701 lines
18 KiB
Go
701 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 builds parse trees for templates as defined by text/template
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// and html/template. Clients should use those packages to construct templates
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// rather than this one, which provides shared internal data structures not
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// intended for general use.
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package parse
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import (
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"bytes"
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"fmt"
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"runtime"
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"strconv"
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"strings"
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)
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// Tree is the representation of a single parsed template.
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type Tree struct {
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Name string // name of the template represented by the tree.
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ParseName string // name of the top-level template during parsing, for error messages.
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Root *ListNode // top-level root of the tree.
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text string // text parsed to create the template (or its parent)
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// Parsing only; cleared after parse.
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funcs []map[string]interface{}
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lex *lexer
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token [3]item // three-token lookahead for parser.
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peekCount int
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vars []string // variables defined at the moment.
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}
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// Copy returns a copy of the Tree. Any parsing state is discarded.
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func (t *Tree) Copy() *Tree {
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if t == nil {
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return nil
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}
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return &Tree{
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Name: t.Name,
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ParseName: t.ParseName,
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Root: t.Root.CopyList(),
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text: t.text,
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}
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}
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// Parse returns a map from template name to parse.Tree, created by parsing the
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// templates described in the argument string. The top-level template will be
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// given the specified name. If an error is encountered, parsing stops and an
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// empty map is returned with the error.
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func Parse(name, text, leftDelim, rightDelim string, funcs ...map[string]interface{}) (treeSet map[string]*Tree, err error) {
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treeSet = make(map[string]*Tree)
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t := New(name)
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t.text = text
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_, err = t.Parse(text, leftDelim, rightDelim, treeSet, funcs...)
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return
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}
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// next returns the next token.
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func (t *Tree) next() item {
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if t.peekCount > 0 {
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t.peekCount--
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} else {
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t.token[0] = t.lex.nextItem()
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}
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return t.token[t.peekCount]
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}
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// backup backs the input stream up one token.
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func (t *Tree) backup() {
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t.peekCount++
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}
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// backup2 backs the input stream up two tokens.
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// The zeroth token is already there.
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func (t *Tree) backup2(t1 item) {
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t.token[1] = t1
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t.peekCount = 2
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}
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// backup3 backs the input stream up three tokens
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// The zeroth token is already there.
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func (t *Tree) backup3(t2, t1 item) { // Reverse order: we're pushing back.
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t.token[1] = t1
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t.token[2] = t2
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t.peekCount = 3
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}
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// peek returns but does not consume the next token.
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func (t *Tree) peek() item {
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if t.peekCount > 0 {
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return t.token[t.peekCount-1]
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}
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t.peekCount = 1
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t.token[0] = t.lex.nextItem()
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return t.token[0]
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}
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// nextNonSpace returns the next non-space token.
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func (t *Tree) nextNonSpace() (token item) {
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for {
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token = t.next()
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if token.typ != itemSpace {
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break
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}
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}
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return token
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}
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// peekNonSpace returns but does not consume the next non-space token.
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func (t *Tree) peekNonSpace() (token item) {
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for {
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token = t.next()
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if token.typ != itemSpace {
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break
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}
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}
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t.backup()
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return token
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}
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// Parsing.
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// New allocates a new parse tree with the given name.
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func New(name string, funcs ...map[string]interface{}) *Tree {
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return &Tree{
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Name: name,
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funcs: funcs,
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}
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}
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// ErrorContext returns a textual representation of the location of the node in the input text.
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// The receiver is only used when the node does not have a pointer to the tree inside,
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// which can occur in old code.
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func (t *Tree) ErrorContext(n Node) (location, context string) {
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pos := int(n.Position())
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tree := n.tree()
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if tree == nil {
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tree = t
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}
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text := tree.text[:pos]
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byteNum := strings.LastIndex(text, "\n")
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if byteNum == -1 {
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byteNum = pos // On first line.
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} else {
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byteNum++ // After the newline.
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byteNum = pos - byteNum
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}
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lineNum := 1 + strings.Count(text, "\n")
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context = n.String()
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if len(context) > 20 {
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context = fmt.Sprintf("%.20s...", context)
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}
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return fmt.Sprintf("%s:%d:%d", tree.ParseName, lineNum, byteNum), context
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}
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// errorf formats the error and terminates processing.
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func (t *Tree) errorf(format string, args ...interface{}) {
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t.Root = nil
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format = fmt.Sprintf("template: %s:%d: %s", t.ParseName, t.lex.lineNumber(), format)
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panic(fmt.Errorf(format, args...))
