mirror of
https://github.com/gohugoio/hugo.git
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094135ff96
Updates #10691
686 lines
18 KiB
Go
686 lines
18 KiB
Go
// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package parse
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import (
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"fmt"
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"strings"
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"unicode"
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"unicode/utf8"
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)
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// item represents a token or text string returned from the scanner.
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type item struct {
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typ itemType // The type of this item.
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pos Pos // The starting position, in bytes, of this item in the input string.
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val string // The value of this item.
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line int // The line number at the start of this item.
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}
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func (i item) String() string {
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switch {
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case i.typ == itemEOF:
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return "EOF"
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case i.typ == itemError:
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return i.val
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case i.typ > itemKeyword:
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return fmt.Sprintf("<%s>", i.val)
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case len(i.val) > 10:
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return fmt.Sprintf("%.10q...", i.val)
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}
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return fmt.Sprintf("%q", i.val)
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}
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// itemType identifies the type of lex items.
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type itemType int
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const (
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itemError itemType = iota // error occurred; value is text of error
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itemBool // boolean constant
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itemChar // printable ASCII character; grab bag for comma etc.
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itemCharConstant // character constant
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itemComment // comment text
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itemComplex // complex constant (1+2i); imaginary is just a number
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itemAssign // equals ('=') introducing an assignment
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itemDeclare // colon-equals (':=') introducing a declaration
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itemEOF
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itemField // alphanumeric identifier starting with '.'
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itemIdentifier // alphanumeric identifier not starting with '.'
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itemLeftDelim // left action delimiter
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itemLeftParen // '(' inside action
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itemNumber // simple number, including imaginary
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itemPipe // pipe symbol
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itemRawString // raw quoted string (includes quotes)
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itemRightDelim // right action delimiter
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itemRightParen // ')' inside action
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itemSpace // run of spaces separating arguments
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itemString // quoted string (includes quotes)
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itemText // plain text
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itemVariable // variable starting with '$', such as '$' or '$1' or '$hello'
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// Keywords appear after all the rest.
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itemKeyword // used only to delimit the keywords
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itemBlock // block keyword
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itemBreak // break keyword
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itemContinue // continue keyword
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itemDot // the cursor, spelled '.'
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itemDefine // define keyword
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itemElse // else keyword
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itemEnd // end keyword
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itemIf // if keyword
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itemNil // the untyped nil constant, easiest to treat as a keyword
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itemRange // range keyword
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itemTemplate // template keyword
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itemWith // with keyword
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)
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var key = map[string]itemType{
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".": itemDot,
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"block": itemBlock,
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"break": itemBreak,
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"continue": itemContinue,
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"define": itemDefine,
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"else": itemElse,
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"end": itemEnd,
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"if": itemIf,
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"range": itemRange,
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"nil": itemNil,
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"template": itemTemplate,
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"with": itemWith,
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}
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const eof = -1
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// Trimming spaces.
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// If the action begins "{{- " rather than "{{", then all space/tab/newlines
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// preceding the action are trimmed; conversely if it ends " -}}" the
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// leading spaces are trimmed. This is done entirely in the lexer; the
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// parser never sees it happen. We require an ASCII space (' ', \t, \r, \n)
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// to be present to avoid ambiguity with things like "{{-3}}". It reads
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// better with the space present anyway. For simplicity, only ASCII
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// does the job.
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const (
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spaceChars = " \t\r\n" // These are the space characters defined by Go itself.
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trimMarker = '-' // Attached to left/right delimiter, trims trailing spaces from preceding/following text.
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trimMarkerLen = Pos(1 + 1) // marker plus space before or after
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)
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// stateFn represents the state of the scanner as a function that returns the next state.
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type stateFn func(*lexer) stateFn
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// lexer holds the state of the scanner.
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type lexer struct {
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name string // the name of the input; used only for error reports
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input string // the string being scanned
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leftDelim string // start of action marker
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rightDelim string // end of action marker
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pos Pos // current position in the input
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start Pos // start position of this item
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atEOF bool // we have hit the end of input and returned eof
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parenDepth int // nesting depth of ( ) exprs
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line int // 1+number of newlines seen
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startLine int // start line of this item
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item item // item to return to parser
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insideAction bool // are we inside an action?
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options lexOptions
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}
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// lexOptions control behavior of the lexer. All default to false.
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type lexOptions struct {
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emitComment bool // emit itemComment tokens.
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breakOK bool // break keyword allowed
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continueOK bool // continue keyword allowed
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}
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// next returns the next rune in the input.
