mirror of
https://github.com/caddyserver/caddy.git
synced 2024-12-16 21:56:40 -05:00
487 lines
14 KiB
Go
487 lines
14 KiB
Go
// Copyright 2015 Matthew Holt and The Caddy Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package caddyfile
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import (
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"errors"
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"fmt"
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"io"
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"log"
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"strconv"
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"strings"
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)
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// Dispenser is a type that dispenses tokens, similarly to a lexer,
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// except that it can do so with some notion of structure. An empty
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// Dispenser is invalid; call NewDispenser to make a proper instance.
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type Dispenser struct {
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tokens []Token
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cursor int
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nesting int
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}
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// NewDispenser returns a Dispenser filled with the given tokens.
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func NewDispenser(tokens []Token) *Dispenser {
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return &Dispenser{
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tokens: tokens,
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cursor: -1,
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}
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}
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// NewTestDispenser parses input into tokens and creates a new
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// Dispenser for test purposes only; any errors are fatal.
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func NewTestDispenser(input string) *Dispenser {
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tokens, err := allTokens("Testfile", []byte(input))
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if err != nil && err != io.EOF {
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log.Fatalf("getting all tokens from input: %v", err)
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}
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return NewDispenser(tokens)
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}
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// Next loads the next token. Returns true if a token
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// was loaded; false otherwise. If false, all tokens
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// have been consumed.
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func (d *Dispenser) Next() bool {
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if d.cursor < len(d.tokens)-1 {
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d.cursor++
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return true
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}
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return false
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}
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// Prev moves to the previous token. It does the inverse
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// of Next(), except this function may decrement the cursor
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// to -1 so that the next call to Next() points to the
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// first token; this allows dispensing to "start over". This
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// method returns true if the cursor ends up pointing to a
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// valid token.
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func (d *Dispenser) Prev() bool {
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if d.cursor > -1 {
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d.cursor--
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return d.cursor > -1
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}
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return false
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}
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// NextArg loads the next token if it is on the same
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// line and if it is not a block opening (open curly
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// brace). Returns true if an argument token was
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// loaded; false otherwise. If false, all tokens on
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// the line have been consumed except for potentially
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// a block opening. It handles imported tokens
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// correctly.
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func (d *Dispenser) NextArg() bool {
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if !d.nextOnSameLine() {
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return false
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}
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if d.Val() == "{" {
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// roll back; a block opening is not an argument
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d.cursor--
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return false
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}
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return true
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}
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// nextOnSameLine advances the cursor if the next
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// token is on the same line of the same file.
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func (d *Dispenser) nextOnSameLine() bool {
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if d.cursor < 0 {
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d.cursor++
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return true
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}
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if d.cursor >= len(d.tokens)-1 {
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return false
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}
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curr := d.tokens[d.cursor]
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next := d.tokens[d.cursor+1]
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if !isNextOnNewLine(curr, next) {
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d.cursor++
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return true
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}
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return false
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}
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// NextLine loads the next token only if it is not on the same
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// line as the current token, and returns true if a token was
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// loaded; false otherwise. If false, there is not another token
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// or it is on the same line. It handles imported tokens correctly.
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func (d *Dispenser) NextLine() bool {
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if d.cursor < 0 {
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d.cursor++
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return true
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}
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if d.cursor >= len(d.tokens)-1 {
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return false
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}
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curr := d.tokens[d.cursor]
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next := d.tokens[d.cursor+1]
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if isNextOnNewLine(curr, next) {
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d.cursor++
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return true
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}
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return false
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}
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// NextBlock can be used as the condition of a for loop
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// to load the next token as long as it opens a block or
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// is already in a block nested more than initialNestingLevel.
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// In other words, a loop over NextBlock() will iterate
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// all tokens in the block assuming the next token is an
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// open curly brace, until the matching closing brace.
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// The open and closing brace tokens for the outer-most
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// block will be consumed internally and omitted from
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// the iteration.
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//
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// Proper use of this method looks like this:
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//
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// for nesting := d.Nesting(); d.NextBlock(nesting); {
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// }
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//
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// However, in simple cases where it is known that the
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// Dispenser is new and has not already traversed state
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// by a loop over NextBlock(), this will do:
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//
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// for d.NextBlock(0) {
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// }
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//
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// As with other token parsing logic, a loop over
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// NextBlock() should be contained within a loop over
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// Next(), as it is usually prudent to skip the initial
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// token.
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func (d *Dispenser) NextBlock(initialNestingLevel int) bool {
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if d.nesting > initialNestingLevel {
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if !d.Next() {
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return false // should be EOF error
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}
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if d.Val() == "}" && !d.nextOnSameLine() {
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d.nesting--
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} else if d.Val() == "{" && !d.nextOnSameLine() {
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d.nesting++
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}
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return d.nesting > initialNestingLevel
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}
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if !d.nextOnSameLine() { // block must open on same line
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return false
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}
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if d.Val() != "{" {
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d.cursor-- // roll back if not opening brace
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return false
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}
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d.Next() // consume open curly brace
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if d.Val() == "}" {
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return false // open and then closed right away
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}
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d.nesting++
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return true
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}
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// Nesting returns the current nesting level. Necessary
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// if using NextBlock()
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func (d *Dispenser) Nesting() int {
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return d.nesting
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}
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// Val gets the text of the current token. If there is no token
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// loaded, it returns empty string.
