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hugo/hugolib/site.go

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// Copyright 2017 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 (
"errors"
"fmt"
"html/template"
"io"
"log"
"mime"
"net/url"
"os"
"path/filepath"
"sort"
"strconv"
"strings"
"time"
"github.com/gohugoio/hugo/common/maps"
"github.com/gohugoio/hugo/publisher"
"github.com/gohugoio/hugo/resource"
"github.com/gohugoio/hugo/langs"
src "github.com/gohugoio/hugo/source"
"golang.org/x/sync/errgroup"
"github.com/gohugoio/hugo/config"
"github.com/gohugoio/hugo/media"
"github.com/markbates/inflect"
"golang.org/x/net/context"
"github.com/fsnotify/fsnotify"
bp "github.com/gohugoio/hugo/bufferpool"
"github.com/gohugoio/hugo/deps"
"github.com/gohugoio/hugo/helpers"
"github.com/gohugoio/hugo/hugolib/pagemeta"
"github.com/gohugoio/hugo/output"
"github.com/gohugoio/hugo/parser"
"github.com/gohugoio/hugo/related"
"github.com/gohugoio/hugo/source"
"github.com/gohugoio/hugo/tpl"
"github.com/spf13/afero"
"github.com/spf13/cast"
"github.com/spf13/nitro"
"github.com/spf13/viper"
)
// used to indicate if run as a test.
var testMode bool
var defaultTimer *nitro.B
// Site contains all the information relevant for constructing a static
// site. The basic flow of information is as follows:
//
// 1. A list of Files is parsed and then converted into Pages.
//
// 2. Pages contain sections (based on the file they were generated from),
// aliases and slugs (included in a pages frontmatter) which are the
// various targets that will get generated. There will be canonical
// listing. The canonical path can be overruled based on a pattern.
//
// 3. Taxonomies are created via configuration and will present some aspect of
// the final page and typically a perm url.
//
// 4. All Pages are passed through a template based on their desired
// layout based on numerous different elements.
//
// 5. The entire collection of files is written to disk.
type Site struct {
owner *HugoSites
*PageCollections
Taxonomies TaxonomyList
// Plural is what we get in the folder, so keep track of this mapping
// to get the singular form from that value.
taxonomiesPluralSingular map[string]string
// This is temporary, see https://github.com/gohugoio/hugo/issues/2835
// Maps "actors-gerard-depardieu" to "Gérard Depardieu" when preserveTaxonomyNames
// is set.
taxonomiesOrigKey map[string]string
Sections Taxonomy
Info SiteInfo
Menus Menus
timer *nitro.B
layoutHandler *output.LayoutHandler
draftCount int
futureCount int
expiredCount int
Data map[string]interface{}
Language *langs.Language
disabledKinds map[string]bool
// Output formats defined in site config per Page Kind, or some defaults
// if not set.
// Output formats defined in Page front matter will override these.
outputFormats map[string]output.Formats
// All the output formats and media types available for this site.
// These values will be merged from the Hugo defaults, the site config and,
// finally, the language settings.
outputFormatsConfig output.Formats
mediaTypesConfig media.Types
siteConfig SiteConfig
// How to handle page front matter.
frontmatterHandler pagemeta.FrontMatterHandler
// We render each site for all the relevant output formats in serial with
// this rendering context pointing to the current one.
rc *siteRenderingContext
// The output formats that we need to render this site in. This slice
// will be fixed once set.
// This will be the union of Site.Pages' outputFormats.
// This slice will be sorted.
renderFormats output.Formats
// Logger etc.
*deps.Deps `json:"-"`
// The func used to title case titles.
titleFunc func(s string) string
relatedDocsHandler *relatedDocsHandler
siteRefLinker
publisher publisher.Publisher
}
type siteRenderingContext struct {
output.Format
}
func (s *Site) initRenderFormats() {
formatSet := make(map[string]bool)
formats := output.Formats{}
for _, p := range s.Pages {
for _, f := range p.outputFormats {
if !formatSet[f.Name] {
formats = append(formats, f)
formatSet[f.Name] = true
}
}
}
sort.Sort(formats)
s.renderFormats = formats
}
func (s *Site) isEnabled(kind string) bool {
if kind == kindUnknown {
panic("Unknown kind")
}
return !s.disabledKinds[kind]
}
// reset returns a new Site prepared for rebuild.
