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parsed_json.go
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parsed_json.go
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/*
* MinIO Cloud Storage, (C) 2020 MinIO, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package simdjson
import (
"errors"
"fmt"
"math"
"strconv"
)
const JSONVALUEMASK = 0xff_ffff_ffff_ffff
const JSONTAGOFFSET = 56
const JSONTAGMASK = 0xff << JSONTAGOFFSET
const STRINGBUFBIT = 0x80_0000_0000_0000
const STRINGBUFMASK = 0x7fffffffffffff
const maxdepth = 128
// FloatFlags are flags recorded when converting floats.
type FloatFlags uint64
// FloatFlag is a flag recorded when parsing floats.
type FloatFlag uint64
const (
// FloatOverflowedInteger is set when number in JSON was in integer notation,
// but under/overflowed both int64 and uint64 and therefore was parsed as float.
FloatOverflowedInteger FloatFlag = 1 << iota
)
// Contains returns whether f contains the specified flag.
func (f FloatFlags) Contains(flag FloatFlag) bool {
return FloatFlag(f)&flag == flag
}
// Flags converts the flag to FloatFlags and optionally merges more flags.
func (f FloatFlag) Flags(more ...FloatFlag) FloatFlags {
// We operate on a copy, so we can modify f.
for _, v := range more {
f |= v
}
return FloatFlags(f)
}
type TStrings struct {
B []byte
}
type ParsedJson struct {
Message []byte
Tape []uint64
Strings *TStrings
// allows to reuse the internal structures without exposing it.
internal *internalParsedJson
}
const indexSlots = 16
const indexSize = 1536 // Seems to be a good size for the index buffering
const indexSizeWithSafetyBuffer = indexSize - 128 // Make sure we never write beyond buffer
type indexChan struct {
index int
length int
indexes *[indexSize]uint32
}
type internalParsedJson struct {
ParsedJson
containingScopeOffset []uint64
isvalid bool
indexChans chan indexChan
indexesChan indexChan
buffers [indexSlots][indexSize]uint32
buffersOffset uint64
ndjson uint64
copyStrings bool
}
// Iter returns a new Iter.
func (pj *ParsedJson) Iter() Iter {
return Iter{tape: *pj}
}
// stringAt returns a string at a specific offset in the stringbuffer.
func (pj *ParsedJson) stringAt(offset, length uint64) (string, error) {
b, err := pj.stringByteAt(offset, length)
return string(b), err
}
// stringByteAt returns a string at a specific offset in the stringbuffer.
func (pj *ParsedJson) stringByteAt(offset, length uint64) ([]byte, error) {
if offset&STRINGBUFBIT == 0 {
if offset+length > uint64(len(pj.Message)) {
return nil, fmt.Errorf("string message offset (%v) outside valid area (%v)", offset+length, len(pj.Message))
}
return pj.Message[offset : offset+length], nil
}
offset = offset & STRINGBUFMASK
if offset+length > uint64(len(pj.Strings.B)) {
return nil, fmt.Errorf("string buffer offset (%v) outside valid area (%v)", offset+length, len(pj.Strings.B))
}
return pj.Strings.B[offset : offset+length], nil
}
// ForEach returns each line in NDJSON, or the top element in non-ndjson.
// This will usually be an object or an array.
// If the callback returns a non-nil error parsing stops and the errors is returned.
func (pj *ParsedJson) ForEach(fn func(i Iter) error) error {
i := Iter{tape: *pj}
var elem Iter
for {
t, err := i.AdvanceIter(&elem)
if err != nil || t != TypeRoot {
return err
}
elem.AdvanceInto()
if err = fn(elem); err != nil {
return err
}
}
}
// Clone returns a deep clone of the ParsedJson.
