mirror of
https://github.com/NotAShelf/catApi.git
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357 lines
7.8 KiB
Go
357 lines
7.8 KiB
Go
package tracker
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import (
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"bytes"
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"fmt"
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"sync"
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"github.com/pelletier/go-toml/v2/unstable"
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)
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type keyKind uint8
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const (
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invalidKind keyKind = iota
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valueKind
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tableKind
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arrayTableKind
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)
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func (k keyKind) String() string {
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switch k {
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case invalidKind:
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return "invalid"
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case valueKind:
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return "value"
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case tableKind:
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return "table"
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case arrayTableKind:
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return "array table"
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}
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panic("missing keyKind string mapping")
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}
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// SeenTracker tracks which keys have been seen with which TOML type to flag
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// duplicates and mismatches according to the spec.
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//
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// Each node in the visited tree is represented by an entry. Each entry has an
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// identifier, which is provided by a counter. Entries are stored in the array
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// entries. As new nodes are discovered (referenced for the first time in the
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// TOML document), entries are created and appended to the array. An entry
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// points to its parent using its id.
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//
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// To find whether a given key (sequence of []byte) has already been visited,
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// the entries are linearly searched, looking for one with the right name and
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// parent id.
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//
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// Given that all keys appear in the document after their parent, it is
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// guaranteed that all descendants of a node are stored after the node, this
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// speeds up the search process.
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//
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// When encountering [[array tables]], the descendants of that node are removed
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// to allow that branch of the tree to be "rediscovered". To maintain the
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// invariant above, the deletion process needs to keep the order of entries.
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// This results in more copies in that case.
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type SeenTracker struct {
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entries []entry
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currentIdx int
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}
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var pool sync.Pool
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func (s *SeenTracker) reset() {
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// Always contains a root element at index 0.
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s.currentIdx = 0
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if len(s.entries) == 0 {
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s.entries = make([]entry, 1, 2)
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} else {
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s.entries = s.entries[:1]
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}
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s.entries[0].child = -1
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s.entries[0].next = -1
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}
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type entry struct {
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// Use -1 to indicate no child or no sibling.
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child int
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next int
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name []byte
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kind keyKind
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explicit bool
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kv bool
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}
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// Find the index of the child of parentIdx with key k. Returns -1 if
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// it does not exist.
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func (s *SeenTracker) find(parentIdx int, k []byte) int {
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for i := s.entries[parentIdx].child; i >= 0; i = s.entries[i].next {
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if bytes.Equal(s.entries[i].name, k) {
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return i
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}
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}
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return -1
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}
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// Remove all descendants of node at position idx.
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func (s *SeenTracker) clear(idx int) {
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if idx >= len(s.entries) {
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return
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}
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for i := s.entries[idx].child; i >= 0; {
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next := s.entries[i].next
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n := s.entries[0].next
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s.entries[0].next = i
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s.entries[i].next = n
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s.entries[i].name = nil
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s.clear(i)
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i = next
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}
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s.entries[idx].child = -1
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}
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func (s *SeenTracker) create(parentIdx int, name []byte, kind keyKind, explicit bool, kv bool) int {
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e := entry{
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child: -1,
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next: s.entries[parentIdx].child,
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name: name,
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kind: kind,
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explicit: explicit,
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kv: kv,
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}
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var idx int
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if s.entries[0].next >= 0 {
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idx = s.entries[0].next
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s.entries[0].next = s.entries[idx].next
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s.entries[idx] = e
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} else {
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idx = len(s.entries)
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s.entries = append(s.entries, e)
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}
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s.entries[parentIdx].child = idx
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return idx
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}
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func (s *SeenTracker) setExplicitFlag(parentIdx int) {
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for i := s.entries[parentIdx].child; i >= 0; i = s.entries[i].next {
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if s.entries[i].kv {
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s.entries[i].explicit = true
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s.entries[i].kv = false
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}
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s.setExplicitFlag(i)
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}
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}
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// CheckExpression takes a top-level node and checks that it does not contain
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// keys that have been seen in previous calls, and validates that types are
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// consistent.
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func (s *SeenTracker) CheckExpression(node *unstable.Node) error {
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if s.entries == nil {
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s.reset()
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}
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switch node.Kind {
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case unstable.KeyValue:
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return s.checkKeyValue(node)
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case unstable.Table:
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return s.checkTable(node)
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case unstable.ArrayTable:
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return s.checkArrayTable(node)
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default:
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panic(fmt.Errorf("this should not be a top level node type: %s", node.Kind))
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}
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}
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func (s *SeenTracker) checkTable(node *unstable.Node) error {
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if s.currentIdx >= 0 {
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s.setExplicitFlag(s.currentIdx)
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}
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it := node.Key()
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parentIdx := 0
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// This code is duplicated in checkArrayTable. This is because factoring
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// it in a function requires to copy the iterator, or allocate it to the
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// heap, which is not cheap.
