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- package toml
- import (
- "encoding"
- "errors"
- "fmt"
- "io"
- "io/ioutil"
- "math"
- "reflect"
- "strings"
- "sync/atomic"
- "time"
- "github.com/pelletier/go-toml/v2/internal/ast"
- "github.com/pelletier/go-toml/v2/internal/danger"
- "github.com/pelletier/go-toml/v2/internal/tracker"
- )
- // Unmarshal deserializes a TOML document into a Go value.
- //
- // It is a shortcut for Decoder.Decode() with the default options.
- func Unmarshal(data []byte, v interface{}) error {
- p := parser{}
- p.Reset(data)
- d := decoder{p: &p}
- return d.FromParser(v)
- }
- // Decoder reads and decode a TOML document from an input stream.
- type Decoder struct {
- // input
- r io.Reader
- // global settings
- strict bool
- }
- // NewDecoder creates a new Decoder that will read from r.
- func NewDecoder(r io.Reader) *Decoder {
- return &Decoder{r: r}
- }
- // DisallowUnknownFields causes the Decoder to return an error when the
- // destination is a struct and the input contains a key that does not match a
- // non-ignored field.
- //
- // In that case, the Decoder returns a StrictMissingError that can be used to
- // retrieve the individual errors as well as generate a human readable
- // description of the missing fields.
- func (d *Decoder) DisallowUnknownFields() *Decoder {
- d.strict = true
- return d
- }
- // Decode the whole content of r into v.
- //
- // By default, values in the document that don't exist in the target Go value
- // are ignored. See Decoder.DisallowUnknownFields() to change this behavior.
- //
- // When a TOML local date, time, or date-time is decoded into a time.Time, its
- // value is represented in time.Local timezone. Otherwise the approriate Local*
- // structure is used. For time values, precision up to the nanosecond is
- // supported by truncating extra digits.
- //
- // Empty tables decoded in an interface{} create an empty initialized
- // map[string]interface{}.
- //
- // Types implementing the encoding.TextUnmarshaler interface are decoded from a
- // TOML string.
- //
- // When decoding a number, go-toml will return an error if the number is out of
- // bounds for the target type (which includes negative numbers when decoding
- // into an unsigned int).
- //
- // If an error occurs while decoding the content of the document, this function
- // returns a toml.DecodeError, providing context about the issue. When using
- // strict mode and a field is missing, a `toml.StrictMissingError` is
- // returned. In any other case, this function returns a standard Go error.
- //
- // Type mapping
- //
- // List of supported TOML types and their associated accepted Go types:
- //
- // String -> string
- // Integer -> uint*, int*, depending on size
- // Float -> float*, depending on size
- // Boolean -> bool
- // Offset Date-Time -> time.Time
- // Local Date-time -> LocalDateTime, time.Time
- // Local Date -> LocalDate, time.Time
- // Local Time -> LocalTime, time.Time
- // Array -> slice and array, depending on elements types
- // Table -> map and struct
- // Inline Table -> same as Table
- // Array of Tables -> same as Array and Table
- func (d *Decoder) Decode(v interface{}) error {
- b, err := ioutil.ReadAll(d.r)
- if err != nil {
- return fmt.Errorf("toml: %w", err)
- }
- p := parser{}
- p.Reset(b)
- dec := decoder{
- p: &p,
- strict: strict{
- Enabled: d.strict,
- },
- }
- return dec.FromParser(v)
- }
- type decoder struct {
- // Which parser instance in use for this decoding session.
- p *parser
- // Flag indicating that the current expression is stashed.
- // If set to true, calling nextExpr will not actually pull a new expression
- // but turn off the flag instead.
- stashedExpr bool
- // Skip expressions until a table is found. This is set to true when a
- // table could not be create (missing field in map), so all KV expressions
- // need to be skipped.
- skipUntilTable bool
- // Tracks position in Go arrays.
- // This is used when decoding [[array tables]] into Go arrays. Given array
- // tables are separate TOML expression, we need to keep track of where we
- // are at in the Go array, as we can't just introspect its size.
- arrayIndexes map[reflect.Value]int
- // Tracks keys that have been seen, with which type.
- seen tracker.SeenTracker
- // Strict mode
- strict strict
- // Current context for the error.
