeader{
data: newArray(d.elemType, dstCap),
len: idx + 1,
cap: dstCap,
}
copySlice(d.elemType, dst, sliceHeader{
data: slice.data,
len: slice.len,
cap: slice.cap,
})
*(*sliceHeader)(p) = dst
d.releaseSlice(slice)
s.cursor++
return nil
case ',':
idx++
case nul:
if s.read() {
goto RETRY
}
slice.cap = capacity
slice.data = data
d.releaseSlice(slice)
goto ERROR
default:
slice.cap = capacity
slice.data = data
d.releaseSlice(slice)
goto ERROR
}
s.cursor++
}
case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
return d.errNumber(s.totalOffset())
case nul:
if s.read() {
continue
}
goto ERROR
default:
goto ERROR
}
}
ERROR:
return errUnexpectedEndOfJSON("slice", s.totalOffset())
}
func (d *sliceDecoder) decode(buf []byte, cursor, depth int64, p unsafe.Pointer) (int64, error) {
depth++
if depth > maxDecodeNestingDepth {
return 0, errExceededMaxDepth(buf[cursor], cursor)
}
buflen := int64(len(buf))
for ; cursor < buflen; cursor++ {
switch buf[cursor] {
case ' ', '\n', '\t', '\r':
continue
case 'n':
buflen := int64(len(buf))
if cursor+3 >= buflen {
return 0, errUnexpectedEndOfJSON("null", cursor)
}
if buf[cursor+1] != 'u' {
return 0, errInvalidCharacter(buf[cursor+1], "null", cursor)
}
if buf[cursor+2] != 'l' {
return 0, errInvalidCharacter(buf[cursor+2], "null", cursor)
}
if buf[cursor+3] != 'l' {
return 0, errInvalidCharacter(buf[cursor+3], "null", cursor)
}
cursor += 4
*(*unsafe.Pointer)(p) = nil
return cursor, nil
case '[':
cursor++
cursor = skipWhiteSpace(buf, cursor)
if buf[cursor] == ']' {
**(**sliceHeader)(unsafe.Pointer(&p)) = sliceHeader{
data: newArray(d.elemType, 0),
len: 0,
cap: 0,
}
cursor++
return cursor, nil
}
idx := 0
slice := d.newSlice()
capacity := slice.cap
data := slice.data
for {
if capacity <= idx {
src := sliceHeader{data: data, len: idx, cap: capacity}
capacity *= 2
data = newArray(d.elemType, capacity)
dst := sliceHeader{data: data, len: idx, cap: capacity}
copySlice(d.elemType, dst, src)
}
ep := unsafe.Pointer(uintptr(data) + uintptr(idx)*d.size)
*(*unsafe.Pointer)(ep) = nil // initialize elem pointer
c, err := d.valueDecoder.decode(buf, cursor, depth, ep)
if err != nil {
return 0, err
}
cursor = c
cursor = skipWhiteSpace(buf, cursor)
switch buf[cursor] {
case ']':
slice.cap = capacity
slice.len = idx + 1
slice.data = data
dstCap := idx + 1
dst := sliceHeader{
data: newArray(d.elemType, dstCap),
len: idx + 1,
cap: dstCap,
}
copySlice(d.elemType, dst, sliceHeader{
data: slice.data,
len: slice.len,
cap: slice.cap,
})
**(**sliceHeader)(unsafe.Pointer(&p)) = dst
d.releaseSlice(slice)
cursor++
return cursor, nil
case ',':
idx++
default:
slice.cap = capacity
slice.data = data
d.releaseSlice(slice)
return 0, errInvalidCharacter(buf[cursor], "slice", cursor)
}
cursor++
}
case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
return 0, d.errNumber(cursor)
default:
goto ERROR
}
}
ERROR:
return 0, errUnexpectedEndOfJSON("slice", cursor)
}