matterbridge/vendor/github.com/graph-gophers/graphql-go/internal/common/lexer.go

package common

import (
	"bytes"
	"fmt"
	"strconv"
	"strings"
	"text/scanner"

	"github.com/graph-gophers/graphql-go/errors"
	"github.com/graph-gophers/graphql-go/types"
)

type syntaxError string

type Lexer struct {
	sc                    *scanner.Scanner
	next                  rune
	comment               bytes.Buffer
	useStringDescriptions bool
}

type Ident struct {
	Name string
	Loc  errors.Location
}

func NewLexer(s string, useStringDescriptions bool) *Lexer {
	sc := &scanner.Scanner{
		Mode: scanner.ScanIdents | scanner.ScanInts | scanner.ScanFloats | scanner.ScanStrings,
	}
	sc.Init(strings.NewReader(s))

	l := Lexer{sc: sc, useStringDescriptions: useStringDescriptions}
	l.sc.Error = l.CatchScannerError

	return &l
}

func (l *Lexer) CatchSyntaxError(f func()) (errRes *errors.QueryError) {
	defer func() {
		if err := recover(); err != nil {
			if err, ok := err.(syntaxError); ok {
				errRes = errors.Errorf("syntax error: %s", err)
				errRes.Locations = []errors.Location{l.Location()}
				return
			}
			panic(err)
		}
	}()

	f()
	return
}

func (l *Lexer) Peek() rune {
	return l.next
}

// ConsumeWhitespace consumes whitespace and tokens equivalent to whitespace (e.g. commas and comments).
//
// Consumed comment characters will build the description for the next type or field encountered.
// The description is available from `DescComment()`, and will be reset every time `ConsumeWhitespace()` is
// executed unless l.useStringDescriptions is set.
func (l *Lexer) ConsumeWhitespace() {
	l.comment.Reset()
	for {
		l.next = l.sc.Scan()

		if l.next == ',' {
			// Similar to white space and line terminators, commas (',') are used to improve the
			// legibility of source text and separate lexical tokens but are otherwise syntactically and
			// semantically insignificant within GraphQL documents.
			//
			// http://facebook.github.io/graphql/draft/#sec-Insignificant-Commas
			continue
		}

		if l.next == '#' {
			// GraphQL source documents may contain single-line comments, starting with the '#' marker.
			//
			// A comment can contain any Unicode code point except `LineTerminator` so a comment always
			// consists of all code points starting with the '#' character up to but not including the
			// line terminator.
			l.consumeComment()
			continue
		}

		break
	}
}

// consumeDescription optionally consumes a description based on the June 2018 graphql spec if any are present.
//
// Single quote strings are also single line. Triple quote strings can be multi-line. Triple quote strings
// whitespace trimmed on both ends.
// If a description is found, consume any following comments as well
//
// http://facebook.github.io/graphql/June2018/#sec-Descriptions
func (l *Lexer) consumeDescription() string {
	// If the next token is not a string, we don't consume it
	if l.next != scanner.String {
		return ""
	}
	// Triple quote string is an empty "string" followed by an open quote due to the way the parser treats strings as one token
	var desc string
	if l.sc.Peek() == '"' {
		desc = l.consumeTripleQuoteComment()
	} else {
		desc = l.consumeStringComment()
	}
	l.ConsumeWhitespace()
	return desc
}

func (l *Lexer) ConsumeIdent() string {
	name := l.sc.TokenText()
	l.ConsumeToken(scanner.Ident)
	return name
}

func (l *Lexer) ConsumeIdentWithLoc() types.Ident {
	loc := l.Location()
	name := l.sc.TokenText()
	l.ConsumeToken(scanner.Ident)
	return types.Ident{Name: name, Loc: loc}
}

func (l *Lexer) ConsumeKeyword(keyword string) {
	if l.next != scanner.Ident || l.sc.TokenText() != keyword {
		l.SyntaxError(fmt.Sprintf("unexpected %q, expecting %q", l.sc.TokenText(), keyword))
	}
	l.ConsumeWhitespace()
}

func (l *Lexer) ConsumeLiteral() *types.PrimitiveValue {
	lit := &types.PrimitiveValue{Type: l.next, Text: l.sc.TokenText()}
	l.ConsumeWhitespace()
	return lit
}

func (l *Lexer) ConsumeToken(expected rune) {
	if l.next != expected {
		l.SyntaxError(fmt.Sprintf("unexpected %q, expecting %s", l.sc.TokenText(), scanner.TokenString(expected)))
	}
	l.ConsumeWhitespace()
}

func (l *Lexer) DescComment() string {
	comment := l.comment.String()
	desc := l.consumeDescription()
	if l.useStringDescriptions {
		return desc
	}
	return comment
}

func (l *Lexer) SyntaxError(message string) {
	panic(syntaxError(message))
}

func (l *Lexer) Location() errors.Location {
	return errors.Location{
		Line:   l.sc.Line,
		Column: l.sc.Column,
	}
}

func (l *Lexer) consumeTripleQuoteComment() string {
	l.next = l.sc.Next()
	if l.next != '"' {
		panic("consumeTripleQuoteComment used in wrong context: no third quote?")
	}

	var buf bytes.Buffer
	var numQuotes int
	for {
		l.next = l.sc.Next()
		if l.next == '"' {
			numQuotes++
		} else {
			numQuotes = 0
		}
		buf.WriteRune(l.next)
		if numQuotes == 3 || l.next == scanner.EOF {
			break
		}
	}
	val := buf.String()
	val = val[:len(val)-numQuotes]
	return blockString(val)
}

func (l *Lexer) consumeStringComment() string {
	val, err := strconv.Unquote(l.sc.TokenText())
	if err != nil {
		panic(err)
	}
	return val
}

// consumeComment consumes all characters from `#` to the first encountered line terminator.
// The characters are appended to `l.comment`.
func (l *Lexer) consumeComment() {
	if l.next != '#' {
		panic("consumeComment used in wrong context")
	}

	// TODO: count and trim whitespace so we can dedent any following lines.
	if l.sc.Peek() == ' ' {
		l.sc.Next()
	}

	if l.comment.Len() > 0 {
		l.comment.WriteRune('\n')
	}

	for {
		next := l.sc.Next()
		if next == '\r' || next == '\n' || next == scanner.EOF {
			break
		}
		l.comment.WriteRune(next)
	}
}

func (l *Lexer) CatchScannerError(s *scanner.Scanner, msg string) {
	l.SyntaxError(msg)
}