- errorContext *errorContext
- }
- type errorContext struct {
- Struct reflect.Type
- Field []int
- }
- func (d *decoder) typeMismatchError(toml string, target reflect.Type) error {
- if d.errorContext != nil && d.errorContext.Struct != nil {
- ctx := d.errorContext
- f := ctx.Struct.FieldByIndex(ctx.Field)
- return fmt.Errorf("toml: cannot decode TOML %s into struct field %s.%s of type %s", toml, ctx.Struct, f.Name, f.Type)
- }
- return fmt.Errorf("toml: cannot decode TOML %s into a Go value of type %s", toml, target)
- }
- func (d *decoder) expr() *ast.Node {
- return d.p.Expression()
- }
- func (d *decoder) nextExpr() bool {
- if d.stashedExpr {
- d.stashedExpr = false
- return true
- }
- return d.p.NextExpression()
- }
- func (d *decoder) stashExpr() {
- d.stashedExpr = true
- }
- func (d *decoder) arrayIndex(shouldAppend bool, v reflect.Value) int {
- if d.arrayIndexes == nil {
- d.arrayIndexes = make(map[reflect.Value]int, 1)
- }
- idx, ok := d.arrayIndexes[v]
- if !ok {
- d.arrayIndexes[v] = 0
- } else if shouldAppend {
- idx++
- d.arrayIndexes[v] = idx
- }
- return idx
- }
- func (d *decoder) FromParser(v interface{}) error {
- r := reflect.ValueOf(v)
- if r.Kind() != reflect.Ptr {
- return fmt.Errorf("toml: decoding can only be performed into a pointer, not %s", r.Kind())
- }
- if r.IsNil() {
- return fmt.Errorf("toml: decoding pointer target cannot be nil")
- }
- r = r.Elem()
- if r.Kind() == reflect.Interface && r.IsNil() {
- newMap := map[string]interface{}{}
- r.Set(reflect.ValueOf(newMap))
- }
- err := d.fromParser(r)
- if err == nil {
- return d.strict.Error(d.p.data)
- }
- var e *decodeError
- if errors.As(err, &e) {
- return wrapDecodeError(d.p.data, e)
- }
- return err
- }
- func (d *decoder) fromParser(root reflect.Value) error {
- for d.nextExpr() {
- err := d.handleRootExpression(d.expr(), root)
- if err != nil {
- return err
- }
- }
- return d.p.Error()
- }
- /*
- Rules for the unmarshal code:
- - The stack is used to keep track of which values need to be set where.
- - handle* functions <=> switch on a given ast.Kind.
- - unmarshalX* functions need to unmarshal a node of kind X.
- - An "object" is either a struct or a map.
- */
- func (d *decoder) handleRootExpression(expr *ast.Node, v reflect.Value) error {
- var x reflect.Value
- var err error
- if !(d.skipUntilTable && expr.Kind == ast.KeyValue) {
- err = d.seen.CheckExpression(expr)
- if err != nil {
- return err
- }
- }
- switch expr.Kind {
- case ast.KeyValue:
- if d.skipUntilTable {
- return nil
- }
- x, err = d.handleKeyValue(expr, v)
- case ast.Table:
- d.skipUntilTable = false
- d.strict.EnterTable(expr)
- x, err = d.handleTable(expr.Key(), v)
- case ast.ArrayTable:
- d.skipUntilTable = false
- d.strict.EnterArrayTable(expr)
- x, err = d.handleArrayTable(expr.Key(), v)
- default:
- panic(fmt.Errorf("parser should not permit expression of kind %s at document root", expr.Kind))
- }
- if d.skipUntilTable {
- if expr.Kind == ast.Table || expr.Kind == ast.ArrayTable {
- d.strict.MissingTable(expr)
- }
- } else if err == nil && x.IsValid() {
- v.Set(x)
- }
- return err
- }
- func (d *decoder) handleArrayTable(key ast.Iterator, v reflect.Value) (reflect.Value, error) {
- if key.Next() {
- return d.handleArrayTablePart(key, v)
- }
- return d.handleKeyValues(v)
- }
- func (d *decoder) handleArrayTableCollectionLast(key ast.Iterator, v reflect.Value) (reflect.Value, error) {
- switch v.Kind() {
- case reflect.Interface:
- elem := v.Elem()
- if !elem.IsValid() {
- elem = reflect.New(sliceInterfaceType).Elem()
- elem.Set(reflect.MakeSlice(sliceInterfaceType, 0, 16))
- } else if elem.Kind() == reflect.Slice {
- if elem.Type() != sliceInterfaceType {