func (s *Site) reset() *Site {
return &Site{Deps: s.Deps,
layoutHandler: output.NewLayoutHandler(),
disabledKinds: s.disabledKinds,
titleFunc: s.titleFunc,
relatedDocsHandler: newSearchIndexHandler(s.relatedDocsHandler.cfg),
siteRefLinker: s.siteRefLinker,
outputFormats: s.outputFormats,
rc: s.rc,
outputFormatsConfig: s.outputFormatsConfig,
frontmatterHandler: s.frontmatterHandler,
mediaTypesConfig: s.mediaTypesConfig,
Language: s.Language,
owner: s.owner,
publisher: s.publisher,
siteConfig: s.siteConfig,
PageCollections: newPageCollections()}
}
// newSite creates a new site with the given configuration.
func newSite(cfg deps.DepsCfg) (*Site, error) {
c := newPageCollections()
if cfg.Language == nil {
cfg.Language = langs.NewDefaultLanguage(cfg.Cfg)
}
disabledKinds := make(map[string]bool)
for _, disabled := range cast.ToStringSlice(cfg.Language.Get("disableKinds")) {
disabledKinds[disabled] = true
}
var (
mediaTypesConfig []map[string]interface{}
outputFormatsConfig []map[string]interface{}
siteOutputFormatsConfig output.Formats
siteMediaTypesConfig media.Types
err error
)
// Add language last, if set, so it gets precedence.
for _, cfg := range []config.Provider{cfg.Cfg, cfg.Language} {
if cfg.IsSet("mediaTypes") {
mediaTypesConfig = append(mediaTypesConfig, cfg.GetStringMap("mediaTypes"))
}
if cfg.IsSet("outputFormats") {
outputFormatsConfig = append(outputFormatsConfig, cfg.GetStringMap("outputFormats"))
}
}
siteMediaTypesConfig, err = media.DecodeTypes(mediaTypesConfig...)
if err != nil {
return nil, err
}
siteOutputFormatsConfig, err = output.DecodeFormats(siteMediaTypesConfig, outputFormatsConfig...)
if err != nil {
return nil, err
}
outputFormats, err := createSiteOutputFormats(siteOutputFormatsConfig, cfg.Language)
if err != nil {
return nil, err
}
var relatedContentConfig related.Config
if cfg.Language.IsSet("related") {
relatedContentConfig, err = related.DecodeConfig(cfg.Language.Get("related"))
if err != nil {
return nil, err
}
} else {
relatedContentConfig = related.DefaultConfig
taxonomies := cfg.Language.GetStringMapString("taxonomies")
if _, found := taxonomies["tag"]; found {
relatedContentConfig.Add(related.IndexConfig{Name: "tags", Weight: 80})
}
}
titleFunc := helpers.GetTitleFunc(cfg.Language.GetString("titleCaseStyle"))
frontMatterHandler, err := pagemeta.NewFrontmatterHandler(cfg.Logger, cfg.Cfg)
if err != nil {
return nil, err
}
s := &Site{
PageCollections: c,
layoutHandler: output.NewLayoutHandler(),
Language: cfg.Language,
disabledKinds: disabledKinds,
titleFunc: titleFunc,
relatedDocsHandler: newSearchIndexHandler(relatedContentConfig),
outputFormats: outputFormats,
rc: &siteRenderingContext{output.HTMLFormat},
outputFormatsConfig: siteOutputFormatsConfig,
mediaTypesConfig: siteMediaTypesConfig,
frontmatterHandler: frontMatterHandler,
}
return s, nil
}
// NewSite creates a new site with the given dependency configuration.
// The site will have a template system loaded and ready to use.
// Note: This is mainly used in single site tests.
func NewSite(cfg deps.DepsCfg) (*Site, error) {
s, err := newSite(cfg)
if err != nil {
return nil, err
}
if err = applyDeps(cfg, s); err != nil {
return nil, err
}
return s, nil
}
// NewSiteDefaultLang creates a new site in the default language.
// The site will have a template system loaded and ready to use.
// Note: This is mainly used in single site tests.
// TODO(bep) test refactor -- remove
func NewSiteDefaultLang(withTemplate ...func(templ tpl.TemplateHandler) error) (*Site, error) {
v := viper.New()
if err := loadDefaultSettingsFor(v); err != nil {
return nil, err
}
return newSiteForLang(langs.NewDefaultLanguage(v), withTemplate...)
}
// NewEnglishSite creates a new site in English language.
// The site will have a template system loaded and ready to use.
// Note: This is mainly used in single site tests.
// TODO(bep) test refactor -- remove
func NewEnglishSite(withTemplate ...func(templ tpl.TemplateHandler) error) (*Site, error) {
v := viper.New()
if err := loadDefaultSettingsFor(v); err != nil {
return nil, err
}
return newSiteForLang(langs.NewLanguage("en", v), withTemplate...)