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func (l *lexer) next() rune {
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if int(l.pos) >= len(l.input) {
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l.atEOF = true
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return eof
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}
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r, w := utf8.DecodeRuneInString(l.input[l.pos:])
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l.pos += Pos(w)
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if r == '\n' {
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l.line++
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}
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return r
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}
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// peek returns but does not consume the next rune in the input.
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func (l *lexer) peek() rune {
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r := l.next()
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l.backup()
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return r
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}
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// backup steps back one rune.
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func (l *lexer) backup() {
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if !l.atEOF && l.pos > 0 {
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r, w := utf8.DecodeLastRuneInString(l.input[:l.pos])
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l.pos -= Pos(w)
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// Correct newline count.
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if r == '\n' {
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l.line--
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}
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}
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}
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// thisItem returns the item at the current input point with the specified type
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// and advances the input.
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func (l *lexer) thisItem(t itemType) item {
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i := item{t, l.start, l.input[l.start:l.pos], l.startLine}
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l.start = l.pos
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l.startLine = l.line
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return i
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}
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// emit passes the trailing text as an item back to the parser.
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func (l *lexer) emit(t itemType) stateFn {
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return l.emitItem(l.thisItem(t))
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}
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// emitItem passes the specified item to the parser.
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func (l *lexer) emitItem(i item) stateFn {
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l.item = i
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return nil
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}
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// ignore skips over the pending input before this point.
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// It tracks newlines in the ignored text, so use it only
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// for text that is skipped without calling l.next.
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func (l *lexer) ignore() {
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l.line += strings.Count(l.input[l.start:l.pos], "\n")
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l.start = l.pos
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l.startLine = l.line
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}
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// accept consumes the next rune if it's from the valid set.
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func (l *lexer) accept(valid string) bool {
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if strings.ContainsRune(valid, l.next()) {
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return true
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}
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l.backup()
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return false
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}
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// acceptRun consumes a run of runes from the valid set.
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func (l *lexer) acceptRun(valid string) {
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for strings.ContainsRune(valid, l.next()) {
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}
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l.backup()
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}
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// errorf returns an error token and terminates the scan by passing
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// back a nil pointer that will be the next state, terminating l.nextItem.
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func (l *lexer) errorf(format string, args ...any) stateFn {
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l.item = item{itemError, l.start, fmt.Sprintf(format, args...), l.startLine}
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l.start = 0
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l.pos = 0
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l.input = l.input[:0]
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return nil
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}
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// nextItem returns the next item from the input.
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// Called by the parser, not in the lexing goroutine.
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func (l *lexer) nextItem() item {
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l.item = item{itemEOF, l.pos, "EOF", l.startLine}
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state := lexText
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if l.insideAction {
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state = lexInsideAction
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}
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for {
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state = state(l)
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if state == nil {
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return l.item
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}
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}
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}
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// lex creates a new scanner for the input string.
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func lex(name, input, left, right string) *lexer {
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if left == "" {
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left = leftDelim
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}
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if right == "" {
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right = rightDelim
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}
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l := &lexer{
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name: name,
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input: input,
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leftDelim: left,
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rightDelim: right,
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line: 1,
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startLine: 1,
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insideAction: false,
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}
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return l
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}
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// state functions
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const (
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leftDelim = "{{"
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rightDelim = "}}"
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leftComment = "/*"
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rightComment = "*/"
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)
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// lexText scans until an opening action delimiter, "{{".
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func lexText(l *lexer) stateFn {
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if x := strings.Index(l.input[l.pos:], l.leftDelim); x >= 0 {
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if x > 0 {
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l.pos += Pos(x)
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// Do we trim any trailing space?
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trimLength := Pos(0)
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delimEnd := l.pos + Pos(len(l.leftDelim))
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if hasLeftTrimMarker(l.input[delimEnd:]) {
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trimLength = rightTrimLength(l.input[l.start:l.pos])
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}
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l.pos -= trimLength
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l.line += strings.Count(l.input[l.start:l.pos], "\n")
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i := l.thisItem(itemText)
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l.pos += trimLength
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l.ignore()
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if len(i.val) > 0 {
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return l.emitItem(i)
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}
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}
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return lexLeftDelim
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}
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l.pos = Pos(len(l.input))
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// Correctly reached EOF.
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if l.pos > l.start {
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l.line += strings.Count(l.input[l.start:l.pos], "\n")
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return l.emit(itemText)
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}
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return l.emit(itemEOF)
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}
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// rightTrimLength returns the length of the spaces at the end of the string.