- elem = reflect.New(sliceInterfaceType).Elem()
- elem.Set(reflect.MakeSlice(sliceInterfaceType, 0, 16))
- } else if !elem.CanSet() {
- nelem := reflect.New(sliceInterfaceType).Elem()
- nelem.Set(reflect.MakeSlice(sliceInterfaceType, elem.Len(), elem.Cap()))
- reflect.Copy(nelem, elem)
- elem = nelem
- }
- }
- return d.handleArrayTableCollectionLast(key, elem)
- case reflect.Ptr:
- elem := v.Elem()
- if !elem.IsValid() {
- ptr := reflect.New(v.Type().Elem())
- v.Set(ptr)
- elem = ptr.Elem()
- }
- elem, err := d.handleArrayTableCollectionLast(key, elem)
- if err != nil {
- return reflect.Value{}, err
- }
- v.Elem().Set(elem)
- return v, nil
- case reflect.Slice:
- elemType := v.Type().Elem()
- var elem reflect.Value
- if elemType.Kind() == reflect.Interface {
- elem = makeMapStringInterface()
- } else {
- elem = reflect.New(elemType).Elem()
- }
- elem2, err := d.handleArrayTable(key, elem)
- if err != nil {
- return reflect.Value{}, err
- }
- if elem2.IsValid() {
- elem = elem2
- }
- return reflect.Append(v, elem), nil
- case reflect.Array:
- idx := d.arrayIndex(true, v)
- if idx >= v.Len() {
- return v, fmt.Errorf("toml: cannot decode array table into %s at position %d", v.Type(), idx)
- }
- elem := v.Index(idx)
- _, err := d.handleArrayTable(key, elem)
- return v, err
- }
- return d.handleArrayTable(key, v)
- }
- // When parsing an array table expression, each part of the key needs to be
- // evaluated like a normal key, but if it returns a collection, it also needs to
- // point to the last element of the collection. Unless it is the last part of
- // the key, then it needs to create a new element at the end.
- func (d *decoder) handleArrayTableCollection(key ast.Iterator, v reflect.Value) (reflect.Value, error) {
- if key.IsLast() {
- return d.handleArrayTableCollectionLast(key, v)
- }
- switch v.Kind() {
- case reflect.Ptr:
- elem := v.Elem()
- if !elem.IsValid() {
- ptr := reflect.New(v.Type().Elem())
- v.Set(ptr)
- elem = ptr.Elem()
- }
- elem, err := d.handleArrayTableCollection(key, elem)
- if err != nil {
- return reflect.Value{}, err
- }
- if elem.IsValid() {
- v.Elem().Set(elem)
- }
- return v, nil
- case reflect.Slice:
- elem := v.Index(v.Len() - 1)
- x, err := d.handleArrayTable(key, elem)
- if err != nil || d.skipUntilTable {
- return reflect.Value{}, err
- }
- if x.IsValid() {
- elem.Set(x)
- }
- return v, err
- case reflect.Array:
- idx := d.arrayIndex(false, v)
- if idx >= v.Len() {
- return v, fmt.Errorf("toml: cannot decode array table into %s at position %d", v.Type(), idx)
- }
- elem := v.Index(idx)
- _, err := d.handleArrayTable(key, elem)
- return v, err
- }
- return d.handleArrayTable(key, v)
- }
- func (d *decoder) handleKeyPart(key ast.Iterator, v reflect.Value, nextFn handlerFn, makeFn valueMakerFn) (reflect.Value, error) {
- var rv reflect.Value
- // First, dispatch over v to make sure it is a valid object.
- // There is no guarantee over what it could be.
- switch v.Kind() {
- case reflect.Ptr:
- elem := v.Elem()
- if !elem.IsValid() {
- v.Set(reflect.New(v.Type().Elem()))
- }
- elem = v.Elem()
- return d.handleKeyPart(key, elem, nextFn, makeFn)
- case reflect.Map:
- vt := v.Type()
- // Create the key for the map element. Convert to key type.
- mk := reflect.ValueOf(string(key.Node().Data)).Convert(vt.Key())
- // If the map does not exist, create it.
- if v.IsNil() {
- vt := v.Type()
- v = reflect.MakeMap(vt)
- rv = v
- }
- mv := v.MapIndex(mk)
- set := false
- if !mv.IsValid() {
- // If there is no value in the map, create a new one according to
- // the map type. If the element type is interface, create either a
- // map[string]interface{} or a []interface{} depending on whether
- // this is the last part of the array table key.