}
// newSiteForLang creates a new site in the given language.
func newSiteForLang(lang *langs.Language, withTemplate ...func(templ tpl.TemplateHandler) error) (*Site, error) {
withTemplates := func(templ tpl.TemplateHandler) error {
for _, wt := range withTemplate {
if err := wt(templ); err != nil {
return err
}
}
return nil
}
cfg := deps.DepsCfg{WithTemplate: withTemplates, Cfg: lang}
return NewSiteForCfg(cfg)
}
// NewSiteForCfg creates a new site for the given configuration.
// The site will have a template system loaded and ready to use.
// Note: This is mainly used in single site tests.
func NewSiteForCfg(cfg deps.DepsCfg) (*Site, error) {
h, err := NewHugoSites(cfg)
if err != nil {
return nil, err
}
return h.Sites[0], nil
}
type SiteInfos []*SiteInfo
// First is a convenience method to get the first Site, i.e. the main language.
func (s SiteInfos) First() *SiteInfo {
if len(s) == 0 {
return nil
}
return s[0]
}
type SiteInfo struct {
Taxonomies TaxonomyList
Authors AuthorList
Social SiteSocial
*PageCollections
Menus *Menus
Hugo *HugoInfo
Title string
RSSLink string
Author map[string]interface{}
LanguageCode string
Copyright string
LastChange time.Time
Permalinks PermalinkOverrides
Params map[string]interface{}
BuildDrafts bool
canonifyURLs bool
relativeURLs bool
uglyURLs func(p *Page) bool
preserveTaxonomyNames bool
Data *map[string]interface{}
owner *HugoSites
s *Site
Language *langs.Language
LanguagePrefix string
Languages langs.Languages
defaultContentLanguageInSubdir bool
sectionPagesMenu string
}
func (s *SiteInfo) Config() SiteConfig {
return s.s.siteConfig
}
func (s *SiteInfo) String() string {
return fmt.Sprintf("Site(%q)", s.Title)
}
func (s *SiteInfo) BaseURL() template.URL {
return template.URL(s.s.PathSpec.BaseURL.String())
}
// ServerPort returns the port part of the BaseURL, 0 if none found.
func (s *SiteInfo) ServerPort() int {
ps := s.s.PathSpec.BaseURL.URL().Port()
if ps == "" {
return 0
}
p, err := strconv.Atoi(ps)
if err != nil {
return 0
}
return p
}
// GoogleAnalytics is kept here for historic reasons.
func (s *SiteInfo) GoogleAnalytics() string {
return s.Config().Services.GoogleAnalytics.ID
}
// DisqusShortname is kept here for historic reasons.
func (s *SiteInfo) DisqusShortname() string {
return s.Config().Services.Disqus.Shortname
}
// SiteSocial is a place to put social details on a site level. These are the
// standard keys that themes will expect to have available, but can be
// expanded to any others on a per site basis
// github
// facebook
// facebook_admin
// twitter
// twitter_domain
// googleplus
// pinterest
// instagram
// youtube
// linkedin
type SiteSocial map[string]string
// Param is a convenience method to do lookups in SiteInfo's Params map.
//
// This method is also implemented on Page and Node.
