mirror of
https://github.com/cwinfo/matterbridge.git
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508 lines
12 KiB
Go
508 lines
12 KiB
Go
// TOML Parser.
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package toml
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import (
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"errors"
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"fmt"
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"math"
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"reflect"
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"strconv"
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"strings"
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"time"
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)
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type tomlParser struct {
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flowIdx int
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flow []token
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tree *Tree
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currentTable []string
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seenTableKeys []string
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}
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type tomlParserStateFn func() tomlParserStateFn
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// Formats and panics an error message based on a token
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func (p *tomlParser) raiseError(tok *token, msg string, args ...interface{}) {
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panic(tok.Position.String() + ": " + fmt.Sprintf(msg, args...))
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}
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func (p *tomlParser) run() {
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for state := p.parseStart; state != nil; {
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state = state()
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}
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}
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func (p *tomlParser) peek() *token {
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if p.flowIdx >= len(p.flow) {
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return nil
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}
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return &p.flow[p.flowIdx]
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}
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func (p *tomlParser) assume(typ tokenType) {
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tok := p.getToken()
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if tok == nil {
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p.raiseError(tok, "was expecting token %s, but token stream is empty", tok)
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}
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if tok.typ != typ {
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p.raiseError(tok, "was expecting token %s, but got %s instead", typ, tok)
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}
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}
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func (p *tomlParser) getToken() *token {
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tok := p.peek()
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if tok == nil {
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return nil
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}
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p.flowIdx++
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return tok
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}
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func (p *tomlParser) parseStart() tomlParserStateFn {
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tok := p.peek()
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// end of stream, parsing is finished
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if tok == nil {
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return nil
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}
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switch tok.typ {
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case tokenDoubleLeftBracket:
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return p.parseGroupArray
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case tokenLeftBracket:
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return p.parseGroup
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case tokenKey:
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return p.parseAssign
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case tokenEOF:
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return nil
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case tokenError:
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p.raiseError(tok, "parsing error: %s", tok.String())
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default:
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p.raiseError(tok, "unexpected token %s", tok.typ)
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}
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return nil
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}
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func (p *tomlParser) parseGroupArray() tomlParserStateFn {
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startToken := p.getToken() // discard the [[
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key := p.getToken()
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if key.typ != tokenKeyGroupArray {
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p.raiseError(key, "unexpected token %s, was expecting a table array key", key)
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}
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// get or create table array element at the indicated part in the path
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keys, err := parseKey(key.val)
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if err != nil {
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p.raiseError(key, "invalid table array key: %s", err)
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}
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p.tree.createSubTree(keys[:len(keys)-1], startToken.Position) // create parent entries
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destTree := p.tree.GetPath(keys)
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var array []*Tree
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if destTree == nil {
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array = make([]*Tree, 0)
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} else if target, ok := destTree.([]*Tree); ok && target != nil {
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array = destTree.([]*Tree)
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} else {
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p.raiseError(key, "key %s is already assigned and not of type table array", key)
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}
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p.currentTable = keys
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// add a new tree to the end of the table array
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newTree := newTree()
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newTree.position = startToken.Position
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array = append(array, newTree)
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p.tree.SetPath(p.currentTable, array)
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// remove all keys that were children of this table array
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prefix := key.val + "."
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found := false
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for ii := 0; ii < len(p.seenTableKeys); {
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tableKey := p.seenTableKeys[ii]
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if strings.HasPrefix(tableKey, prefix) {
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p.seenTableKeys = append(p.seenTableKeys[:ii], p.seenTableKeys[ii+1:]...)
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} else {
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found = (tableKey == key.val)
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ii++
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}
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}
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// keep this key name from use by other kinds of assignments
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if !found {
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p.seenTableKeys = append(p.seenTableKeys, key.val)
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}
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// move to next parser state
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p.assume(tokenDoubleRightBracket)
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return p.parseStart
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}
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func (p *tomlParser) parseGroup() tomlParserStateFn {
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startToken := p.getToken() // discard the [
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key := p.getToken()
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if key.typ != tokenKeyGroup {
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p.raiseError(key, "unexpected token %s, was expecting a table key", key)
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}
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for _, item := range p.seenTableKeys {
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if item == key.val {
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p.raiseError(key, "duplicated tables")
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}
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}
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p.seenTableKeys = append(p.seenTableKeys, key.val)
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keys, err := parseKey(key.val)
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if err != nil {
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p.raiseError(key, "invalid table array key: %s", err)
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}
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if err := p.tree.createSubTree(keys, startToken.Position); err != nil {
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p.raiseError(key, "%s", err)
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}
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destTree := p.tree.GetPath(keys)
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if target, ok := destTree.(*Tree); ok && target != nil && target.inline {
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p.raiseError(key, "could not re-define exist inline table or its sub-table : %s",
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strings.Join(keys, "."))