- t := vt.Elem()
- if t.Kind() == reflect.Interface {
- mv = makeFn()
- } else {
- mv = reflect.New(t).Elem()
- }
- set = true
- } else if mv.Kind() == reflect.Interface {
- mv = mv.Elem()
- if !mv.IsValid() {
- mv = makeFn()
- }
- set = true
- } else if !mv.CanAddr() {
- vt := v.Type()
- t := vt.Elem()
- oldmv := mv
- mv = reflect.New(t).Elem()
- mv.Set(oldmv)
- set = true
- }
- x, err := nextFn(key, mv)
- if err != nil {
- return reflect.Value{}, err
- }
- if x.IsValid() {
- mv = x
- set = true
- }
- if set {
- v.SetMapIndex(mk, mv)
- }
- case reflect.Struct:
- path, found := structFieldPath(v, string(key.Node().Data))
- if !found {
- d.skipUntilTable = true
- return reflect.Value{}, nil
- }
- if d.errorContext == nil {
- d.errorContext = new(errorContext)
- }
- t := v.Type()
- d.errorContext.Struct = t
- d.errorContext.Field = path
- f := v.FieldByIndex(path)
- x, err := nextFn(key, f)
- if err != nil || d.skipUntilTable {
- return reflect.Value{}, err
- }
- if x.IsValid() {
- f.Set(x)
- }
- d.errorContext.Field = nil
- d.errorContext.Struct = nil
- case reflect.Interface:
- if v.Elem().IsValid() {
- v = v.Elem()
- } else {
- v = makeMapStringInterface()
- }
- x, err := d.handleKeyPart(key, v, nextFn, makeFn)
- if err != nil {
- return reflect.Value{}, err
- }
- if x.IsValid() {
- v = x
- }
- rv = v
- default:
- panic(fmt.Errorf("unhandled part: %s", v.Kind()))
- }
- return rv, nil
- }
- // HandleArrayTablePart navigates the Go structure v using the key v. It is
- // only used for the prefix (non-last) parts of an array-table. When
- // encountering a collection, it should go to the last element.
- func (d *decoder) handleArrayTablePart(key ast.Iterator, v reflect.Value) (reflect.Value, error) {
- var makeFn valueMakerFn
- if key.IsLast() {
- makeFn = makeSliceInterface
- } else {
- makeFn = makeMapStringInterface
- }
- return d.handleKeyPart(key, v, d.handleArrayTableCollection, makeFn)
- }
- // HandleTable returns a reference when it has checked the next expression but
- // cannot handle it.
- func (d *decoder) handleTable(key ast.Iterator, v reflect.Value) (reflect.Value, error) {
- if v.Kind() == reflect.Slice {
- if v.Len() == 0 {
- return reflect.Value{}, newDecodeError(key.Node().Data, "cannot store a table in a slice")
- }
- elem := v.Index(v.Len() - 1)
- x, err := d.handleTable(key, elem)
- if err != nil {
- return reflect.Value{}, err
- }
- if x.IsValid() {
- elem.Set(x)
- }
- return reflect.Value{}, nil
- }
- if key.Next() {
- // Still scoping the key
- return d.handleTablePart(key, v)
- }
- // Done scoping the key.
- // Now handle all the key-value expressions in this table.
- return d.handleKeyValues(v)
- }
- // Handle root expressions until the end of the document or the next
- // non-key-value.
- func (d *decoder) handleKeyValues(v reflect.Value) (reflect.Value, error) {
- var rv reflect.Value
- for d.nextExpr() {
- expr := d.expr()
- if expr.Kind != ast.KeyValue {
- // Stash the expression so that fromParser can just loop and use
- // the right handler.
- // We could just recurse ourselves here, but at least this gives a
- // chance to pop the stack a bit.