func (s *SiteInfo) Param(key interface{}) (interface{}, error) {
keyStr, err := cast.ToStringE(key)
if err != nil {
return nil, err
}
keyStr = strings.ToLower(keyStr)
return s.Params[keyStr], nil
}
func (s *SiteInfo) IsMultiLingual() bool {
return len(s.Languages) > 1
}
func (s *SiteInfo) IsServer() bool {
return s.owner.running
}
type siteRefLinker struct {
s *Site
errorLogger *log.Logger
notFoundURL string
}
func newSiteRefLinker(cfg config.Provider, s *Site) (siteRefLinker, error) {
logger := s.Log.ERROR
notFoundURL := cfg.GetString("refLinksNotFoundURL")
errLevel := cfg.GetString("refLinksErrorLevel")
if strings.EqualFold(errLevel, "warning") {
logger = s.Log.WARN
}
return siteRefLinker{s: s, errorLogger: logger, notFoundURL: notFoundURL}, nil
}
func (s siteRefLinker) logNotFound(ref, what string, p *Page) {
if p != nil {
s.errorLogger.Printf("[%s] REF_NOT_FOUND: Ref %q: %s", s.s.Lang(), ref, what)
} else {
s.errorLogger.Printf("[%s] REF_NOT_FOUND: Ref %q from page %q: %s", s.s.Lang(), ref, p.absoluteSourceRef(), what)
}
}
func (s *siteRefLinker) refLink(ref string, page *Page, relative bool, outputFormat string) (string, error) {
var refURL *url.URL
var err error
ref = filepath.ToSlash(ref)
refURL, err = url.Parse(ref)
if err != nil {
return s.notFoundURL, err
}
var target *Page
var link string
if refURL.Path != "" {
target, err := s.s.getPageNew(page, refURL.Path)
if err != nil {
s.logNotFound(refURL.Path, err.Error(), page)
return s.notFoundURL, nil
}
if target == nil {
s.logNotFound(refURL.Path, "page not found", page)
return s.notFoundURL, nil
}
var permalinker Permalinker = target
if outputFormat != "" {
o := target.OutputFormats().Get(outputFormat)
if o == nil {
s.logNotFound(refURL.Path, fmt.Sprintf("output format %q", outputFormat), page)
return s.notFoundURL, nil
}
permalinker = o
}
if relative {
link = permalinker.RelPermalink()
} else {
link = permalinker.Permalink()
}
}
if refURL.Fragment != "" {
link = link + "#" + refURL.Fragment
if refURL.Path != "" && target != nil && !target.getRenderingConfig().PlainIDAnchors {
link = link + ":" + target.UniqueID()
} else if page != nil && !page.getRenderingConfig().PlainIDAnchors {
link = link + ":" + page.UniqueID()
}
}
return link, nil
}
// Ref will give an absolute URL to ref in the given Page.
func (s *SiteInfo) Ref(ref string, page *Page, options ...string) (string, error) {
outputFormat := ""
if len(options) > 0 {
outputFormat = options[0]
}
return s.s.refLink(ref, page, false, outputFormat)
}
// RelRef will give an relative URL to ref in the given Page.
func (s *SiteInfo) RelRef(ref string, page *Page, options ...string) (string, error) {
outputFormat := ""
if len(options) > 0 {
outputFormat = options[0]
}
return s.s.refLink(ref, page, true, outputFormat)
}
func (s *Site) running() bool {
return s.owner != nil && s.owner.running
}
func (s *Site) multilingual() *Multilingual {
return s.owner.multilingual
}
func init() {
defaultTimer = nitro.Initalize()
}
func (s *Site) timerStep(step string) {
if s.timer == nil {
s.timer = defaultTimer
}
s.timer.Step(step)
}
type whatChanged struct {
source bool
other bool
files map[string]bool
}
// RegisterMediaTypes will register the Site's media types in the mime
// package, so it will behave correctly with Hugo's built-in server.
func (s *Site) RegisterMediaTypes() {
for _, mt := range s.mediaTypesConfig {
for _, suffix := range mt.Suffixes {
_ = mime.AddExtensionType(mt.Delimiter+suffix, mt.Type()+"; charset=utf-8")
}
}
}
func (s *Site) filterFileEvents(events []fsnotify.Event) []fsnotify.Event {
var filtered []fsnotify.Event
seen := make(map[fsnotify.Event]bool)
for _, ev := range events {
// Avoid processing the same event twice.
if seen[ev] {
continue
}
seen[ev] = true
if s.SourceSpec.IgnoreFile(ev.Name) {
continue
}
// Throw away any directories
isRegular, err := s.SourceSpec.IsRegularSourceFile(ev.Name)
if err != nil && os.IsNotExist(err) && (ev.Op&fsnotify.Remove == fsnotify.Remove || ev.Op&fsnotify.Rename == fsnotify.Rename) {
// Force keep of event
isRegular = true
}
if !isRegular {
continue
}
filtered = append(filtered, ev)
}
return filtered
}
func (s *Site) translateFileEvents(events []fsnotify.Event) []fsnotify.Event {
var filtered []fsnotify.Event
eventMap := make(map[string][]fsnotify.Event)
// We often get a Remove etc. followed by a Create, a Create followed by a Write.
// Remove the superflous events to mage the update logic simpler.
for _, ev := range events {
eventMap[ev.Name] = append(eventMap[ev.Name], ev)
}
for _, ev := range events {
mapped := eventMap[ev.Name]
// Keep one
found := false
var kept fsnotify.Event
for i, ev2 := range mapped {
if i == 0 {
kept = ev2
}
if ev2.Op&fsnotify.Write == fsnotify.Write {
kept = ev2
found = true
}
if !found && ev2.Op&fsnotify.Create == fsnotify.Create {
kept = ev2
}
}
filtered = append(filtered, kept)
}
return filtered
}
// reBuild partially rebuilds a site given the filesystem events.
