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// Copyright 2015 The Hugo Authors. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package hugolib
import (
"bytes"
"errors"
"fmt"
"html/template"
"reflect"
"regexp"
"sort"
"strings"
"sync"
bp "github.com/spf13/hugo/bufferpool"
"github.com/spf13/hugo/helpers"
"github.com/spf13/hugo/tpl"
jww "github.com/spf13/jwalterweatherman"
)
// ShortcodeWithPage is the "." context in a shortcode template.
type ShortcodeWithPage struct {
Params interface{}
Inner template.HTML
Page *Page
Parent *ShortcodeWithPage
IsNamedParams bool
scratch *Scratch
}
// Site returns information about the current site.
func (scp *ShortcodeWithPage) Site() *SiteInfo {
return scp.Page.Site
}
// Ref is a shortcut to the Ref method on Page.
func (scp *ShortcodeWithPage) Ref(ref string) (string, error) {
return scp.Page.Ref(ref)
}
// RelRef is a shortcut to the RelRef method on Page.
func (scp *ShortcodeWithPage) RelRef(ref string) (string, error) {
return scp.Page.RelRef(ref)
}
// Scratch returns a scratch-pad scoped for this shortcode. This can be used
// as a temporary storage for variables, counters etc.
func (scp *ShortcodeWithPage) Scratch() *Scratch {
if scp.scratch == nil {
scp.scratch = newScratch()
}
return scp.scratch
}
// Get is a convenience method to look up shortcode parameters by its key.
func (scp *ShortcodeWithPage) Get(key interface{}) interface{} {
if scp.Params == nil {
return nil
}
if reflect.ValueOf(scp.Params).Len() == 0 {
return nil
}
var x reflect.Value
switch key.(type) {
case int64, int32, int16, int8, int:
if reflect.TypeOf(scp.Params).Kind() == reflect.Map {
return "error: cannot access named params by position"
} else if reflect.TypeOf(scp.Params).Kind() == reflect.Slice {
idx := int(reflect.ValueOf(key).Int())
ln := reflect.ValueOf(scp.Params).Len()
if idx > ln-1 {
helpers.DistinctErrorLog.Printf("No shortcode param at .Get %d in page %s, have params: %v", idx, scp.Page.FullFilePath(), scp.Params)
return fmt.Sprintf("error: index out of range for positional param at position %d", idx)
}
x = reflect.ValueOf(scp.Params).Index(idx)
}
case string:
if reflect.TypeOf(scp.Params).Kind() == reflect.Map {
x = reflect.ValueOf(scp.Params).MapIndex(reflect.ValueOf(key))
if !x.IsValid() {
return ""
}
} else if reflect.TypeOf(scp.Params).Kind() == reflect.Slice {
if reflect.ValueOf(scp.Params).Len() == 1 && reflect.ValueOf(scp.Params).Index(0).String() == "" {
return nil
}
return "error: cannot access positional params by string name"
}
}
switch x.Kind() {
case reflect.String:
return x.String()
case reflect.Int64, reflect.Int32, reflect.Int16, reflect.Int8, reflect.Int:
return x.Int()
default:
return x
}
}
// Note - this value must not contain any markup syntax
const shortcodePlaceholderPrefix = "HUGOSHORTCODE"
type shortcode struct {
name string
inner []interface{} // string or nested shortcode
params interface{} // map or array
err error
doMarkup bool
}
func (sc shortcode) String() string {
// for testing (mostly), so any change here will break tests!