- d.stashExpr()
- break
- }
- err := d.seen.CheckExpression(expr)
- if err != nil {
- return reflect.Value{}, err
- }
- x, err := d.handleKeyValue(expr, v)
- if err != nil {
- return reflect.Value{}, err
- }
- if x.IsValid() {
- v = x
- rv = x
- }
- }
- return rv, nil
- }
- type (
- handlerFn func(key ast.Iterator, v reflect.Value) (reflect.Value, error)
- valueMakerFn func() reflect.Value
- )
- func makeMapStringInterface() reflect.Value {
- return reflect.MakeMap(mapStringInterfaceType)
- }
- func makeSliceInterface() reflect.Value {
- return reflect.MakeSlice(sliceInterfaceType, 0, 16)
- }
- func (d *decoder) handleTablePart(key ast.Iterator, v reflect.Value) (reflect.Value, error) {
- return d.handleKeyPart(key, v, d.handleTable, makeMapStringInterface)
- }
- func (d *decoder) tryTextUnmarshaler(node *ast.Node, v reflect.Value) (bool, error) {
- // Special case for time, because we allow to unmarshal to it from
- // different kind of AST nodes.
- if v.Type() == timeType {
- return false, nil
- }
- if v.CanAddr() && v.Addr().Type().Implements(textUnmarshalerType) {
- err := v.Addr().Interface().(encoding.TextUnmarshaler).UnmarshalText(node.Data)
- if err != nil {
- return false, newDecodeError(d.p.Raw(node.Raw), "%w", err)
- }
- return true, nil
- }
- return false, nil
- }
- func (d *decoder) handleValue(value *ast.Node, v reflect.Value) error {
- for v.Kind() == reflect.Ptr {
- v = initAndDereferencePointer(v)
- }
- ok, err := d.tryTextUnmarshaler(value, v)
- if ok || err != nil {
- return err
- }
- switch value.Kind {
- case ast.String:
- return d.unmarshalString(value, v)
- case ast.Integer:
- return d.unmarshalInteger(value, v)
- case ast.Float:
- return d.unmarshalFloat(value, v)
- case ast.Bool:
- return d.unmarshalBool(value, v)
- case ast.DateTime:
- return d.unmarshalDateTime(value, v)
- case ast.LocalDate:
- return d.unmarshalLocalDate(value, v)
- case ast.LocalTime:
- return d.unmarshalLocalTime(value, v)
- case ast.LocalDateTime:
- return d.unmarshalLocalDateTime(value, v)
- case ast.InlineTable:
- return d.unmarshalInlineTable(value, v)
- case ast.Array:
- return d.unmarshalArray(value, v)
- default:
- panic(fmt.Errorf("handleValue not implemented for %s", value.Kind))
- }
- }
- func (d *decoder) unmarshalArray(array *ast.Node, v reflect.Value) error {
- switch v.Kind() {
- case reflect.Slice:
- if v.IsNil() {
- v.Set(reflect.MakeSlice(v.Type(), 0, 16))
- } else {
- v.SetLen(0)
- }
- case reflect.Array:
- // arrays are always initialized
- case reflect.Interface:
- elem := v.Elem()
- if !elem.IsValid() {
- elem = reflect.New(sliceInterfaceType).Elem()
- elem.Set(reflect.MakeSlice(sliceInterfaceType, 0, 16))
- } else if elem.Kind() == reflect.Slice {
- if elem.Type() != sliceInterfaceType {
- elem = reflect.New(sliceInterfaceType).Elem()
- elem.Set(reflect.MakeSlice(sliceInterfaceType, 0, 16))
- } else if !elem.CanSet() {
- nelem := reflect.New(sliceInterfaceType).Elem()
- nelem.Set(reflect.MakeSlice(sliceInterfaceType, elem.Len(), elem.Cap()))
- reflect.Copy(nelem, elem)
- elem = nelem
- }
- }
- err := d.unmarshalArray(array, elem)
- if err != nil {
- return err
- }
- v.Set(elem)
- return nil
- default:
- // TODO: use newDecodeError, but first the parser needs to fill
- // array.Data.
- return d.typeMismatchError("array", v.Type())
- }
- elemType := v.Type().Elem()
- it := array.Children()
- idx := 0
- for it.Next() {
- n := it.Node()
- // TODO: optimize
- if v.Kind() == reflect.Slice {
- elem := reflect.New(elemType).Elem()
- err := d.handleValue(n, elem)
- if err != nil {
- return err
- }
- v.Set(reflect.Append(v, elem))
- } else { // array
- if idx >= v.Len() {
- return nil
- }
- elem := v.Index(idx)
- err := d.handleValue(n, elem)
- if err != nil {
- return err
- }
- idx++
- }
- }
- return nil
- }
- func (d *decoder) unmarshalInlineTable(itable *ast.Node, v reflect.Value) error {
- // Make sure v is an initialized object.