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func rightTrimLength(s string) Pos {
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return Pos(len(s) - len(strings.TrimRight(s, spaceChars)))
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}
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// atRightDelim reports whether the lexer is at a right delimiter, possibly preceded by a trim marker.
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func (l *lexer) atRightDelim() (delim, trimSpaces bool) {
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if hasRightTrimMarker(l.input[l.pos:]) && strings.HasPrefix(l.input[l.pos+trimMarkerLen:], l.rightDelim) { // With trim marker.
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return true, true
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}
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if strings.HasPrefix(l.input[l.pos:], l.rightDelim) { // Without trim marker.
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return true, false
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}
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return false, false
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}
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// leftTrimLength returns the length of the spaces at the beginning of the string.
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func leftTrimLength(s string) Pos {
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return Pos(len(s) - len(strings.TrimLeft(s, spaceChars)))
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}
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// lexLeftDelim scans the left delimiter, which is known to be present, possibly with a trim marker.
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// (The text to be trimmed has already been emitted.)
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func lexLeftDelim(l *lexer) stateFn {
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l.pos += Pos(len(l.leftDelim))
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trimSpace := hasLeftTrimMarker(l.input[l.pos:])
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afterMarker := Pos(0)
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if trimSpace {
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afterMarker = trimMarkerLen
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}
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if strings.HasPrefix(l.input[l.pos+afterMarker:], leftComment) {
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l.pos += afterMarker
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l.ignore()
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return lexComment
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}
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i := l.thisItem(itemLeftDelim)
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l.insideAction = true
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l.pos += afterMarker
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l.ignore()
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l.parenDepth = 0
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return l.emitItem(i)
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}
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// lexComment scans a comment. The left comment marker is known to be present.
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func lexComment(l *lexer) stateFn {
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l.pos += Pos(len(leftComment))
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x := strings.Index(l.input[l.pos:], rightComment)
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if x < 0 {
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return l.errorf("unclosed comment")
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}
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l.pos += Pos(x + len(rightComment))
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delim, trimSpace := l.atRightDelim()
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if !delim {
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return l.errorf("comment ends before closing delimiter")
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}
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i := l.thisItem(itemComment)
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if trimSpace {
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l.pos += trimMarkerLen
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}
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l.pos += Pos(len(l.rightDelim))
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if trimSpace {
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l.pos += leftTrimLength(l.input[l.pos:])
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}
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l.ignore()
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if l.options.emitComment {
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return l.emitItem(i)
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}
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return lexText
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}
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// lexRightDelim scans the right delimiter, which is known to be present, possibly with a trim marker.
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func lexRightDelim(l *lexer) stateFn {
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_, trimSpace := l.atRightDelim()
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if trimSpace {
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l.pos += trimMarkerLen
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l.ignore()
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}
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l.pos += Pos(len(l.rightDelim))
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i := l.thisItem(itemRightDelim)
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if trimSpace {
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l.pos += leftTrimLength(l.input[l.pos:])
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l.ignore()
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}
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l.insideAction = false
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return l.emitItem(i)
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}
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// lexInsideAction scans the elements inside action delimiters.
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func lexInsideAction(l *lexer) stateFn {
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// Either number, quoted string, or identifier.
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// Spaces separate arguments; runs of spaces turn into itemSpace.
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// Pipe symbols separate and are emitted.
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delim, _ := l.atRightDelim()
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if delim {
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if l.parenDepth == 0 {
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return lexRightDelim
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}
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return l.errorf("unclosed left paren")
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}
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switch r := l.next(); {
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case r == eof:
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return l.errorf("unclosed action")
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case isSpace(r):
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l.backup() // Put space back in case we have " -}}".
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return lexSpace
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case r == '=':
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return l.emit(itemAssign)
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case r == ':':
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if l.next() != '=' {
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return l.errorf("expected :=")
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}
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return l.emit(itemDeclare)
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case r == '|':
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return l.emit(itemPipe)
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case r == '"':
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return lexQuote
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case r == '`':
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return lexRawQuote
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case r == '$':
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return lexVariable
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case r == '\'':
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return lexChar
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case r == '.':
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// special look-ahead for ".field" so we don't break l.backup().
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if l.pos < Pos(len(l.input)) {
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r := l.input[l.pos]
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if r < '0' || '9' < r {
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return lexField
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}
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}
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fallthrough // '.' can start a number.