var params interface{}
switch v := sc.params.(type) {
case map[string]string:
// sort the keys so test assertions won't fail
var keys []string
for k := range v {
keys = append(keys, k)
}
sort.Strings(keys)
var tmp = make([]string, len(keys))
for i, k := range keys {
tmp[i] = k + ":" + v[k]
}
params = tmp
default:
// use it as is
params = sc.params
}
return fmt.Sprintf("%s(%q, %t){%s}", sc.name, params, sc.doMarkup, sc.inner)
}
// HandleShortcodes does all in one go: extract, render and replace
// only used for testing
func HandleShortcodes(stringToParse string, page *Page, t tpl.Template) (string, error) {
tmpContent, tmpShortcodes, err := extractAndRenderShortcodes(stringToParse, page, t)
if err != nil {
return "", err
}
if len(tmpShortcodes) > 0 {
shortcodes, err := executeShortcodeFuncMap(tmpShortcodes)
if err != nil {
return "", err
}
tmpContentWithTokensReplaced, err := replaceShortcodeTokens([]byte(tmpContent), shortcodePlaceholderPrefix, shortcodes)
if err != nil {
return "", fmt.Errorf("Failed to replace shortcode tokens in %s:\n%s", page.BaseFileName(), err.Error())
}
return string(tmpContentWithTokensReplaced), nil
}
return tmpContent, nil
}
var isInnerShortcodeCache = struct {
sync.RWMutex
m map[string]bool
}{m: make(map[string]bool)}
// to avoid potential costly look-aheads for closing tags we look inside the template itself
// we could change the syntax to self-closing tags, but that would make users cry
// the value found is cached
func isInnerShortcode(t *template.Template) (bool, error) {
isInnerShortcodeCache.RLock()
m, ok := isInnerShortcodeCache.m[t.Name()]
isInnerShortcodeCache.RUnlock()
if ok {
return m, nil
}
isInnerShortcodeCache.Lock()
defer isInnerShortcodeCache.Unlock()
if t.Tree == nil {
return false, errors.New("Template failed to compile")
}
match, _ := regexp.MatchString("{{.*?\\.Inner.*?}}", t.Tree.Root.String())
isInnerShortcodeCache.m[t.Name()] = match
return match, nil
}
func createShortcodePlaceholder(id int) string {
return fmt.Sprintf("HAHA%s-%dHBHB", shortcodePlaceholderPrefix, id)
}
const innerNewlineRegexp = "\n"
const innerCleanupRegexp = `\A<p>(.*)</p>\n\z`
const innerCleanupExpand = "$1"
func renderShortcode(sc shortcode, parent *ShortcodeWithPage, p *Page, t tpl.Template) string {
tmpl := getShortcodeTemplate(sc.name, t)
if tmpl == nil {
jww.ERROR.Printf("Unable to locate template for shortcode '%s' in page %s", sc.name, p.BaseFileName())
return ""
}
data := &ShortcodeWithPage{Params: sc.params, Page: p, Parent: parent}
if sc.params != nil {
data.IsNamedParams = reflect.TypeOf(sc.params).Kind() == reflect.Map
}
if len(sc.inner) > 0 {
var inner string
for _, innerData := range sc.inner {
switch innerData.(type) {
case string:
inner += innerData.(string)
case shortcode:
inner += renderShortcode(innerData.(shortcode), data, p, t)
default:
jww.ERROR.Printf("Illegal state on shortcode rendering of '%s' in page %s. Illegal type in inner data: %s ",
sc.name, p.BaseFileName(), reflect.TypeOf(innerData))
return ""
}
}
if sc.doMarkup {
newInner := helpers.RenderBytes(&helpers.RenderingContext{
Content: []byte(inner), PageFmt: p.determineMarkupType(),
ConfigProvider: p.Language(),
DocumentID: p.UniqueID(),
DocumentName: p.Path(),
Config: p.getRenderingConfig()})
// If the type is “unknown” or “markdown”, we assume the markdown
// generation has been performed. Given the input: `a line`, markdown
// specifies the HTML `<p>a line</p>\n`. When dealing with documents as a
// whole, this is OK. When dealing with an `{{ .Inner }}` block in Hugo,
// this is not so good. This code does two things:
//
// 1. Check to see if inner has a newline in it. If so, the Inner data is
// unchanged.
// 2 If inner does not have a newline, strip the wrapping <p> block and
// the newline. This was previously tricked out by wrapping shortcode
// substitutions in <div>HUGOSHORTCODE-1</div> which prevents the
// generation, but means that you can’t use shortcodes inside of
// markdown structures itself (e.g., `[foo]({{% ref foo.md %}})`).