// If a nil destination is sent a new will be created.
func (pj *ParsedJson) Clone(dst *ParsedJson) *ParsedJson {
if dst == nil {
dst = &ParsedJson{
Message: make([]byte, len(pj.Message)),
Tape: make([]uint64, len(pj.Tape)),
Strings: &TStrings{make([]byte, len(pj.Strings.B))},
internal: nil,
}
} else {
if cap(dst.Message) < len(pj.Message) {
dst.Message = make([]byte, len(pj.Message))
}
if cap(dst.Tape) < len(pj.Tape) {
dst.Tape = make([]uint64, len(pj.Tape))
}
if dst.Strings == nil {
dst.Strings = &TStrings{make([]byte, len(pj.Strings.B))}
} else if cap(dst.Strings.B) < len(pj.Strings.B) {
dst.Strings.B = make([]byte, len(pj.Strings.B))
}
}
dst.internal = nil
dst.Tape = dst.Tape[:len(pj.Tape)]
copy(dst.Tape, pj.Tape)
dst.Message = dst.Message[:len(pj.Message)]
copy(dst.Message, pj.Message)
dst.Strings.B = dst.Strings.B[:len(pj.Strings.B)]
copy(dst.Strings.B, pj.Strings.B)
return dst
}
// Iter represents a section of JSON.
// To start iterating it, use Advance() or AdvanceIter() methods
// which will queue the first element.
// If an Iter is copied, the copy will be independent.
type Iter struct {
// The tape where this iter start.
tape ParsedJson
// offset of the next entry to be decoded
off int
// addNext is the number of entries to skip for the next entry.
addNext int
// current value, exclude tag in top bits
cur uint64
// current tag
t Tag
}
// Advance will read the type of the next element
// and queues up the value on the same level.
func (i *Iter) Advance() Type {
i.off += i.addNext
for {
if i.off >= len(i.tape.Tape) {
i.addNext = 0
i.t = TagEnd
return TypeNone
}
v := i.tape.Tape[i.off]
i.t = Tag(v >> 56)
i.off++
i.cur = v & JSONVALUEMASK
if i.t == TagNop {
i.off += int(i.cur)
continue
}
break
}
i.calcNext(false)
if i.addNext < 0 {
// We can't send error, so move to end.
i.moveToEnd()
return TypeNone
}
return TagToType[i.t]
}
// AdvanceInto will read the tag of the next element
// and move into and out of arrays , objects and root elements.
// This should only be used for strictly manual parsing.
func (i *Iter) AdvanceInto() Tag {
i.off += i.addNext
for {
if i.off >= len(i.tape.Tape) {
i.addNext = 0
i.t = TagEnd
return TagEnd
}
v := i.tape.Tape[i.off]
i.t = Tag(v >> 56)
i.cur = v & JSONVALUEMASK
if i.t == TagNop {
if i.cur <= 0 {
i.moveToEnd()
return TagEnd
}
i.off += int(i.cur)
continue
}
i.off++
break
}
i.calcNext(true)
if i.addNext < 0 {
// We can't send error, so end tape.
i.moveToEnd()
return TagEnd
}
return i.t
}
func (i *Iter) moveToEnd() {
i.off = len(i.tape.Tape)
i.addNext = 0
i.t = TagEnd
}
// calcNext will populate addNext to the correct value to skip.
// Specify whether to move into objects/array.
func (i *Iter) calcNext(into bool) {
i.addNext = 0
switch i.t {
case TagInteger, TagUint, TagFloat, TagString:
i.addNext = 1
case TagRoot, TagObjectStart, TagArrayStart:
if !into {
i.addNext = int(i.cur) - i.off
}
}
}
// Type returns the queued value type from the previous call to Advance.
func (i *Iter) Type() Type {
if i.off+i.addNext > len(i.tape.Tape) {
return TypeNone
}
return TagToType[i.t]
}
// AdvanceIter will read the type of the next element
// and return an iterator only containing the object.