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}
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// error terminates processing.
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func (t *Tree) error(err error) {
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t.errorf("%s", err)
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}
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// expect consumes the next token and guarantees it has the required type.
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func (t *Tree) expect(expected itemType, context string) item {
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token := t.nextNonSpace()
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if token.typ != expected {
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t.unexpected(token, context)
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}
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return token
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}
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// expectOneOf consumes the next token and guarantees it has one of the required types.
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func (t *Tree) expectOneOf(expected1, expected2 itemType, context string) item {
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token := t.nextNonSpace()
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if token.typ != expected1 && token.typ != expected2 {
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t.unexpected(token, context)
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}
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return token
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}
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// unexpected complains about the token and terminates processing.
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func (t *Tree) unexpected(token item, context string) {
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t.errorf("unexpected %s in %s", token, context)
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}
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// recover is the handler that turns panics into returns from the top level of Parse.
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func (t *Tree) recover(errp *error) {
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e := recover()
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if e != nil {
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if _, ok := e.(runtime.Error); ok {
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panic(e)
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}
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if t != nil {
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t.stopParse()
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}
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*errp = e.(error)
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}
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return
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}
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// startParse initializes the parser, using the lexer.
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func (t *Tree) startParse(funcs []map[string]interface{}, lex *lexer) {
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t.Root = nil
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t.lex = lex
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t.vars = []string{"$"}
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t.funcs = funcs
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}
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// stopParse terminates parsing.
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func (t *Tree) stopParse() {
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t.lex = nil
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t.vars = nil
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t.funcs = nil
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}
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// Parse parses the template definition string to construct a representation of
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// the template for execution. If either action delimiter string is empty, the
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// default ("{{" or "}}") is used. Embedded template definitions are added to
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// the treeSet map.
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func (t *Tree) Parse(text, leftDelim, rightDelim string, treeSet map[string]*Tree, funcs ...map[string]interface{}) (tree *Tree, err error) {
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defer t.recover(&err)
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t.ParseName = t.Name
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t.startParse(funcs, lex(t.Name, text, leftDelim, rightDelim))
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t.text = text
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t.parse(treeSet)
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t.add(treeSet)
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t.stopParse()
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return t, nil
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}
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// add adds tree to the treeSet.
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func (t *Tree) add(treeSet map[string]*Tree) {
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tree := treeSet[t.Name]
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if tree == nil || IsEmptyTree(tree.Root) {
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treeSet[t.Name] = t
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return
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}
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if !IsEmptyTree(t.Root) {
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t.errorf("template: multiple definition of template %q", t.Name)
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}
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}
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// IsEmptyTree reports whether this tree (node) is empty of everything but space.
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func IsEmptyTree(n Node) bool {
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switch n := n.(type) {
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case nil:
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return true
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case *ActionNode:
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case *IfNode:
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case *ListNode:
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for _, node := range n.Nodes {
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if !IsEmptyTree(node) {
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return false
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}
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}
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return true
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case *RangeNode:
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case *TemplateNode:
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case *TextNode:
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return len(bytes.TrimSpace(n.Text)) == 0
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case *WithNode:
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default:
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panic("unknown node: " + n.String())
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}
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return false
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}
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// parse is the top-level parser for a template, essentially the same
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// as itemList except it also parses {{define}} actions.
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// It runs to EOF.
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func (t *Tree) parse(treeSet map[string]*Tree) (next Node) {
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t.Root = t.newList(t.peek().pos)
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for t.peek().typ != itemEOF {
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if t.peek().typ == itemLeftDelim {
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delim := t.next()
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if t.nextNonSpace().typ == itemDefine {
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newT := New("definition") // name will be updated once we know it.
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newT.text = t.text
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newT.ParseName = t.ParseName
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newT.startParse(t.funcs, t.lex)
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newT.parseDefinition(treeSet)
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continue
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}
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t.backup2(delim)
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}
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n := t.textOrAction()
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if n.Type() == nodeEnd {
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t.errorf("unexpected %s", n)
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}
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t.Root.append(n)
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}
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return nil
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}
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// parseDefinition parses a {{define}} ... {{end}} template definition and
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// installs the definition in the treeSet map. The "define" keyword has already
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// been scanned.