// It returns whetever the content source was changed.
// TODO(bep) clean up/rewrite this method.
func (s *Site) processPartial(events []fsnotify.Event) (whatChanged, error) {
events = s.filterFileEvents(events)
events = s.translateFileEvents(events)
s.Log.DEBUG.Printf("Rebuild for events %q", events)
h := s.owner
s.timerStep("initialize rebuild")
// First we need to determine what changed
var (
sourceChanged = []fsnotify.Event{}
sourceReallyChanged = []fsnotify.Event{}
contentFilesChanged []string
tmplChanged = []fsnotify.Event{}
dataChanged = []fsnotify.Event{}
i18nChanged = []fsnotify.Event{}
shortcodesChanged = make(map[string]bool)
sourceFilesChanged = make(map[string]bool)
// prevent spamming the log on changes
logger = helpers.NewDistinctFeedbackLogger()
)
cachePartitions := make([]string, len(events))
for i, ev := range events {
cachePartitions[i] = resource.ResourceKeyPartition(ev.Name)
if s.isContentDirEvent(ev) {
logger.Println("Source changed", ev)
sourceChanged = append(sourceChanged, ev)
}
if s.isLayoutDirEvent(ev) {
logger.Println("Template changed", ev)
tmplChanged = append(tmplChanged, ev)
if strings.Contains(ev.Name, "shortcodes") {
clearIsInnerShortcodeCache()
shortcode := filepath.Base(ev.Name)
shortcode = strings.TrimSuffix(shortcode, filepath.Ext(shortcode))
shortcodesChanged[shortcode] = true
}
}
if s.isDataDirEvent(ev) {
logger.Println("Data changed", ev)
dataChanged = append(dataChanged, ev)
}
if s.isI18nEvent(ev) {
logger.Println("i18n changed", ev)
i18nChanged = append(dataChanged, ev)
}
}
// These in memory resource caches will be rebuilt on demand.
for _, s := range s.owner.Sites {
s.ResourceSpec.ResourceCache.DeletePartitions(cachePartitions...)
}
if len(tmplChanged) > 0 || len(i18nChanged) > 0 {
sites := s.owner.Sites
first := sites[0]
// TOD(bep) globals clean
if err := first.Deps.LoadResources(); err != nil {
return whatChanged{}, err
}
s.TemplateHandler().PrintErrors()
for i := 1; i < len(sites); i++ {
site := sites[i]
var err error
depsCfg := deps.DepsCfg{
Language: site.Language,
MediaTypes: site.mediaTypesConfig,
OutputFormats: site.outputFormatsConfig,
}
site.Deps, err = first.Deps.ForLanguage(depsCfg)
if err != nil {
return whatChanged{}, err
}
}
s.timerStep("template prep")
}
if len(dataChanged) > 0 {
if err := s.readDataFromSourceFS(); err != nil {
s.Log.ERROR.Println(err)
}
}
for _, ev := range sourceChanged {
removed := false
if ev.Op&fsnotify.Remove == fsnotify.Remove {
removed = true
}
// Some editors (Vim) sometimes issue only a Rename operation when writing an existing file
// Sometimes a rename operation means that file has been renamed other times it means
// it's been updated
if ev.Op&fsnotify.Rename == fsnotify.Rename {
// If the file is still on disk, it's only been updated, if it's not, it's been moved
if ex, err := afero.Exists(s.Fs.Source, ev.Name); !ex || err != nil {
removed = true
}
}
if removed && IsContentFile(ev.Name) {
h.removePageByFilename(ev.Name)
}
sourceReallyChanged = append(sourceReallyChanged, ev)
sourceFilesChanged[ev.Name] = true
}
for shortcode := range shortcodesChanged {
// There are certain scenarios that, when a shortcode changes,
// it isn't sufficient to just rerender the already parsed shortcode.
// One example is if the user adds a new shortcode to the content file first,
// and then creates the shortcode on the file system.
// To handle these scenarios, we must do a full reprocessing of the
// pages that keeps a reference to the changed shortcode.
pagesWithShortcode := h.findPagesByShortcode(shortcode)
for _, p := range pagesWithShortcode {
contentFilesChanged = append(contentFilesChanged, p.File.Filename())
}
}
if len(sourceReallyChanged) > 0 || len(contentFilesChanged) > 0 {
var filenamesChanged []string
for _, e := range sourceReallyChanged {
filenamesChanged = append(filenamesChanged, e.Name)
}
if len(contentFilesChanged) > 0 {
filenamesChanged = append(filenamesChanged, contentFilesChanged...)