// If dst and i are the same, both will contain the value inside.
func (i *Iter) AdvanceIter(dst *Iter) (Type, error) {
i.off += i.addNext
// Get current value off tape.
for {
if i.off == len(i.tape.Tape) {
i.addNext = 0
i.t = TagEnd
return TypeNone, nil
}
if i.off > len(i.tape.Tape) {
return TypeNone, errors.New("offset bigger than tape")
}
v := i.tape.Tape[i.off]
i.cur = v & JSONVALUEMASK
i.t = Tag(v >> 56)
i.off++
if i.t == TagNop {
if i.cur <= 0 {
return TypeNone, errors.New("invalid nop skip")
}
i.off += int(i.cur)
continue
}
break
}
i.calcNext(false)
if i.addNext < 0 {
i.moveToEnd()
return TypeNone, errors.New("element has negative offset")
}
// Calculate end of this object.
iEnd := i.off + i.addNext
typ := TagToType[i.t]
// Copy i if different
if i != dst {
*dst = *i
}
// Move into dst
dst.calcNext(true)
if dst.addNext < 0 {
i.moveToEnd()
return TypeNone, errors.New("element has negative offset")
}
if iEnd > len(dst.tape.Tape) {
return TypeNone, errors.New("element extends beyond tape")
}
// Restrict destination.
dst.tape.Tape = dst.tape.Tape[:iEnd]
return typ, nil
}
// PeekNext will return the next value type.
// Returns TypeNone if next ends iterator.
func (i *Iter) PeekNext() Type {
off := i.off + i.addNext
for {
if off >= len(i.tape.Tape) {
return TypeNone
}
v := i.tape.Tape[off]
t := Tag(v >> 56)
if t == TagNop {
skip := int(v & JSONVALUEMASK)
if skip <= 0 {
return TypeNone
}
off += skip
continue
}
return TagToType[t]
}
}
// PeekNextTag will return the tag at the current offset.
// Will return TagEnd if at end of iterator.
func (i *Iter) PeekNextTag() Tag {
off := i.off + i.addNext
for {
if off >= len(i.tape.Tape) {
return TagEnd
}
v := i.tape.Tape[off]
t := Tag(v >> 56)
if t == TagNop {
skip := int(v & JSONVALUEMASK)
if skip <= 0 {
return TagEnd
}
off += skip
continue
}
return t
}
}
// MarshalJSON will marshal the entire remaining scope of the iterator.
func (i *Iter) MarshalJSON() ([]byte, error) {
return i.MarshalJSONBuffer(nil)
}
// MarshalJSONBuffer will marshal the remaining scope of the iterator including the current value.
// An optional buffer can be provided for fewer allocations.
// Output will be appended to the destination.
func (i *Iter) MarshalJSONBuffer(dst []byte) ([]byte, error) {
var tmpBuf []byte
// Pre-allocate for 100 deep.
var stackTmp [100]uint8
// We have a stackNone on top of the stack
stack := stackTmp[:1]
const (
stackNone = iota
stackArray
stackObject
stackRoot
)
writeloop:
for {
// Write key names.
if stack[len(stack)-1] == stackObject && i.t != TagObjectEnd {
sb, err := i.StringBytes()
if err != nil {
return nil, fmt.Errorf("expected key within object: %w", err)
}
dst = append(dst, '"')
dst = escapeBytes(dst, sb)
dst = append(dst, '"', ':')
if i.PeekNextTag() == TagEnd {
return nil, fmt.Errorf("unexpected end of tape within object")
}
i.AdvanceInto()
}
//fmt.Println(i.t, len(stack)-1, i.off)
tagswitch:
switch i.t {
case TagRoot:
isOpenRoot := int(i.cur) > i.off
if len(stack) > 1 {
if isOpenRoot {
return dst, errors.New("root tag open, but not at top of stack")
}
l := stack[len(stack)-1]
switch l {
case stackRoot:
if i.PeekNextTag() != TagEnd {
dst = append(dst, '\n')
}
stack = stack[:len(stack)-1]
break tagswitch
case stackNone:
break writeloop
default:
return dst, errors.New("root tag, but not at top of stack, got id " + strconv.Itoa(int(l)))
}
}
if isOpenRoot {
// Always move into root.