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func (t *Tree) parseDefinition(treeSet map[string]*Tree) {
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const context = "define clause"
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name := t.expectOneOf(itemString, itemRawString, context)
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var err error
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t.Name, err = strconv.Unquote(name.val)
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if err != nil {
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t.error(err)
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}
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t.expect(itemRightDelim, context)
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var end Node
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t.Root, end = t.itemList()
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if end.Type() != nodeEnd {
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t.errorf("unexpected %s in %s", end, context)
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}
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t.add(treeSet)
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t.stopParse()
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}
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// itemList:
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// textOrAction*
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// Terminates at {{end}} or {{else}}, returned separately.
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func (t *Tree) itemList() (list *ListNode, next Node) {
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list = t.newList(t.peekNonSpace().pos)
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for t.peekNonSpace().typ != itemEOF {
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n := t.textOrAction()
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switch n.Type() {
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case nodeEnd, nodeElse:
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return list, n
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}
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list.append(n)
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}
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t.errorf("unexpected EOF")
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return
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}
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// textOrAction:
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// text | action
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func (t *Tree) textOrAction() Node {
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switch token := t.nextNonSpace(); token.typ {
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case itemElideNewline:
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return t.elideNewline()
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case itemText:
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return t.newText(token.pos, token.val)
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case itemLeftDelim:
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return t.action()
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default:
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t.unexpected(token, "input")
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}
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return nil
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}
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// elideNewline:
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// Remove newlines trailing rightDelim if \\ is present.
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func (t *Tree) elideNewline() Node {
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token := t.peek()
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if token.typ != itemText {
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t.unexpected(token, "input")
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return nil
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}
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t.next()
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stripped := strings.TrimLeft(token.val, "\n\r")
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diff := len(token.val) - len(stripped)
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if diff > 0 {
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// This is a bit nasty. We mutate the token in-place to remove
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// preceding newlines.
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token.pos += Pos(diff)
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token.val = stripped
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}
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return t.newText(token.pos, token.val)
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}
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// Action:
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// control
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// command ("|" command)*
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// Left delim is past. Now get actions.
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// First word could be a keyword such as range.
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func (t *Tree) action() (n Node) {
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switch token := t.nextNonSpace(); token.typ {
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case itemElse:
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return t.elseControl()
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case itemEnd:
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return t.endControl()
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case itemIf:
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return t.ifControl()
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case itemRange:
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return t.rangeControl()
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case itemTemplate:
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return t.templateControl()
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case itemWith:
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return t.withControl()
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}
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t.backup()
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// Do not pop variables; they persist until "end".
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return t.newAction(t.peek().pos, t.lex.lineNumber(), t.pipeline("command"))
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}
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// Pipeline:
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// declarations? command ('|' command)*
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func (t *Tree) pipeline(context string) (pipe *PipeNode) {
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var decl []*VariableNode
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pos := t.peekNonSpace().pos
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// Are there declarations?
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for {
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if v := t.peekNonSpace(); v.typ == itemVariable {
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t.next()
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// Since space is a token, we need 3-token look-ahead here in the worst case:
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// in "$x foo" we need to read "foo" (as opposed to ":=") to know that $x is an
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// argument variable rather than a declaration. So remember the token
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// adjacent to the variable so we can push it back if necessary.
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tokenAfterVariable := t.peek()
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if next := t.peekNonSpace(); next.typ == itemColonEquals || (next.typ == itemChar && next.val == ",") {
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t.nextNonSpace()
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variable := t.newVariable(v.pos, v.val)
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decl = append(decl, variable)
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t.vars = append(t.vars, v.val)
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if next.typ == itemChar && next.val == "," {
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if context == "range" && len(decl) < 2 {
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continue
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}
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t.errorf("too many declarations in %s", context)
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}
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} else if tokenAfterVariable.typ == itemSpace {
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t.backup3(v, tokenAfterVariable)
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} else {
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t.backup2(v)
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}
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}
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break
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}
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pipe = t.newPipeline(pos, t.lex.lineNumber(), decl)
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for {
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switch token := t.nextNonSpace(); token.typ {
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case itemRightDelim, itemRightParen:
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if len(pipe.Cmds) == 0 {
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t.errorf("missing value for %s", context)
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}
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if token.typ == itemRightParen {
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t.backup()
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}
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return
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case itemBool, itemCharConstant, itemComplex, itemDot, itemField, itemIdentifier,
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itemNumber, itemNil, itemRawString, itemString, itemVariable, itemLeftParen:
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t.backup()
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pipe.append(t.command())
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default:
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t.unexpected(token, context)
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}
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}
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}
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func (t *Tree) parseControl(allowElseIf bool, context string) (pos Pos, line int, pipe *PipeNode, list, elseList *ListNode) {
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defer t.popVars(len(t.vars))
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line = t.lex.lineNumber()
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pipe = t.pipeline(context)
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var next Node
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list, next = t.itemList()
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switch next.Type() {
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case nodeEnd: //done
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case nodeElse:
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if allowElseIf {
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// Special case for "else if". If the "else" is followed immediately by an "if",
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// the elseControl will have left the "if" token pending. Treat
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// {{if a}}_{{else if b}}_{{end}}
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// as
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// {{if a}}_{{else}}{{if b}}_{{end}}{{end}}.