- switch v.Kind() {
- case reflect.Map:
- if v.IsNil() {
- v.Set(reflect.MakeMap(v.Type()))
- }
- case reflect.Struct:
- // structs are always initialized.
- case reflect.Interface:
- elem := v.Elem()
- if !elem.IsValid() {
- elem = makeMapStringInterface()
- v.Set(elem)
- }
- return d.unmarshalInlineTable(itable, elem)
- default:
- return newDecodeError(itable.Data, "cannot store inline table in Go type %s", v.Kind())
- }
- it := itable.Children()
- for it.Next() {
- n := it.Node()
- x, err := d.handleKeyValue(n, v)
- if err != nil {
- return err
- }
- if x.IsValid() {
- v = x
- }
- }
- return nil
- }
- func (d *decoder) unmarshalDateTime(value *ast.Node, v reflect.Value) error {
- dt, err := parseDateTime(value.Data)
- if err != nil {
- return err
- }
- v.Set(reflect.ValueOf(dt))
- return nil
- }
- func (d *decoder) unmarshalLocalDate(value *ast.Node, v reflect.Value) error {
- ld, err := parseLocalDate(value.Data)
- if err != nil {
- return err
- }
- if v.Type() == timeType {
- cast := ld.AsTime(time.Local)
- v.Set(reflect.ValueOf(cast))
- return nil
- }
- v.Set(reflect.ValueOf(ld))
- return nil
- }
- func (d *decoder) unmarshalLocalTime(value *ast.Node, v reflect.Value) error {
- lt, rest, err := parseLocalTime(value.Data)
- if err != nil {
- return err
- }
- if len(rest) > 0 {
- return newDecodeError(rest, "extra characters at the end of a local time")
- }
- v.Set(reflect.ValueOf(lt))
- return nil
- }
- func (d *decoder) unmarshalLocalDateTime(value *ast.Node, v reflect.Value) error {
- ldt, rest, err := parseLocalDateTime(value.Data)
- if err != nil {
- return err
- }
- if len(rest) > 0 {
- return newDecodeError(rest, "extra characters at the end of a local date time")
- }
- if v.Type() == timeType {
- cast := ldt.AsTime(time.Local)
- v.Set(reflect.ValueOf(cast))
- return nil
- }
- v.Set(reflect.ValueOf(ldt))
- return nil
- }
- func (d *decoder) unmarshalBool(value *ast.Node, v reflect.Value) error {
- b := value.Data[0] == 't'
- switch v.Kind() {
- case reflect.Bool:
- v.SetBool(b)
- case reflect.Interface:
- v.Set(reflect.ValueOf(b))
- default:
- return newDecodeError(value.Data, "cannot assign boolean to a %t", b)
- }
- return nil
- }
- func (d *decoder) unmarshalFloat(value *ast.Node, v reflect.Value) error {
- f, err := parseFloat(value.Data)
- if err != nil {
- return err
- }
- switch v.Kind() {
- case reflect.Float64:
- v.SetFloat(f)
- case reflect.Float32:
- if f > math.MaxFloat32 {
- return newDecodeError(value.Data, "number %f does not fit in a float32", f)
- }
- v.SetFloat(f)
- case reflect.Interface:
- v.Set(reflect.ValueOf(f))
- default:
- return newDecodeError(value.Data, "float cannot be assigned to %s", v.Kind())
- }
- return nil
- }
- const (
- maxInt = int64(^uint(0) >> 1)
- minInt = -maxInt - 1
- )
- // Maximum value of uint for decoding. Currently the decoder parses the integer
- // into an int64. As a result, on architectures where uint is 64 bits, the
- // effective maximum uint we can decode is the maximum of int64. On
- // architectures where uint is 32 bits, the maximum value we can decode is
- // lower: the maximum of uint32. I didn't find a way to figure out this value at
- // compile time, so it is computed during initialization.