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for it.Next() {
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if it.IsLast() {
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break
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}
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k := it.Node().Data
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idx := s.find(parentIdx, k)
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if idx < 0 {
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idx = s.create(parentIdx, k, tableKind, false, false)
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} else {
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entry := s.entries[idx]
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if entry.kind == valueKind {
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return fmt.Errorf("toml: expected %s to be a table, not a %s", string(k), entry.kind)
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}
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}
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parentIdx = idx
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}
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k := it.Node().Data
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idx := s.find(parentIdx, k)
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if idx >= 0 {
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kind := s.entries[idx].kind
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if kind != tableKind {
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return fmt.Errorf("toml: key %s should be a table, not a %s", string(k), kind)
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}
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if s.entries[idx].explicit {
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return fmt.Errorf("toml: table %s already exists", string(k))
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}
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s.entries[idx].explicit = true
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} else {
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idx = s.create(parentIdx, k, tableKind, true, false)
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}
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s.currentIdx = idx
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return nil
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}
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func (s *SeenTracker) checkArrayTable(node *unstable.Node) error {
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if s.currentIdx >= 0 {
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s.setExplicitFlag(s.currentIdx)
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}
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it := node.Key()
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parentIdx := 0
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for it.Next() {
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if it.IsLast() {
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break
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}
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k := it.Node().Data
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idx := s.find(parentIdx, k)
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if idx < 0 {
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idx = s.create(parentIdx, k, tableKind, false, false)
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} else {
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entry := s.entries[idx]
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if entry.kind == valueKind {
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return fmt.Errorf("toml: expected %s to be a table, not a %s", string(k), entry.kind)
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}
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}
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parentIdx = idx
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}
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k := it.Node().Data
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idx := s.find(parentIdx, k)
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if idx >= 0 {
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kind := s.entries[idx].kind
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if kind != arrayTableKind {
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return fmt.Errorf("toml: key %s already exists as a %s, but should be an array table", kind, string(k))
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}
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s.clear(idx)
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} else {
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idx = s.create(parentIdx, k, arrayTableKind, true, false)
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}
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s.currentIdx = idx
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return nil
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}
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func (s *SeenTracker) checkKeyValue(node *unstable.Node) error {
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parentIdx := s.currentIdx
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it := node.Key()
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for it.Next() {
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k := it.Node().Data
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idx := s.find(parentIdx, k)
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if idx < 0 {
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idx = s.create(parentIdx, k, tableKind, false, true)
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} else {
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entry := s.entries[idx]
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if it.IsLast() {
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return fmt.Errorf("toml: key %s is already defined", string(k))
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} else if entry.kind != tableKind {
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return fmt.Errorf("toml: expected %s to be a table, not a %s", string(k), entry.kind)
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} else if entry.explicit {
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return fmt.Errorf("toml: cannot redefine table %s that has already been explicitly defined", string(k))
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}
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}
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parentIdx = idx
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}
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s.entries[parentIdx].kind = valueKind
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value := node.Value()
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switch value.Kind {
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case unstable.InlineTable:
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return s.checkInlineTable(value)
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case unstable.Array:
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return s.checkArray(value)
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}
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return nil
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}
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func (s *SeenTracker) checkArray(node *unstable.Node) error {
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it := node.Children()
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for it.Next() {
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n := it.Node()
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switch n.Kind {
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case unstable.InlineTable:
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err := s.checkInlineTable(n)
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if err != nil {
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return err
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}
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case unstable.Array:
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err := s.checkArray(n)
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if err != nil {
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return err
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}
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}
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}
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return nil
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}
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func (s *SeenTracker) checkInlineTable(node *unstable.Node) error {
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if pool.New == nil {
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pool.New = func() interface{} {
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return &SeenTracker{}
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}
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}
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s = pool.Get().(*SeenTracker)
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s.reset()
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it := node.Children()
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for it.Next() {
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n := it.Node()
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err := s.checkKeyValue(n)
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if err != nil {
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return err
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}
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}
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// As inline tables are self-contained, the tracker does not
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// need to retain the details of what they contain. The
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// keyValue element that creates the inline table is kept to
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// mark the presence of the inline table and prevent
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// redefinition of its keys: check* functions cannot walk into
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// a value.
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pool.Put(s)
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return nil
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}
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