}
filenamesChanged = helpers.UniqueStrings(filenamesChanged)
if err := s.readAndProcessContent(filenamesChanged...); err != nil {
return whatChanged{}, err
}
}
changed := whatChanged{
source: len(sourceChanged) > 0 || len(shortcodesChanged) > 0,
other: len(tmplChanged) > 0 || len(i18nChanged) > 0 || len(dataChanged) > 0,
files: sourceFilesChanged,
}
return changed, nil
}
func (s *Site) loadData(fs afero.Fs) (err error) {
spec := src.NewSourceSpec(s.PathSpec, fs)
fileSystem := spec.NewFilesystem("")
s.Data = make(map[string]interface{})
for _, r := range fileSystem.Files() {
if err := s.handleDataFile(r); err != nil {
return err
}
}
return
}
func (s *Site) handleDataFile(r source.ReadableFile) error {
var current map[string]interface{}
f, err := r.Open()
if err != nil {
return fmt.Errorf("Failed to open data file %q: %s", r.LogicalName(), err)
}
defer f.Close()
// Crawl in data tree to insert data
current = s.Data
keyParts := strings.Split(r.Dir(), helpers.FilePathSeparator)
// The first path element is the virtual folder (typically theme name), which is
// not part of the key.
if len(keyParts) > 1 {
for _, key := range keyParts[1:] {
if key != "" {
if _, ok := current[key]; !ok {
current[key] = make(map[string]interface{})
}
current = current[key].(map[string]interface{})
}
}
}
data, err := s.readData(r)
if err != nil {
s.Log.ERROR.Printf("Failed to read data from %s: %s", filepath.Join(r.Path(), r.LogicalName()), err)
return nil
}
if data == nil {
return nil
}
// filepath.Walk walks the files in lexical order, '/' comes before '.'
// this warning could happen if
// 1. A theme uses the same key; the main data folder wins
// 2. A sub folder uses the same key: the sub folder wins
higherPrecedentData := current[r.BaseFileName()]
switch data.(type) {
case nil:
// hear the crickets?
case map[string]interface{}:
switch higherPrecedentData.(type) {
case nil:
current[r.BaseFileName()] = data
case map[string]interface{}:
// merge maps: insert entries from data for keys that
// don't already exist in higherPrecedentData
higherPrecedentMap := higherPrecedentData.(map[string]interface{})
for key, value := range data.(map[string]interface{}) {
if _, exists := higherPrecedentMap[key]; exists {
s.Log.WARN.Printf("Data for key '%s' in path '%s' is overridden higher precedence data already in the data tree", key, r.Path())
} else {
higherPrecedentMap[key] = value
}
}
default:
// can't merge: higherPrecedentData is not a map
s.Log.WARN.Printf("The %T data from '%s' overridden by "+
"higher precedence %T data already in the data tree", data, r.Path(), higherPrecedentData)
}
case []interface{}:
if higherPrecedentData == nil {
current[r.BaseFileName()] = data
} else {
// we don't merge array data
s.Log.WARN.Printf("The %T data from '%s' overridden by "+
"higher precedence %T data already in the data tree", data, r.Path(), higherPrecedentData)
}
default:
s.Log.ERROR.Printf("unexpected data type %T in file %s", data, r.LogicalName())
}
return nil
}
func (s *Site) readData(f source.ReadableFile) (interface{}, error) {
file, err := f.Open()
if err != nil {
return nil, fmt.Errorf("readData: failed to open data file: %s", err)
}
defer file.Close()
content := helpers.ReaderToBytes(file)
switch f.Extension() {
case "yaml", "yml":
return parser.HandleYAMLData(content)
case "json":
return parser.HandleJSONData(content)
case "toml":
return parser.HandleTOMLMetaData(content)
default:
return nil, fmt.Errorf("Data not supported for extension '%s'", f.Extension())
}
}
func (s *Site) readDataFromSourceFS() error {
err := s.loadData(s.PathSpec.BaseFs.Data.Fs)
s.timerStep("load data")
return err
}
func (s *Site) process(config BuildCfg) (err error) {
if err = s.initialize(); err != nil {
return
}
s.timerStep("initialize")
if err = s.readDataFromSourceFS(); err != nil {
return
}
s.timerStep("load i18n")
if err := s.readAndProcessContent(); err != nil {
return err
}
s.timerStep("read and convert pages from source")
return err
}
func (s *Site) setupSitePages() {
var siteLastChange time.Time
for i, page := range s.RegularPages {
if i < len(s.RegularPages)-1 {
page.Next = s.RegularPages[i+1]
}
if i > 0 {
page.Prev = s.RegularPages[i-1]
}
// Determine Site.Info.LastChange
// Note that the logic to determine which date to use for Lastmod
// is already applied, so this is *the* date to use.