switch p.determineMarkupType() {
case "unknown", "markdown":
if match, _ := regexp.MatchString(innerNewlineRegexp, inner); !match {
cleaner, err := regexp.Compile(innerCleanupRegexp)
if err == nil {
newInner = cleaner.ReplaceAll(newInner, []byte(innerCleanupExpand))
}
}
}
data.Inner = template.HTML(newInner)
} else {
data.Inner = template.HTML(inner)
}
}
return renderShortcodeWithPage(tmpl, data)
}
func extractAndRenderShortcodes(stringToParse string, p *Page, t tpl.Template) (string, map[string]func() (string, error), error) {
content, shortcodes, err := extractShortcodes(stringToParse, p, t)
if err != nil {
// try to render what we have whilst logging the error
jww.ERROR.Println(err.Error())
}
// Save for reuse
// TODO(bep) refactor this
p.shortcodes = shortcodes
renderedShortcodes := renderShortcodes(shortcodes, p, t)
return content, renderedShortcodes, err
}
var emptyShortcodeFn = func() (string, error) { return "", nil }
func executeShortcodeFuncMap(funcs map[string]func() (string, error)) (map[string]string, error) {
result := make(map[string]string)
for k, v := range funcs {
s, err := v()
if err != nil {
return nil, fmt.Errorf("Failed to execute shortcode with key %s: %s", k, err)
}
result[k] = s
}
return result, nil
}
func renderShortcodes(shortcodes map[string]shortcode, p *Page, t tpl.Template) map[string]func() (string, error) {
renderedShortcodes := make(map[string]func() (string, error))
for key, sc := range shortcodes {
if sc.err != nil {
// need to have something to replace with
renderedShortcodes[key] = emptyShortcodeFn
} else {
shorctode := sc
renderedShortcodes[key] = func() (string, error) { return renderShortcode(shorctode, nil, p, t), nil }
}
}
return renderedShortcodes
}
var errShortCodeIllegalState = errors.New("Illegal shortcode state")
// pageTokens state:
// - before: positioned just before the shortcode start
// - after: shortcode(s) consumed (plural when they are nested)
func extractShortcode(pt *pageTokens, p *Page, t tpl.Template) (shortcode, error) {
sc := shortcode{}
var isInner = false
var currItem item
var cnt = 0
Loop:
for {
currItem = pt.next()
switch currItem.typ {
case tLeftDelimScWithMarkup, tLeftDelimScNoMarkup:
next := pt.peek()
if next.typ == tScClose {
continue
}
if cnt > 0 {
// nested shortcode; append it to inner content
pt.backup3(currItem, next)
nested, err := extractShortcode(pt, p, t)
if err == nil {
sc.inner = append(sc.inner, nested)
} else {
return sc, err
}
} else {
sc.doMarkup = currItem.typ == tLeftDelimScWithMarkup
}
cnt++
case tRightDelimScWithMarkup, tRightDelimScNoMarkup:
// we trust the template on this:
// if there's no inner, we're done
if !isInner {
return sc, nil
}
case tScClose:
next := pt.peek()
if !isInner {
if next.typ == tError {
// return that error, more specific
continue
}
return sc, fmt.Errorf("Shortcode '%s' in page '%s' has no .Inner, yet a closing tag was provided", next.val, p.FullFilePath())
}
if next.typ == tRightDelimScWithMarkup || next.typ == tRightDelimScNoMarkup {
// self-closing
pt.consume(1)
} else {
pt.consume(2)
}
return sc, nil
case tText:
sc.inner = append(sc.inner, currItem.val)
case tScName:
sc.name = currItem.val
tmpl := getShortcodeTemplate(sc.name, t)
if tmpl == nil {
return sc, fmt.Errorf("Unable to locate template for shortcode '%s' in page %s", sc.name, p.BaseFileName())
}
var err error
isInner, err = isInnerShortcode(tmpl)
if err != nil {
return sc, fmt.Errorf("Failed to handle template for shortcode '%s' for page '%s': %s", sc.name, p.BaseFileName(), err)
}
case tScParam:
if !pt.isValueNext() {
continue
} else if pt.peek().typ == tScParamVal {
// named params
if sc.params == nil {
params := make(map[string]string)
params[currItem.val] = pt.next().val
sc.params = params
} else {
if params, ok := sc.params.(map[string]string); ok {
params[currItem.val] = pt.next().val
} else {
return sc, errShortCodeIllegalState
}
}
} else {
// positional params
if sc.params == nil {
var params []string