i.addNext = 0
}
i.AdvanceInto()
stack = append(stack, stackRoot)
continue
case TagString:
sb, err := i.StringBytes()
if err != nil {
return nil, err
}
dst = append(dst, '"')
dst = escapeBytes(dst, sb)
dst = append(dst, '"')
tmpBuf = tmpBuf[:0]
case TagInteger:
v, err := i.Int()
if err != nil {
return nil, err
}
dst = strconv.AppendInt(dst, v, 10)
case TagUint:
v, err := i.Uint()
if err != nil {
return nil, err
}
dst = strconv.AppendUint(dst, v, 10)
case TagFloat:
v, err := i.Float()
if err != nil {
return nil, err
}
dst, err = appendFloat(dst, v)
if err != nil {
return nil, err
}
case TagNull:
dst = append(dst, []byte("null")...)
case TagBoolTrue:
dst = append(dst, []byte("true")...)
case TagBoolFalse:
dst = append(dst, []byte("false")...)
case TagObjectStart:
dst = append(dst, '{')
stack = append(stack, stackObject)
// We should not emit commas.
i.AdvanceInto()
continue
case TagObjectEnd:
dst = append(dst, '}')
if stack[len(stack)-1] != stackObject {
return dst, errors.New("end of object with no object on stack")
}
stack = stack[:len(stack)-1]
case TagArrayStart:
dst = append(dst, '[')
stack = append(stack, stackArray)
i.AdvanceInto()
continue
case TagArrayEnd:
dst = append(dst, ']')
if stack[len(stack)-1] != stackArray {
return nil, errors.New("end of array with no array on stack")
}
stack = stack[:len(stack)-1]
case TagEnd:
if i.PeekNextTag() == TagEnd {
return nil, errors.New("no content queued in iterator")
}
i.AdvanceInto()
continue
}
if i.PeekNextTag() == TagEnd {
break
}
i.AdvanceInto()
// Output object separators, etc.
switch stack[len(stack)-1] {
case stackArray:
switch i.t {
case TagArrayEnd:
default:
dst = append(dst, ',')
}
case stackObject:
switch i.t {
case TagObjectEnd:
default:
dst = append(dst, ',')
}
}
}
if len(stack) > 1 {
// Copy so "stack" doesn't escape.
sCopy := append(make([]uint8, 0, len(stack)-1), stack[1:]...)
return nil, fmt.Errorf("objects or arrays not closed. left on stack: %v", sCopy)
}
return dst, nil
}
// Float returns the float value of the next element.
// Integers are automatically converted to float.
func (i *Iter) Float() (float64, error) {
switch i.t {
case TagFloat:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected float, but no more values on tape")
}
v := math.Float64frombits(i.tape.Tape[i.off])
return v, nil
case TagInteger:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected integer, but no more values on tape")
}
v := int64(i.tape.Tape[i.off])
return float64(v), nil
case TagUint:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected integer, but no more values on tape")
}
v := i.tape.Tape[i.off]
return float64(v), nil
default:
return 0, fmt.Errorf("unable to convert type %v to float", i.t)
}
}
// FloatFlags returns the float value of the next element.
// This will include flags from parsing.
// Integers are automatically converted to float.
func (i *Iter) FloatFlags() (float64, FloatFlags, error) {
switch i.t {
case TagFloat:
if i.off >= len(i.tape.Tape) {
return 0, 0, errors.New("corrupt input: expected float, but no more values on tape")
}
v := math.Float64frombits(i.tape.Tape[i.off])
return v, FloatFlags(i.cur), nil
case TagInteger:
if i.off >= len(i.tape.Tape) {
return 0, 0, errors.New("corrupt input: expected integer, but no more values on tape")
}
v := int64(i.tape.Tape[i.off])
return float64(v), 0, nil
case TagUint:
if i.off >= len(i.tape.Tape) {
return 0, 0, errors.New("corrupt input: expected integer, but no more values on tape")
}
v := i.tape.Tape[i.off]
return float64(v), 0, nil
default:
return 0, 0, fmt.Errorf("unable to convert type %v to float", i.t)
}
}
// SetFloat can change a float, int, uint or string with the specified value.