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func (d *Dispenser) Val() string {
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if d.cursor < 0 || d.cursor >= len(d.tokens) {
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return ""
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}
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return d.tokens[d.cursor].Text
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}
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// ValRaw gets the raw text of the current token (including quotes).
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// If the token was a heredoc, then the delimiter is not included,
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// because that is not relevant to any unmarshaling logic at this time.
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// If there is no token loaded, it returns empty string.
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func (d *Dispenser) ValRaw() string {
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if d.cursor < 0 || d.cursor >= len(d.tokens) {
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return ""
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}
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quote := d.tokens[d.cursor].wasQuoted
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if quote > 0 && quote != '<' {
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// string literal
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return string(quote) + d.tokens[d.cursor].Text + string(quote)
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}
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return d.tokens[d.cursor].Text
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}
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// ScalarVal gets value of the current token, converted to the closest
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// scalar type. If there is no token loaded, it returns nil.
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func (d *Dispenser) ScalarVal() any {
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if d.cursor < 0 || d.cursor >= len(d.tokens) {
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return nil
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}
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quote := d.tokens[d.cursor].wasQuoted
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text := d.tokens[d.cursor].Text
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if quote > 0 {
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return text // string literal
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}
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if num, err := strconv.Atoi(text); err == nil {
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return num
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}
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if num, err := strconv.ParseFloat(text, 64); err == nil {
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return num
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}
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if bool, err := strconv.ParseBool(text); err == nil {
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return bool
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}
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return text
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}
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// Line gets the line number of the current token.
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// If there is no token loaded, it returns 0.
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func (d *Dispenser) Line() int {
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if d.cursor < 0 || d.cursor >= len(d.tokens) {
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return 0
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}
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return d.tokens[d.cursor].Line
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}
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// File gets the filename where the current token originated.
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func (d *Dispenser) File() string {
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if d.cursor < 0 || d.cursor >= len(d.tokens) {
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return ""
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}
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return d.tokens[d.cursor].File
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}
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// Args is a convenience function that loads the next arguments
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// (tokens on the same line) into an arbitrary number of strings
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// pointed to in targets. If there are not enough argument tokens
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// available to fill targets, false is returned and the remaining
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// targets are left unchanged. If all the targets are filled,
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// then true is returned.
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func (d *Dispenser) Args(targets ...*string) bool {
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for i := 0; i < len(targets); i++ {
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if !d.NextArg() {
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return false
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}
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*targets[i] = d.Val()
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}
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return true
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}
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// AllArgs is like Args, but if there are more argument tokens
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// available than there are targets, false is returned. The
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// number of available argument tokens must match the number of
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// targets exactly to return true.
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func (d *Dispenser) AllArgs(targets ...*string) bool {
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if !d.Args(targets...) {
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return false
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}
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if d.NextArg() {
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d.Prev()
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return false
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}
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return true
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}
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// CountRemainingArgs counts the amount of remaining arguments
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// (tokens on the same line) without consuming the tokens.
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func (d *Dispenser) CountRemainingArgs() int {
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count := 0
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for d.NextArg() {
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count++
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}
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for i := 0; i < count; i++ {
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d.Prev()
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}
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return count
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}
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// RemainingArgs loads any more arguments (tokens on the same line)
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// into a slice and returns them. Open curly brace tokens also indicate
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// the end of arguments, and the curly brace is not included in
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// the return value nor is it loaded.
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func (d *Dispenser) RemainingArgs() []string {
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var args []string
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for d.NextArg() {
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args = append(args, d.Val())
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}
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return args
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}
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// RemainingArgsRaw loads any more arguments (tokens on the same line,
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// retaining quotes) into a slice and returns them. Open curly brace
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// tokens also indicate the end of arguments, and the curly brace is
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// not included in the return value nor is it loaded.
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func (d *Dispenser) RemainingArgsRaw() []string {
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var args []string
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for d.NextArg() {
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args = append(args, d.ValRaw())
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}
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return args
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}
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// NewFromNextSegment returns a new dispenser with a copy of
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// the tokens from the current token until the end of the
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// "directive" whether that be to the end of the line or
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// the end of a block that starts at the end of the line;
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// in other words, until the end of the segment.
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func (d *Dispenser) NewFromNextSegment() *Dispenser {
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return NewDispenser(d.NextSegment())
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}
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// NextSegment returns a copy of the tokens from the current
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// token until the end of the line or block that starts at
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// the end of the line.