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case r == '+' || r == '-' || ('0' <= r && r <= '9'):
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l.backup()
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return lexNumber
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case isAlphaNumeric(r):
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l.backup()
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return lexIdentifier
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case r == '(':
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l.parenDepth++
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return l.emit(itemLeftParen)
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case r == ')':
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l.parenDepth--
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if l.parenDepth < 0 {
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return l.errorf("unexpected right paren")
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}
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return l.emit(itemRightParen)
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case r <= unicode.MaxASCII && unicode.IsPrint(r):
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return l.emit(itemChar)
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default:
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return l.errorf("unrecognized character in action: %#U", r)
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}
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}
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// lexSpace scans a run of space characters.
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// We have not consumed the first space, which is known to be present.
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// Take care if there is a trim-marked right delimiter, which starts with a space.
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func lexSpace(l *lexer) stateFn {
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var r rune
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var numSpaces int
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for {
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r = l.peek()
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if !isSpace(r) {
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break
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}
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l.next()
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numSpaces++
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}
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// Be careful about a trim-marked closing delimiter, which has a minus
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// after a space. We know there is a space, so check for the '-' that might follow.
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if hasRightTrimMarker(l.input[l.pos-1:]) && strings.HasPrefix(l.input[l.pos-1+trimMarkerLen:], l.rightDelim) {
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l.backup() // Before the space.
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if numSpaces == 1 {
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return lexRightDelim // On the delim, so go right to that.
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}
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}
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return l.emit(itemSpace)
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}
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// lexIdentifier scans an alphanumeric.
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func lexIdentifier(l *lexer) stateFn {
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for {
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switch r := l.next(); {
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case isAlphaNumeric(r):
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// absorb.
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default:
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l.backup()
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word := l.input[l.start:l.pos]
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if !l.atTerminator() {
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return l.errorf("bad character %#U", r)
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}
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switch {
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case key[word] > itemKeyword:
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item := key[word]
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if item == itemBreak && !l.options.breakOK || item == itemContinue && !l.options.continueOK {
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return l.emit(itemIdentifier)
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}
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return l.emit(item)
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case word[0] == '.':
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return l.emit(itemField)
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case word == "true", word == "false":
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return l.emit(itemBool)
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default:
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return l.emit(itemIdentifier)
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}
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}
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}
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}
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// lexField scans a field: .Alphanumeric.
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// The . has been scanned.
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func lexField(l *lexer) stateFn {
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return lexFieldOrVariable(l, itemField)
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}
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// lexVariable scans a Variable: $Alphanumeric.
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// The $ has been scanned.
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func lexVariable(l *lexer) stateFn {
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if l.atTerminator() { // Nothing interesting follows -> "$".
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return l.emit(itemVariable)
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}
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return lexFieldOrVariable(l, itemVariable)
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}
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// lexFieldOrVariable scans a field or variable: [.$]Alphanumeric.
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// The . or $ has been scanned.
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func lexFieldOrVariable(l *lexer, typ itemType) stateFn {
|
|
if l.atTerminator() { // Nothing interesting follows -> "." or "$".
|
|
if typ == itemVariable {
|
|
return l.emit(itemVariable)
|
|
}
|
|
return l.emit(itemDot)
|
|
}
|
|
var r rune
|
|
for {
|
|
r = l.next()
|
|
if !isAlphaNumeric(r) {
|
|
l.backup()
|
|
break
|
|
}
|
|
}
|
|
if !l.atTerminator() {
|
|
return l.errorf("bad character %#U", r)
|
|
}
|
|
return l.emit(typ)
|
|
}
|
|
|
|
// atTerminator reports whether the input is at valid termination character to
|
|
// appear after an identifier. Breaks .X.Y into two pieces. Also catches cases
|
|
// like "$x+2" not being acceptable without a space, in case we decide one
|
|
// day to implement arithmetic.
|
|
func (l *lexer) atTerminator() bool {
|
|
r := l.peek()
|
|
if isSpace(r) {
|
|
return true
|
|
}
|
|
switch r {
|
|
case eof, '.', ',', '|', ':', ')', '(':
|
|
return true
|
|
}
|
|
return strings.HasPrefix(l.input[l.pos:], l.rightDelim)
|
|
}
|
|
|
|
// lexChar scans a character constant. The initial quote is already
|
|
// scanned. Syntax checking is done by the parser.