// We cannot just pick the last page in the default sort, because
// that may not be ordered by date.
if page.Lastmod.After(siteLastChange) {
siteLastChange = page.Lastmod
}
}
s.Info.LastChange = siteLastChange
}
func (s *Site) render(config *BuildCfg, outFormatIdx int) (err error) {
// Clear the global page cache.
spc.clear()
if outFormatIdx == 0 {
if err = s.preparePages(); err != nil {
return
}
s.timerStep("prepare pages")
// Note that even if disableAliases is set, the aliases themselves are
// preserved on page. The motivation with this is to be able to generate
// 301 redirects in a .htacess file and similar using a custom output format.
if !s.Cfg.GetBool("disableAliases") {
// Aliases must be rendered before pages.
// Some sites, Hugo docs included, have faulty alias definitions that point
// to itself or another real page. These will be overwritten in the next
// step.
if err = s.renderAliases(); err != nil {
return
}
s.timerStep("render and write aliases")
}
}
if err = s.renderPages(config); err != nil {
return
}
s.timerStep("render and write pages")
// TODO(bep) render consider this, ref. render404 etc.
if outFormatIdx > 0 {
return
}
if err = s.renderSitemap(); err != nil {
return
}
s.timerStep("render and write Sitemap")
if err = s.renderRobotsTXT(); err != nil {
return
}
s.timerStep("render and write robots.txt")
if err = s.render404(); err != nil {
return
}
s.timerStep("render and write 404")
return
}
func (s *Site) Initialise() (err error) {
return s.initialize()
}
func (s *Site) initialize() (err error) {
s.Menus = Menus{}
return s.initializeSiteInfo()
}
// HomeAbsURL is a convenience method giving the absolute URL to the home page.
func (s *SiteInfo) HomeAbsURL() string {
base := ""
if s.IsMultiLingual() {
base = s.Language.Lang
}
return s.owner.AbsURL(base, false)
}
// SitemapAbsURL is a convenience method giving the absolute URL to the sitemap.
func (s *SiteInfo) SitemapAbsURL() string {
sitemapDefault := parseSitemap(s.s.Cfg.GetStringMap("sitemap"))
p := s.HomeAbsURL()
if !strings.HasSuffix(p, "/") {
p += "/"
}
p += sitemapDefault.Filename
return p
}
func (s *Site) initializeSiteInfo() error {
var (
lang = s.Language
languages langs.Languages
)
if s.owner != nil && s.owner.multilingual != nil {
languages = s.owner.multilingual.Languages
}
params := lang.Params()
permalinks := make(PermalinkOverrides)
for k, v := range s.Cfg.GetStringMapString("permalinks") {
permalinks[k] = pathPattern(v)
}
defaultContentInSubDir := s.Cfg.GetBool("defaultContentLanguageInSubdir")
defaultContentLanguage := s.Cfg.GetString("defaultContentLanguage")
languagePrefix := ""
if s.multilingualEnabled() && (defaultContentInSubDir || lang.Lang != defaultContentLanguage) {
languagePrefix = "/" + lang.Lang
}
var uglyURLs = func(p *Page) bool {
return false
}
v := s.Cfg.Get("uglyURLs")
if v != nil {
switch vv := v.(type) {
case bool:
uglyURLs = func(p *Page) bool {
return vv
}
case string:
// Is what be get from CLI (--uglyURLs)
vvv := cast.ToBool(vv)
uglyURLs = func(p *Page) bool {
return vvv
}
default:
m := cast.ToStringMapBool(v)
uglyURLs = func(p *Page) bool {
return m[p.Section()]
}
}
}
s.Info = SiteInfo{
Title: lang.GetString("title"),
Author: lang.GetStringMap("author"),
Social: lang.GetStringMapString("social"),
LanguageCode: lang.GetString("languageCode"),
Copyright: lang.GetString("copyright"),
Language: lang,
LanguagePrefix: languagePrefix,
Languages: languages,
defaultContentLanguageInSubdir: defaultContentInSubDir,
sectionPagesMenu: lang.GetString("sectionPagesMenu"),
BuildDrafts: s.Cfg.GetBool("buildDrafts"),
canonifyURLs: s.Cfg.GetBool("canonifyURLs"),
relativeURLs: s.Cfg.GetBool("relativeURLs"),
uglyURLs: uglyURLs,