// Attempting to change other types will return an error.
func (i *Iter) SetFloat(v float64) error {
switch i.t {
case TagFloat, TagInteger, TagUint, TagString:
i.tape.Tape[i.off-1] = uint64(TagFloat) << JSONTAGOFFSET
i.tape.Tape[i.off] = math.Float64bits(v)
i.t = TagFloat
i.cur = 0
return nil
}
return fmt.Errorf("cannot set tag %s to float", i.t.String())
}
// Int returns the integer value of the next element.
// Integers and floats within range are automatically converted.
func (i *Iter) Int() (int64, error) {
switch i.t {
case TagFloat:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected float, but no more values on tape")
}
v := math.Float64frombits(i.tape.Tape[i.off])
if v > math.MaxInt64 {
return 0, errors.New("float value overflows int64")
}
if v < math.MinInt64 {
return 0, errors.New("float value underflows int64")
}
return int64(v), nil
case TagInteger:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected integer, but no more values on tape")
}
v := int64(i.tape.Tape[i.off])
return v, nil
case TagUint:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected integer, but no more values on tape")
}
v := i.tape.Tape[i.off]
if v > math.MaxInt64 {
return 0, errors.New("unsigned integer value overflows int64")
}
return int64(v), nil
default:
return 0, fmt.Errorf("unable to convert type %v to int", i.t)
}
}
// SetInt can change a float, int, uint or string with the specified value.
// Attempting to change other types will return an error.
func (i *Iter) SetInt(v int64) error {
switch i.t {
case TagFloat, TagInteger, TagUint, TagString:
i.tape.Tape[i.off-1] = uint64(TagInteger) << JSONTAGOFFSET
i.tape.Tape[i.off] = uint64(v)
i.t = TagInteger
i.cur = uint64(v)
return nil
}
return fmt.Errorf("cannot set tag %s to int", i.t.String())
}
// Uint returns the unsigned integer value of the next element.
// Positive integers and floats within range are automatically converted.
func (i *Iter) Uint() (uint64, error) {
switch i.t {
case TagFloat:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected float, but no more values on tape")
}
v := math.Float64frombits(i.tape.Tape[i.off])
if v > math.MaxUint64 {
return 0, errors.New("float value overflows uint64")
}
if v < 0 {
return 0, errors.New("float value is negative. cannot convert to uint")
}
return uint64(v), nil
case TagInteger:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected integer, but no more values on tape")
}
v := int64(i.tape.Tape[i.off])
if v < 0 {
return 0, errors.New("integer value is negative. cannot convert to uint")
}
return uint64(v), nil
case TagUint:
if i.off >= len(i.tape.Tape) {
return 0, errors.New("corrupt input: expected integer, but no more values on tape")
}
v := i.tape.Tape[i.off]
return v, nil
default:
return 0, fmt.Errorf("unable to convert type %v to uint", i.t)
}
}
// SetUInt can change a float, int, uint or string with the specified value.
// Attempting to change other types will return an error.
func (i *Iter) SetUInt(v uint64) error {
switch i.t {
case TagString, TagFloat, TagInteger, TagUint:
i.tape.Tape[i.off-1] = uint64(TagUint) << JSONTAGOFFSET
i.tape.Tape[i.off] = v
i.t = TagUint
i.cur = v
return nil
}
return fmt.Errorf("cannot set tag %s to uint", i.t.String())
}
// String() returns a string value.
func (i *Iter) String() (string, error) {
if i.t != TagString {
return "", errors.New("value is not string")
}
if i.off >= len(i.tape.Tape) {
return "", errors.New("corrupt input: no string offset")
}
return i.tape.stringAt(i.cur, i.tape.Tape[i.off])
}
// StringBytes returns a string as byte array.
func (i *Iter) StringBytes() ([]byte, error) {
if i.t != TagString {
return nil, errors.New("value is not string")
}
if i.off >= len(i.tape.Tape) {
return nil, errors.New("corrupt input: no string offset on tape")
}
return i.tape.stringByteAt(i.cur, i.tape.Tape[i.off])
}
// SetString can change a string, int, uint or float with the specified string.