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}
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p.assume(tokenRightBracket)
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p.currentTable = keys
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return p.parseStart
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}
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func (p *tomlParser) parseAssign() tomlParserStateFn {
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key := p.getToken()
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p.assume(tokenEqual)
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parsedKey, err := parseKey(key.val)
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if err != nil {
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p.raiseError(key, "invalid key: %s", err.Error())
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}
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value := p.parseRvalue()
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var tableKey []string
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if len(p.currentTable) > 0 {
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tableKey = p.currentTable
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} else {
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tableKey = []string{}
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}
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prefixKey := parsedKey[0 : len(parsedKey)-1]
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tableKey = append(tableKey, prefixKey...)
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// find the table to assign, looking out for arrays of tables
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var targetNode *Tree
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switch node := p.tree.GetPath(tableKey).(type) {
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case []*Tree:
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targetNode = node[len(node)-1]
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case *Tree:
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targetNode = node
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case nil:
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// create intermediate
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if err := p.tree.createSubTree(tableKey, key.Position); err != nil {
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p.raiseError(key, "could not create intermediate group: %s", err)
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}
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targetNode = p.tree.GetPath(tableKey).(*Tree)
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default:
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p.raiseError(key, "Unknown table type for path: %s",
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strings.Join(tableKey, "."))
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}
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if targetNode.inline {
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p.raiseError(key, "could not add key or sub-table to exist inline table or its sub-table : %s",
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strings.Join(tableKey, "."))
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}
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// assign value to the found table
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keyVal := parsedKey[len(parsedKey)-1]
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localKey := []string{keyVal}
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finalKey := append(tableKey, keyVal)
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if targetNode.GetPath(localKey) != nil {
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p.raiseError(key, "The following key was defined twice: %s",
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strings.Join(finalKey, "."))
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}
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var toInsert interface{}
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switch value.(type) {
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case *Tree, []*Tree:
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toInsert = value
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default:
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toInsert = &tomlValue{value: value, position: key.Position}
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}
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targetNode.values[keyVal] = toInsert
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return p.parseStart
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}
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var errInvalidUnderscore = errors.New("invalid use of _ in number")
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func numberContainsInvalidUnderscore(value string) error {
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// For large numbers, you may use underscores between digits to enhance
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// readability. Each underscore must be surrounded by at least one digit on
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// each side.
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hasBefore := false
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for idx, r := range value {
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if r == '_' {
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if !hasBefore || idx+1 >= len(value) {
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// can't end with an underscore
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return errInvalidUnderscore
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}
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}
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hasBefore = isDigit(r)
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}
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return nil
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}
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var errInvalidUnderscoreHex = errors.New("invalid use of _ in hex number")
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func hexNumberContainsInvalidUnderscore(value string) error {
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hasBefore := false
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for idx, r := range value {
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if r == '_' {
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if !hasBefore || idx+1 >= len(value) {
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// can't end with an underscore
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return errInvalidUnderscoreHex
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}
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}
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hasBefore = isHexDigit(r)
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}
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return nil
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}
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func cleanupNumberToken(value string) string {
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cleanedVal := strings.Replace(value, "_", "", -1)
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return cleanedVal
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}
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func (p *tomlParser) parseRvalue() interface{} {
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tok := p.getToken()
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if tok == nil || tok.typ == tokenEOF {
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p.raiseError(tok, "expecting a value")
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}
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switch tok.typ {
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case tokenString:
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return tok.val
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case tokenTrue:
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return true
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case tokenFalse:
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return false
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case tokenInf:
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if tok.val[0] == '-' {
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return math.Inf(-1)
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}
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return math.Inf(1)
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case tokenNan:
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return math.NaN()
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case tokenInteger:
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cleanedVal := cleanupNumberToken(tok.val)
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base := 10
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s := cleanedVal
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checkInvalidUnderscore := numberContainsInvalidUnderscore
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if len(cleanedVal) >= 3 && cleanedVal[0] == '0' {
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switch cleanedVal[1] {
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case 'x':
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checkInvalidUnderscore = hexNumberContainsInvalidUnderscore
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base = 16
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case 'o':
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base = 8
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case 'b':
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base = 2
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default:
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panic("invalid base") // the lexer should catch this first
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}
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s = cleanedVal[2:]
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}
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err := checkInvalidUnderscore(tok.val)
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if err != nil {
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p.raiseError(tok, "%s", err)
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}
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var val interface{}
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val, err = strconv.ParseInt(s, base, 64)
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if err == nil {
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return val
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}
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if s[0] != '-' {
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if val, err = strconv.ParseUint(s, base, 64); err == nil {
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return val
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}
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}
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p.raiseError(tok, "%s", err)
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case tokenFloat:
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err := numberContainsInvalidUnderscore(tok.val)
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if err != nil {
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p.raiseError(tok, "%s", err)
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}
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cleanedVal := cleanupNumberToken(tok.val)
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val, err := strconv.ParseFloat(cleanedVal, 64)