- var maxUint int64 = math.MaxInt64
- func init() {
- m := uint64(^uint(0))
- if m < uint64(maxUint) {
- maxUint = int64(m)
- }
- }
- func (d *decoder) unmarshalInteger(value *ast.Node, v reflect.Value) error {
- i, err := parseInteger(value.Data)
- if err != nil {
- return err
- }
- var r reflect.Value
- switch v.Kind() {
- case reflect.Int64:
- v.SetInt(i)
- return nil
- case reflect.Int32:
- if i < math.MinInt32 || i > math.MaxInt32 {
- return fmt.Errorf("toml: number %d does not fit in an int32", i)
- }
- r = reflect.ValueOf(int32(i))
- case reflect.Int16:
- if i < math.MinInt16 || i > math.MaxInt16 {
- return fmt.Errorf("toml: number %d does not fit in an int16", i)
- }
- r = reflect.ValueOf(int16(i))
- case reflect.Int8:
- if i < math.MinInt8 || i > math.MaxInt8 {
- return fmt.Errorf("toml: number %d does not fit in an int8", i)
- }
- r = reflect.ValueOf(int8(i))
- case reflect.Int:
- if i < minInt || i > maxInt {
- return fmt.Errorf("toml: number %d does not fit in an int", i)
- }
- r = reflect.ValueOf(int(i))
- case reflect.Uint64:
- if i < 0 {
- return fmt.Errorf("toml: negative number %d does not fit in an uint64", i)
- }
- r = reflect.ValueOf(uint64(i))
- case reflect.Uint32:
- if i < 0 || i > math.MaxUint32 {
- return fmt.Errorf("toml: negative number %d does not fit in an uint32", i)
- }
- r = reflect.ValueOf(uint32(i))
- case reflect.Uint16:
- if i < 0 || i > math.MaxUint16 {
- return fmt.Errorf("toml: negative number %d does not fit in an uint16", i)
- }
- r = reflect.ValueOf(uint16(i))
- case reflect.Uint8:
- if i < 0 || i > math.MaxUint8 {
- return fmt.Errorf("toml: negative number %d does not fit in an uint8", i)
- }
- r = reflect.ValueOf(uint8(i))
- case reflect.Uint:
- if i < 0 || i > maxUint {
- return fmt.Errorf("toml: negative number %d does not fit in an uint", i)
- }
- r = reflect.ValueOf(uint(i))
- case reflect.Interface:
- r = reflect.ValueOf(i)
- default:
- return d.typeMismatchError("integer", v.Type())
- }
- if !r.Type().AssignableTo(v.Type()) {
- r = r.Convert(v.Type())
- }
- v.Set(r)
- return nil
- }
- func (d *decoder) unmarshalString(value *ast.Node, v reflect.Value) error {
- switch v.Kind() {
- case reflect.String:
- v.SetString(string(value.Data))
- case reflect.Interface:
- v.Set(reflect.ValueOf(string(value.Data)))
- default:
- return newDecodeError(d.p.Raw(value.Raw), "cannot store TOML string into a Go %s", v.Kind())
- }
- return nil
- }
- func (d *decoder) handleKeyValue(expr *ast.Node, v reflect.Value) (reflect.Value, error) {
- d.strict.EnterKeyValue(expr)
- v, err := d.handleKeyValueInner(expr.Key(), expr.Value(), v)
- if d.skipUntilTable {
- d.strict.MissingField(expr)
- d.skipUntilTable = false
- }
- d.strict.ExitKeyValue(expr)
- return v, err
- }
- func (d *decoder) handleKeyValueInner(key ast.Iterator, value *ast.Node, v reflect.Value) (reflect.Value, error) {
- if key.Next() {
- // Still scoping the key
- return d.handleKeyValuePart(key, value, v)
- }
- // Done scoping the key.
- // v is whatever Go value we need to fill.
- return reflect.Value{}, d.handleValue(value, v)
- }
- func (d *decoder) handleKeyValuePart(key ast.Iterator, value *ast.Node, v reflect.Value) (reflect.Value, error) {
- // contains the replacement for v
- var rv reflect.Value
- // First, dispatch over v to make sure it is a valid object.
- // There is no guarantee over what it could be.
- switch v.Kind() {
- case reflect.Map:
- vt := v.Type()
- mk := reflect.ValueOf(string(key.Node().Data))
- mkt := stringType
- keyType := vt.Key()
- if !mkt.AssignableTo(keyType) {
- if !mkt.ConvertibleTo(keyType) {
- return reflect.Value{}, fmt.Errorf("toml: cannot convert map key of type %s to expected type %s", mkt, keyType)
- }
- mk = mk.Convert(keyType)
- }
- // If the map does not exist, create it.