// Attempting to change other types will return an error.
func (i *Iter) SetString(v string) error {
return i.SetStringBytes([]byte(v))
}
// SetStringBytes can change a string, int, uint or float with the specified string.
// Attempting to change other types will return an error.
// Sending nil will add an empty string.
func (i *Iter) SetStringBytes(v []byte) error {
switch i.t {
case TagString, TagFloat, TagInteger, TagUint:
i.cur = ((uint64(TagString) << JSONTAGOFFSET) | STRINGBUFBIT) | uint64(len(i.tape.Strings.B))
i.tape.Tape[i.off-1] = i.cur
i.tape.Tape[i.off] = uint64(len(v))
i.t = TagString
i.tape.Strings.B = append(i.tape.Strings.B, v...)
return nil
}
return fmt.Errorf("cannot set tag %s to string", i.t.String())
}
// StringCvt returns a string representation of the value.
// Root, Object and Arrays are not supported.
func (i *Iter) StringCvt() (string, error) {
switch i.t {
case TagString:
return i.String()
case TagInteger:
v, err := i.Int()
return strconv.FormatInt(v, 10), err
case TagUint:
v, err := i.Uint()
return strconv.FormatUint(v, 10), err
case TagFloat:
v, err := i.Float()
if err != nil {
return "", err
}
return floatToString(v)
case TagBoolFalse:
return "false", nil
case TagBoolTrue:
return "true", nil
case TagNull:
return "null", nil
}
return "", fmt.Errorf("cannot convert type %s to string", TagToType[i.t])
}
// Root returns the object embedded in root as an iterator
// along with the type of the content of the first element of the iterator.
// An optional destination can be supplied to avoid allocations.
func (i *Iter) Root(dst *Iter) (Type, *Iter, error) {
if i.t != TagRoot {
return TypeNone, dst, errors.New("value is not root")
}
if i.cur > uint64(len(i.tape.Tape)) {
return TypeNone, dst, errors.New("root element extends beyond tape")
}
if dst == nil {
c := *i
dst = &c
} else {
dst.cur = i.cur
dst.off = i.off
dst.t = i.t
dst.tape.Strings = i.tape.Strings
dst.tape.Message = i.tape.Message
}
dst.addNext = 0
dst.tape.Tape = i.tape.Tape[:i.cur-1]
return dst.AdvanceInto().Type(), dst, nil
}
// FindElement allows searching for fields and objects by path from the iter and forward,
// moving into root and objects, but not arrays.
// For example "Image", "Url" will search the current root/object for an "Image"
// object and return the value of the "Url" element.
// ErrPathNotFound is returned if any part of the path cannot be found.
// If the tape contains an error it will be returned.
// The iter will *not* be advanced.
func (i *Iter) FindElement(dst *Element, path ...string) (*Element, error) {
if len(path) == 0 {
return dst, ErrPathNotFound
}
// Local copy.
cp := *i
for {
switch cp.t {
case TagObjectStart:
var o Object
obj, err := cp.Object(&o)
if err != nil {
return dst, err
}
return obj.FindPath(dst, path...)
case TagRoot:
_, _, err := cp.Root(&cp)
if err != nil {
return dst, err
}
continue
case TagEnd:
tag := cp.AdvanceInto()
if tag == TagEnd {
return dst, ErrPathNotFound
}
continue
default:
return dst, fmt.Errorf("type %q found before object was found", cp.t)
}
}
}
// Bool returns the bool value.
func (i *Iter) Bool() (bool, error) {
switch i.t {
case TagBoolTrue:
return true, nil
case TagBoolFalse:
return false, nil
}
return false, fmt.Errorf("value is not bool, but %v", i.t)
}
// SetBool can change a bool or null type to bool with the specified value.