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if err != nil {
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p.raiseError(tok, "%s", err)
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}
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return val
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case tokenLocalTime:
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val, err := ParseLocalTime(tok.val)
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if err != nil {
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p.raiseError(tok, "%s", err)
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}
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return val
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case tokenLocalDate:
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// a local date may be followed by:
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// * nothing: this is a local date
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// * a local time: this is a local date-time
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next := p.peek()
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if next == nil || next.typ != tokenLocalTime {
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val, err := ParseLocalDate(tok.val)
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if err != nil {
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p.raiseError(tok, "%s", err)
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}
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return val
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}
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localDate := tok
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localTime := p.getToken()
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next = p.peek()
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if next == nil || next.typ != tokenTimeOffset {
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v := localDate.val + "T" + localTime.val
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val, err := ParseLocalDateTime(v)
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if err != nil {
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p.raiseError(tok, "%s", err)
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}
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return val
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}
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offset := p.getToken()
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layout := time.RFC3339Nano
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v := localDate.val + "T" + localTime.val + offset.val
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val, err := time.ParseInLocation(layout, v, time.UTC)
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if err != nil {
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p.raiseError(tok, "%s", err)
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}
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return val
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case tokenLeftBracket:
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return p.parseArray()
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case tokenLeftCurlyBrace:
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return p.parseInlineTable()
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case tokenEqual:
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p.raiseError(tok, "cannot have multiple equals for the same key")
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case tokenError:
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p.raiseError(tok, "%s", tok)
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default:
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panic(fmt.Errorf("unhandled token: %v", tok))
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}
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return nil
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}
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func tokenIsComma(t *token) bool {
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return t != nil && t.typ == tokenComma
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}
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func (p *tomlParser) parseInlineTable() *Tree {
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tree := newTree()
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var previous *token
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Loop:
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for {
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follow := p.peek()
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if follow == nil || follow.typ == tokenEOF {
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p.raiseError(follow, "unterminated inline table")
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}
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switch follow.typ {
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case tokenRightCurlyBrace:
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p.getToken()
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break Loop
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case tokenKey, tokenInteger, tokenString:
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if !tokenIsComma(previous) && previous != nil {
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p.raiseError(follow, "comma expected between fields in inline table")
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}
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key := p.getToken()
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p.assume(tokenEqual)
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parsedKey, err := parseKey(key.val)
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if err != nil {
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p.raiseError(key, "invalid key: %s", err)
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}
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value := p.parseRvalue()
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tree.SetPath(parsedKey, value)
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case tokenComma:
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if tokenIsComma(previous) {
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p.raiseError(follow, "need field between two commas in inline table")
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}
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p.getToken()
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default:
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p.raiseError(follow, "unexpected token type in inline table: %s", follow.String())
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}
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previous = follow
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}
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if tokenIsComma(previous) {
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p.raiseError(previous, "trailing comma at the end of inline table")
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}
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tree.inline = true
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return tree
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}
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func (p *tomlParser) parseArray() interface{} {
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var array []interface{}
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arrayType := reflect.TypeOf(newTree())
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for {
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follow := p.peek()
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if follow == nil || follow.typ == tokenEOF {
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p.raiseError(follow, "unterminated array")
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}
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if follow.typ == tokenRightBracket {
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p.getToken()
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break
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}
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val := p.parseRvalue()
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if reflect.TypeOf(val) != arrayType {
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arrayType = nil
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}
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array = append(array, val)
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follow = p.peek()
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if follow == nil || follow.typ == tokenEOF {
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p.raiseError(follow, "unterminated array")
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}
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if follow.typ != tokenRightBracket && follow.typ != tokenComma {
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p.raiseError(follow, "missing comma")
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}
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if follow.typ == tokenComma {
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p.getToken()
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}
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}
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// if the array is a mixed-type array or its length is 0,
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// don't convert it to a table array
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if len(array) <= 0 {
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arrayType = nil
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}
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// An array of Trees is actually an array of inline
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// tables, which is a shorthand for a table array. If the
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// array was not converted from []interface{} to []*Tree,
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// the two notations would not be equivalent.
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if arrayType == reflect.TypeOf(newTree()) {
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tomlArray := make([]*Tree, len(array))
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for i, v := range array {
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tomlArray[i] = v.(*Tree)
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}
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return tomlArray
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}
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return array
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}
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func parseToml(flow []token) *Tree {
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result := newTree()
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result.position = Position{1, 1}
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parser := &tomlParser{
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flowIdx: 0,
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flow: flow,
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tree: result,
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currentTable: make([]string, 0),
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seenTableKeys: make([]string, 0),
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}
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parser.run()
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return result
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}
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