params = append(params, currItem.val)
sc.params = params
} else {
if params, ok := sc.params.([]string); ok {
params = append(params, currItem.val)
sc.params = params
} else {
return sc, errShortCodeIllegalState
}
}
}
case tError, tEOF:
// handled by caller
pt.backup()
break Loop
}
}
return sc, nil
}
func extractShortcodes(stringToParse string, p *Page, t tpl.Template) (string, map[string]shortcode, error) {
shortCodes := make(map[string]shortcode)
startIdx := strings.Index(stringToParse, "{{")
// short cut for docs with no shortcodes
if startIdx < 0 {
return stringToParse, shortCodes, nil
}
// the parser takes a string;
// since this is an internal API, it could make sense to use the mutable []byte all the way, but
// it seems that the time isn't really spent in the byte copy operations, and the impl. gets a lot cleaner
pt := &pageTokens{lexer: newShortcodeLexer("parse-page", stringToParse, pos(startIdx))}
id := 1 // incremented id, will be appended onto temp. shortcode placeholders
result := bp.GetBuffer()
defer bp.PutBuffer(result)
//var result bytes.Buffer
// the parser is guaranteed to return items in proper order or fail, so …
// … it's safe to keep some "global" state
var currItem item
var currShortcode shortcode
var err error
Loop:
for {
currItem = pt.next()
switch currItem.typ {
case tText:
result.WriteString(currItem.val)
case tLeftDelimScWithMarkup, tLeftDelimScNoMarkup:
// let extractShortcode handle left delim (will do so recursively)
pt.backup()
if currShortcode, err = extractShortcode(pt, p, t); err != nil {
return result.String(), shortCodes, err
}
if currShortcode.params == nil {
currShortcode.params = make([]string, 0)
}
placeHolder := createShortcodePlaceholder(id)
result.WriteString(placeHolder)
shortCodes[placeHolder] = currShortcode
id++
case tEOF:
break Loop
case tError:
err := fmt.Errorf("%s:%d: %s",
p.BaseFileName(), (p.lineNumRawContentStart() + pt.lexer.lineNum() - 1), currItem)
currShortcode.err = err
return result.String(), shortCodes, err
}
}
return result.String(), shortCodes, nil
}
// Replace prefixed shortcode tokens (HUGOSHORTCODE-1, HUGOSHORTCODE-2) with the real content.
// Note: This function will rewrite the input slice.
func replaceShortcodeTokens(source []byte, prefix string, replacements map[string]string) ([]byte, error) {
if len(replacements) == 0 {
return source, nil
}
sourceLen := len(source)
start := 0
pre := []byte("HAHA" + prefix)
post := []byte("HBHB")
pStart := []byte("<p>")
pEnd := []byte("</p>")
k := bytes.Index(source[start:], pre)
for k != -1 {
j := start + k
postIdx := bytes.Index(source[j:], post)
if postIdx < 0 {
// this should never happen, but let the caller decide to panic or not
return nil, errors.New("illegal state in content; shortcode token missing end delim")
}
end := j + postIdx + 4
newVal := []byte(replacements[string(source[j:end])])
// Issue #1148: Check for wrapping p-tags <p>
if j >= 3 && bytes.Equal(source[j-3:j], pStart) {
if (k+4) < sourceLen && bytes.Equal(source[end:end+4], pEnd) {
j -= 3
end += 4
}
}
// This and other cool slice tricks: https://github.com/golang/go/wiki/SliceTricks
source = append(source[:j], append(newVal, source[end:]...)...)
start = j
k = bytes.Index(source[start:], pre)
}
return source, nil
}
func getShortcodeTemplate(name string, t tpl.Template) *template.Template {
if x := t.Lookup("shortcodes/" + name + ".html"); x != nil {
return x
}
if x := t.Lookup("theme/shortcodes/" + name + ".html"); x != nil {
return x
}
return t.Lookup("_internal/shortcodes/" + name + ".html")
}
func renderShortcodeWithPage(tmpl *template.Template, data *ShortcodeWithPage) string {
buffer := bp.GetBuffer()
defer bp.PutBuffer(buffer)
isInnerShortcodeCache.RLock()
err := tmpl.Execute(buffer, data)
isInnerShortcodeCache.RUnlock()
if err != nil {
jww.ERROR.Println("error processing shortcode", tmpl.Name(), "\n ERR:", err)
jww.WARN.Println(data)
}
return buffer.String()
}
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