- if v.IsNil() {
- v = reflect.MakeMap(vt)
- rv = v
- }
- mv := v.MapIndex(mk)
- set := false
- if !mv.IsValid() {
- set = true
- mv = reflect.New(v.Type().Elem()).Elem()
- } else {
- if key.IsLast() {
- var x interface{}
- mv = reflect.ValueOf(&x).Elem()
- set = true
- }
- }
- nv, err := d.handleKeyValueInner(key, value, mv)
- if err != nil {
- return reflect.Value{}, err
- }
- if nv.IsValid() {
- mv = nv
- set = true
- }
- if set {
- v.SetMapIndex(mk, mv)
- }
- case reflect.Struct:
- path, found := structFieldPath(v, string(key.Node().Data))
- if !found {
- d.skipUntilTable = true
- break
- }
- if d.errorContext == nil {
- d.errorContext = new(errorContext)
- }
- t := v.Type()
- d.errorContext.Struct = t
- d.errorContext.Field = path
- f := v.FieldByIndex(path)
- x, err := d.handleKeyValueInner(key, value, f)
- if err != nil {
- return reflect.Value{}, err
- }
- if x.IsValid() {
- f.Set(x)
- }
- d.errorContext.Struct = nil
- d.errorContext.Field = nil
- case reflect.Interface:
- v = v.Elem()
- // Following encoding/json: decoding an object into an
- // interface{}, it needs to always hold a
- // map[string]interface{}. This is for the types to be
- // consistent whether a previous value was set or not.
- if !v.IsValid() || v.Type() != mapStringInterfaceType {
- v = makeMapStringInterface()
- }
- x, err := d.handleKeyValuePart(key, value, v)
- if err != nil {
- return reflect.Value{}, err
- }
- if x.IsValid() {
- v = x
- }
- rv = v
- case reflect.Ptr:
- elem := v.Elem()
- if !elem.IsValid() {
- ptr := reflect.New(v.Type().Elem())
- v.Set(ptr)
- rv = v
- elem = ptr.Elem()
- }
- elem2, err := d.handleKeyValuePart(key, value, elem)
- if err != nil {
- return reflect.Value{}, err
- }
- if elem2.IsValid() {
- elem = elem2
- }
- v.Elem().Set(elem)
- default:
- return reflect.Value{}, fmt.Errorf("unhandled kv part: %s", v.Kind())
- }
- return rv, nil
- }
- func initAndDereferencePointer(v reflect.Value) reflect.Value {
- var elem reflect.Value
- if v.IsNil() {
- ptr := reflect.New(v.Type().Elem())
- v.Set(ptr)
- }
- elem = v.Elem()
- return elem
- }
- type fieldPathsMap = map[string][]int
- var globalFieldPathsCache atomic.Value // map[danger.TypeID]fieldPathsMap
- func structFieldPath(v reflect.Value, name string) ([]int, bool) {
- t := v.Type()
- cache, _ := globalFieldPathsCache.Load().(map[danger.TypeID]fieldPathsMap)
- fieldPaths, ok := cache[danger.MakeTypeID(t)]
- if !ok {
- fieldPaths = map[string][]int{}
- forEachField(t, nil, func(name string, path []int) {
- fieldPaths[name] = path
- // extra copy for the case-insensitive match
- fieldPaths[strings.ToLower(name)] = path
- })
- newCache := make(map[danger.TypeID]fieldPathsMap, len(cache)+1)
- newCache[danger.MakeTypeID(t)] = fieldPaths
- for k, v := range cache {
- newCache[k] = v
- }
- globalFieldPathsCache.Store(newCache)
- }
- path, ok := fieldPaths[name]
- if !ok {
- path, ok = fieldPaths[strings.ToLower(name)]
- }
- return path, ok
- }
- func forEachField(t reflect.Type, path []int, do func(name string, path []int)) {
- n := t.NumField()
- for i := 0; i < n; i++ {
- f := t.Field(i)
- if !f.Anonymous && f.PkgPath != "" {
- // only consider exported fields.
- continue
- }
- fieldPath := append(path, i)
- fieldPath = fieldPath[:len(fieldPath):len(fieldPath)]
- name := f.Tag.Get("toml")
- if name == "-" {
- continue
- }
- if i := strings.IndexByte(name, ','); i >= 0 {
- name = name[:i]
- }
- if f.Anonymous && name == "" {
- forEachField(f.Type, fieldPath, do)
- continue
- }
- if name == "" {
- name = f.Name
- }
- do(name, fieldPath)
- }
- }
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