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// To do this, parse the if as usual and stop at it {{end}}; the subsequent{{end}}
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// is assumed. This technique works even for long if-else-if chains.
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// TODO: Should we allow else-if in with and range?
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if t.peek().typ == itemIf {
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t.next() // Consume the "if" token.
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elseList = t.newList(next.Position())
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elseList.append(t.ifControl())
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// Do not consume the next item - only one {{end}} required.
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break
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}
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}
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elseList, next = t.itemList()
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if next.Type() != nodeEnd {
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t.errorf("expected end; found %s", next)
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}
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}
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return pipe.Position(), line, pipe, list, elseList
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}
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// If:
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// {{if pipeline}} itemList {{end}}
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// {{if pipeline}} itemList {{else}} itemList {{end}}
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// If keyword is past.
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func (t *Tree) ifControl() Node {
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return t.newIf(t.parseControl(true, "if"))
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}
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// Range:
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// {{range pipeline}} itemList {{end}}
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// {{range pipeline}} itemList {{else}} itemList {{end}}
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// Range keyword is past.
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func (t *Tree) rangeControl() Node {
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return t.newRange(t.parseControl(false, "range"))
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}
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// With:
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// {{with pipeline}} itemList {{end}}
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// {{with pipeline}} itemList {{else}} itemList {{end}}
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// If keyword is past.
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func (t *Tree) withControl() Node {
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return t.newWith(t.parseControl(false, "with"))
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}
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// End:
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// {{end}}
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// End keyword is past.
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func (t *Tree) endControl() Node {
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return t.newEnd(t.expect(itemRightDelim, "end").pos)
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}
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// Else:
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// {{else}}
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// Else keyword is past.
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func (t *Tree) elseControl() Node {
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// Special case for "else if".
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peek := t.peekNonSpace()
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if peek.typ == itemIf {
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// We see "{{else if ... " but in effect rewrite it to {{else}}{{if ... ".
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return t.newElse(peek.pos, t.lex.lineNumber())
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}
|
|
return t.newElse(t.expect(itemRightDelim, "else").pos, t.lex.lineNumber())
|
|
}
|
|
|
|
// Template:
|
|
// {{template stringValue pipeline}}
|
|
// Template keyword is past. The name must be something that can evaluate
|
|
// to a string.
|
|
func (t *Tree) templateControl() Node {
|
|
var name string
|
|
token := t.nextNonSpace()
|
|
switch token.typ {
|
|
case itemString, itemRawString:
|
|
s, err := strconv.Unquote(token.val)
|
|
if err != nil {
|
|
t.error(err)
|
|
}
|
|
name = s
|
|
default:
|
|
t.unexpected(token, "template invocation")
|
|
}
|
|
var pipe *PipeNode
|
|
if t.nextNonSpace().typ != itemRightDelim {
|
|
t.backup()
|
|
// Do not pop variables; they persist until "end".
|
|
pipe = t.pipeline("template")
|
|
}
|
|
return t.newTemplate(token.pos, t.lex.lineNumber(), name, pipe)
|
|
}
|
|
|
|
// command:
|
|
// operand (space operand)*
|
|
// space-separated arguments up to a pipeline character or right delimiter.
|
|
// we consume the pipe character but leave the right delim to terminate the action.
|
|
func (t *Tree) command() *CommandNode {
|
|
cmd := t.newCommand(t.peekNonSpace().pos)
|
|
for {
|
|
t.peekNonSpace() // skip leading spaces.