// Attempting to change other types will return an error.
func (i *Iter) SetBool(v bool) error {
switch i.t {
case TagBoolTrue, TagBoolFalse, TagNull:
if v {
i.t = TagBoolTrue
i.cur = 0
i.tape.Tape[i.off-1] = uint64(TagBoolTrue) << JSONTAGOFFSET
} else {
i.t = TagBoolFalse
i.cur = 0
i.tape.Tape[i.off-1] = uint64(TagBoolFalse) << JSONTAGOFFSET
}
return nil
}
return fmt.Errorf("cannot set tag %s to bool", i.t.String())
}
// SetNull can change the following types to null:
// Bool, String, (Unsigned) Integer, Float, Objects and Arrays.
// Attempting to change other types will return an error.
func (i *Iter) SetNull() error {
switch i.t {
case TagBoolTrue, TagBoolFalse, TagNull:
// 1 value on stream
i.t = TagNull
i.cur = 0
i.tape.Tape[i.off-1] = uint64(TagNull) << JSONTAGOFFSET
case TagString, TagFloat, TagInteger, TagUint:
// 2 values
i.tape.Tape[i.off-1] = uint64(TagNull) << JSONTAGOFFSET
i.tape.Tape[i.off] = uint64(TagNop)<<JSONTAGOFFSET | 1
i.t = TagNull
i.cur = 0
case TagObjectStart, TagArrayStart, TagRoot:
// Read length, skipping the object/array:
i.addNext = int(i.cur) - i.off
i.tape.Tape[i.off-1] = uint64(TagNull) << JSONTAGOFFSET
// Fill with nops
for j := i.off; j < int(i.cur); j++ {
i.tape.Tape[j] = uint64(TagNop)<<JSONTAGOFFSET | (i.cur - uint64(j))
}
i.t = TagNull
i.cur = 0
default:
return fmt.Errorf("cannot set tag %s to null", i.t.String())
}
return nil
}
// Interface returns the value as an interface.
// Objects are returned as map[string]interface{}.
// Arrays are returned as []interface{}.
// Float values are returned as float64.
// Integer values are returned as int64 or uint64.
// String values are returned as string.
// Boolean values are returned as bool.
// Null values are returned as nil.
// Root objects are returned as []interface{}.
func (i *Iter) Interface() (interface{}, error) {
switch i.t.Type() {
case TypeUint:
return i.Uint()
case TypeInt:
return i.Int()
case TypeFloat:
return i.Float()
case TypeNull:
return nil, nil
case TypeArray:
arr, err := i.Array(nil)
if err != nil {
return nil, err
}
return arr.Interface()
case TypeString:
return i.String()
case TypeObject:
obj, err := i.Object(nil)
if err != nil {
return nil, err
}
return obj.Map(nil)
case TypeBool:
return i.t == TagBoolTrue, nil
case TypeRoot:
var dst []interface{}
var tmp Iter
for {
typ, obj, err := i.Root(&tmp)
if err != nil {
return nil, err
}
if typ == TypeNone {
break
}
elem, err := obj.Interface()
if err != nil {
return nil, err
}
dst = append(dst, elem)
typ = i.Advance()
if typ != TypeRoot {
break
}
}
return dst, nil
case TypeNone:
if i.PeekNextTag() == TagEnd {
return nil, errors.New("no content in iterator")
}
i.Advance()
return i.Interface()
default:
}
return nil, fmt.Errorf("unknown tag type: %v", i.t)
}
// Object will return the next element as an object.
// An optional destination can be given.
func (i *Iter) Object(dst *Object) (*Object, error) {
if i.t != TagObjectStart {
return nil, errors.New("next item is not object")