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func (d *Dispenser) NextSegment() Segment {
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tkns := Segment{d.Token()}
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for d.NextArg() {
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tkns = append(tkns, d.Token())
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}
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var openedBlock bool
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for nesting := d.Nesting(); d.NextBlock(nesting); {
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if !openedBlock {
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// because NextBlock() consumes the initial open
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// curly brace, we rewind here to append it, since
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// our case is special in that we want the new
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// dispenser to have all the tokens including
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// surrounding curly braces
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d.Prev()
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tkns = append(tkns, d.Token())
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d.Next()
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openedBlock = true
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}
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tkns = append(tkns, d.Token())
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}
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if openedBlock {
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// include closing brace
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tkns = append(tkns, d.Token())
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// do not consume the closing curly brace; the
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// next iteration of the enclosing loop will
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// call Next() and consume it
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}
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return tkns
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}
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// Token returns the current token.
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func (d *Dispenser) Token() Token {
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if d.cursor < 0 || d.cursor >= len(d.tokens) {
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return Token{}
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}
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return d.tokens[d.cursor]
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}
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// Reset sets d's cursor to the beginning, as
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// if this was a new and unused dispenser.
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func (d *Dispenser) Reset() {
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d.cursor = -1
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d.nesting = 0
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}
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// ArgErr returns an argument error, meaning that another
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// argument was expected but not found. In other words,
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// a line break or open curly brace was encountered instead of
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// an argument.
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func (d *Dispenser) ArgErr() error {
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if d.Val() == "{" {
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return d.Err("unexpected token '{', expecting argument")
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}
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return d.Errf("wrong argument count or unexpected line ending after '%s'", d.Val())
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}
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// SyntaxErr creates a generic syntax error which explains what was
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// found and what was expected.
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func (d *Dispenser) SyntaxErr(expected string) error {
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msg := fmt.Sprintf("syntax error: unexpected token '%s', expecting '%s', at %s:%d import chain: ['%s']", d.Val(), expected, d.File(), d.Line(), strings.Join(d.Token().imports, "','"))
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return errors.New(msg)
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}
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// EOFErr returns an error indicating that the dispenser reached
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// the end of the input when searching for the next token.
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func (d *Dispenser) EOFErr() error {
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return d.Errf("unexpected EOF")
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}
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// Err generates a custom parse-time error with a message of msg.
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func (d *Dispenser) Err(msg string) error {
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return d.Errf(msg)
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}
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// Errf is like Err, but for formatted error messages
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func (d *Dispenser) Errf(format string, args ...any) error {
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return d.WrapErr(fmt.Errorf(format, args...))
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}
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// WrapErr takes an existing error and adds the Caddyfile file and line number.
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func (d *Dispenser) WrapErr(err error) error {
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if len(d.Token().imports) > 0 {
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return fmt.Errorf("%w, at %s:%d import chain ['%s']", err, d.File(), d.Line(), strings.Join(d.Token().imports, "','"))
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}
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return fmt.Errorf("%w, at %s:%d", err, d.File(), d.Line())
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}
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// Delete deletes the current token and returns the updated slice
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// of tokens. The cursor is not advanced to the next token.
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// Because deletion modifies the underlying slice, this method
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// should only be called if you have access to the original slice
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// of tokens and/or are using the slice of tokens outside this
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// Dispenser instance. If you do not re-assign the slice with the
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// return value of this method, inconsistencies in the token
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// array will become apparent (or worse, hide from you like they
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// did me for 3 and a half freaking hours late one night).
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func (d *Dispenser) Delete() []Token {
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if d.cursor >= 0 && d.cursor <= len(d.tokens)-1 {
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d.tokens = append(d.tokens[:d.cursor], d.tokens[d.cursor+1:]...)
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d.cursor--
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}
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return d.tokens
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}
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// DeleteN is the same as Delete, but can delete many tokens at once.
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// If there aren't N tokens available to delete, none are deleted.
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func (d *Dispenser) DeleteN(amount int) []Token {
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if amount > 0 && d.cursor >= (amount-1) && d.cursor <= len(d.tokens)-1 {
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d.tokens = append(d.tokens[:d.cursor-(amount-1)], d.tokens[d.cursor+1:]...)
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d.cursor -= amount
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}
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return d.tokens
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}
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// isNewLine determines whether the current token is on a different
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// line (higher line number) than the previous token. It handles imported
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// tokens correctly. If there isn't a previous token, it returns true.
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func (d *Dispenser) isNewLine() bool {
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if d.cursor < 1 {
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return true
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}
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if d.cursor > len(d.tokens)-1 {
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return false
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}
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prev := d.tokens[d.cursor-1]
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curr := d.tokens[d.cursor]
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return isNextOnNewLine(prev, curr)
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}
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// isNextOnNewLine determines whether the current token is on a different
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// line (higher line number) than the next token. It handles imported
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// tokens correctly. If there isn't a next token, it returns true.
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func (d *Dispenser) isNextOnNewLine() bool {
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if d.cursor < 0 {
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return false
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}
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if d.cursor >= len(d.tokens)-1 {
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return true
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}
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curr := d.tokens[d.cursor]
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next := d.tokens[d.cursor+1]
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return isNextOnNewLine(curr, next)
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}
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