|
|
func lexChar(l *lexer) stateFn {
|
|
Loop:
|
|
for {
|
|
switch l.next() {
|
|
case '\\':
|
|
if r := l.next(); r != eof && r != '\n' {
|
|
break
|
|
}
|
|
fallthrough
|
|
case eof, '\n':
|
|
return l.errorf("unterminated character constant")
|
|
case '\'':
|
|
break Loop
|
|
}
|
|
}
|
|
return l.emit(itemCharConstant)
|
|
}
|
|
|
|
// lexNumber scans a number: decimal, octal, hex, float, or imaginary. This
|
|
// isn't a perfect number scanner - for instance it accepts "." and "0x0.2"
|
|
// and "089" - but when it's wrong the input is invalid and the parser (via
|
|
// strconv) will notice.
|
|
func lexNumber(l *lexer) stateFn {
|
|
if !l.scanNumber() {
|
|
return l.errorf("bad number syntax: %q", l.input[l.start:l.pos])
|
|
}
|
|
if sign := l.peek(); sign == '+' || sign == '-' {
|
|
// Complex: 1+2i. No spaces, must end in 'i'.
|
|
if !l.scanNumber() || l.input[l.pos-1] != 'i' {
|
|
return l.errorf("bad number syntax: %q", l.input[l.start:l.pos])
|
|
}
|
|
return l.emit(itemComplex)
|
|
}
|
|
return l.emit(itemNumber)
|
|
}
|
|
|
|
func (l *lexer) scanNumber() bool {
|
|
// Optional leading sign.
|
|
l.accept("+-")
|
|
// Is it hex?
|
|
digits := "0123456789_"
|
|
if l.accept("0") {
|
|
// Note: Leading 0 does not mean octal in floats.
|
|
if l.accept("xX") {
|
|
digits = "0123456789abcdefABCDEF_"
|
|
} else if l.accept("oO") {
|
|
digits = "01234567_"
|
|
} else if l.accept("bB") {
|
|
digits = "01_"
|
|
}
|
|
}
|
|
l.acceptRun(digits)
|
|
if l.accept(".") {
|
|
l.acceptRun(digits)
|
|
}
|
|
if len(digits) == 10+1 && l.accept("eE") {
|
|
l.accept("+-")
|
|
l.acceptRun("0123456789_")
|
|
}
|
|
if len(digits) == 16+6+1 && l.accept("pP") {
|
|
l.accept("+-")
|
|
l.acceptRun("0123456789_")
|
|
}
|
|
// Is it imaginary?
|
|
l.accept("i")
|
|
// Next thing mustn't be alphanumeric.
|
|
if isAlphaNumeric(l.peek()) {
|
|
l.next()
|
|
return false
|
|
}
|
|
return true
|
|
}
|
|
|
|
// lexQuote scans a quoted string.
|
|
func lexQuote(l *lexer) stateFn {
|
|
Loop:
|
|
for {
|
|
switch l.next() {
|
|
case '\\':
|
|
if r := l.next(); r != eof && r != '\n' {
|
|
break
|
|
}
|
|
fallthrough
|
|
case eof, '\n':
|
|
return l.errorf("unterminated quoted string")
|
|
case '"':
|
|
break Loop
|
|
}
|
|
}
|
|
return l.emit(itemString)
|
|
}
|
|
|
|
// lexRawQuote scans a raw quoted string.
|
|
func lexRawQuote(l *lexer) stateFn {
|
|
Loop:
|
|
for {
|
|
switch l.next() {
|
|
case eof:
|
|
return l.errorf("unterminated raw quoted string")
|
|
case '`':
|
|
break Loop
|
|
}
|
|
}
|
|
return l.emit(itemRawString)
|
|
}
|
|
|
|
// isSpace reports whether r is a space character.
|
|
func isSpace(r rune) bool {
|
|
return r == ' ' || r == '\t' || r == '\r' || r == '\n'
|
|
}
|
|
|
|
// isAlphaNumeric reports whether r is an alphabetic, digit, or underscore.
|
|
func isAlphaNumeric(r rune) bool {
|
|
return r == '_' || unicode.IsLetter(r) || unicode.IsDigit(r)
|
|
}
|
|
|
|
func hasLeftTrimMarker(s string) bool {
|
|
return len(s) >= 2 && s[0] == trimMarker && isSpace(rune(s[1]))
|
|
}
|
|
|
|
func hasRightTrimMarker(s string) bool {
|
|
return len(s) >= 2 && isSpace(rune(s[0])) && s[1] == trimMarker
|
|
}
|