|
|
operand := t.operand()
|
|
if operand != nil {
|
|
cmd.append(operand)
|
|
}
|
|
switch token := t.next(); token.typ {
|
|
case itemSpace:
|
|
continue
|
|
case itemError:
|
|
t.errorf("%s", token.val)
|
|
case itemRightDelim, itemRightParen:
|
|
t.backup()
|
|
case itemPipe:
|
|
default:
|
|
t.errorf("unexpected %s in operand; missing space?", token)
|
|
}
|
|
break
|
|
}
|
|
if len(cmd.Args) == 0 {
|
|
t.errorf("empty command")
|
|
}
|
|
return cmd
|
|
}
|
|
|
|
// operand:
|
|
// term .Field*
|
|
// An operand is a space-separated component of a command,
|
|
// a term possibly followed by field accesses.
|
|
// A nil return means the next item is not an operand.
|
|
func (t *Tree) operand() Node {
|
|
node := t.term()
|
|
if node == nil {
|
|
return nil
|
|
}
|
|
if t.peek().typ == itemField {
|
|
chain := t.newChain(t.peek().pos, node)
|
|
for t.peek().typ == itemField {
|
|
chain.Add(t.next().val)
|
|
}
|
|
// Compatibility with original API: If the term is of type NodeField
|
|
// or NodeVariable, just put more fields on the original.
|
|
// Otherwise, keep the Chain node.
|
|
// TODO: Switch to Chains always when we can.
|
|
switch node.Type() {
|
|
case NodeField:
|
|
node = t.newField(chain.Position(), chain.String())
|
|
case NodeVariable:
|
|
node = t.newVariable(chain.Position(), chain.String())
|
|
default:
|
|
node = chain
|
|
}
|
|
}
|
|
return node
|
|
}
|
|
|
|
// term:
|
|
// literal (number, string, nil, boolean)
|
|
// function (identifier)
|
|
// .
|
|
// .Field
|
|
// $
|
|
// '(' pipeline ')'
|
|
// A term is a simple "expression".
|
|
// A nil return means the next item is not a term.
|
|
func (t *Tree) term() Node {
|
|
switch token := t.nextNonSpace(); token.typ {
|
|
case itemError:
|
|
t.errorf("%s", token.val)
|
|
case itemIdentifier:
|
|
if !t.hasFunction(token.val) {
|
|
t.errorf("function %q not defined", token.val)
|
|
}
|
|
return NewIdentifier(token.val).SetTree(t).SetPos(token.pos)
|
|
case itemDot:
|
|
return t.newDot(token.pos)
|
|
case itemNil:
|
|
return t.newNil(token.pos)
|
|
case itemVariable:
|
|
return t.useVar(token.pos, token.val)
|
|
case itemField:
|
|
return t.newField(token.pos, token.val)
|
|
case itemBool:
|
|
return t.newBool(token.pos, token.val == "true")
|
|
case itemCharConstant, itemComplex, itemNumber:
|
|
number, err := t.newNumber(token.pos, token.val, token.typ)
|
|
if err != nil {
|
|
t.error(err)
|
|
}
|
|
return number
|
|
case itemLeftParen:
|
|
pipe := t.pipeline("parenthesized pipeline")
|
|
if token := t.next(); token.typ != itemRightParen {
|
|
t.errorf("unclosed right paren: unexpected %s", token)
|
|
}
|
|
return pipe
|
|
case itemString, itemRawString:
|
|
s, err := strconv.Unquote(token.val)
|
|
if err != nil {
|
|
t.error(err)
|
|
}
|
|
return t.newString(token.pos, token.val, s)
|
|
}
|
|
t.backup()
|
|
return nil
|
|
}
|
|
|
|
// hasFunction reports if a function name exists in the Tree's maps.
|
|
func (t *Tree) hasFunction(name string) bool {
|
|
for _, funcMap := range t.funcs {
|
|
if funcMap == nil {
|
|
continue
|
|
}
|
|
if funcMap[name] != nil {
|
|
return true
|
|
}
|
|
}
|
|
return false
|
|
}
|
|
|
|
// popVars trims the variable list to the specified length
|
|
func (t *Tree) popVars(n int) {
|
|
t.vars = t.vars[:n]
|
|
}
|
|
|
|
// useVar returns a node for a variable reference. It errors if the
|
|
// variable is not defined.
|
|
func (t *Tree) useVar(pos Pos, name string) Node {
|
|
v := t.newVariable(pos, name)
|
|
for _, varName := range t.vars {
|
|
if varName == v.Ident[0] {
|
|
return v
|
|
}
|
|
}
|
|
t.errorf("undefined variable %q", v.Ident[0])
|
|
return nil
|
|
}
|