preserveTaxonomyNames: lang.GetBool("preserveTaxonomyNames"),
PageCollections: s.PageCollections,
Menus: &s.Menus,
Params: params,
Permalinks: permalinks,
Data: &s.Data,
owner: s.owner,
s: s,
// TODO(bep) make this Menu and similar into delegate methods on SiteInfo
Taxonomies: s.Taxonomies,
}
rssOutputFormat, found := s.outputFormats[KindHome].GetByName(output.RSSFormat.Name)
if found {
s.Info.RSSLink = s.permalink(rssOutputFormat.BaseFilename())
}
return nil
}
func (s *Site) isI18nEvent(e fsnotify.Event) bool {
return s.BaseFs.SourceFilesystems.IsI18n(e.Name)
}
func (s *Site) isDataDirEvent(e fsnotify.Event) bool {
return s.BaseFs.SourceFilesystems.IsData(e.Name)
}
func (s *Site) isLayoutDirEvent(e fsnotify.Event) bool {
return s.BaseFs.SourceFilesystems.IsLayout(e.Name)
}
func (s *Site) absContentDir() string {
return s.PathSpec.AbsPathify(s.PathSpec.ContentDir)
}
func (s *Site) isContentDirEvent(e fsnotify.Event) bool {
return s.BaseFs.IsContent(e.Name)
}
type contentCaptureResultHandler struct {
defaultContentProcessor *siteContentProcessor
contentProcessors map[string]*siteContentProcessor
}
func (c *contentCaptureResultHandler) getContentProcessor(lang string) *siteContentProcessor {
proc, found := c.contentProcessors[lang]
if found {
return proc
}
return c.defaultContentProcessor
}
func (c *contentCaptureResultHandler) handleSingles(fis ...*fileInfo) {
for _, fi := range fis {
proc := c.getContentProcessor(fi.Lang())
proc.processSingle(fi)
}
}
func (c *contentCaptureResultHandler) handleBundles(d *bundleDirs) {
for _, b := range d.bundles {
proc := c.getContentProcessor(b.fi.Lang())
proc.processBundle(b)
}
}
func (c *contentCaptureResultHandler) handleCopyFiles(files ...pathLangFile) {
for _, proc := range c.contentProcessors {
proc.processAssets(files)
}
}
func (s *Site) readAndProcessContent(filenames ...string) error {
ctx := context.Background()
g, ctx := errgroup.WithContext(ctx)
defaultContentLanguage := s.SourceSpec.DefaultContentLanguage
contentProcessors := make(map[string]*siteContentProcessor)
var defaultContentProcessor *siteContentProcessor
sites := s.owner.langSite()
for k, v := range sites {
if v.Language.Disabled {
continue
}
proc := newSiteContentProcessor(ctx, len(filenames) > 0, v)
contentProcessors[k] = proc
if k == defaultContentLanguage {
defaultContentProcessor = proc
}
g.Go(func() error {
return proc.process(ctx)
})
}
var (
handler captureResultHandler
bundleMap *contentChangeMap
)
mainHandler := &contentCaptureResultHandler{contentProcessors: contentProcessors, defaultContentProcessor: defaultContentProcessor}
sourceSpec := source.NewSourceSpec(s.PathSpec, s.BaseFs.Content.Fs)
if s.running() {
// Need to track changes.
bundleMap = s.owner.ContentChanges
handler = &captureResultHandlerChain{handlers: []captureBundlesHandler{mainHandler, bundleMap}}
} else {
handler = mainHandler
}
c := newCapturer(s.Log, sourceSpec, handler, bundleMap, filenames...)
err1 := c.capture()
for _, proc := range contentProcessors {
proc.closeInput()
}
err2 := g.Wait()
if err1 != nil {
return err1
}
return err2
}
func (s *Site) buildSiteMeta() (err error) {
defer s.timerStep("build Site meta")
if len(s.Pages) == 0 {
return
}
s.assembleTaxonomies()
for _, p := range s.AllPages {
// this depends on taxonomies
p.setValuesForKind(s)
}
return
}
func (s *Site) getMenusFromConfig() Menus {
ret := Menus{}
if menus := s.Language.GetStringMap("menu"); menus != nil {
for name, menu := range menus {
m, err := cast.ToSliceE(menu)
if err != nil {
s.Log.ERROR.Printf("unable to process menus in site config\n")
s.Log.ERROR.Println(err)
} else {
for _, entry := range m {
s.Log.DEBUG.Printf("found menu: %q, in site config\n", name)
menuEntry := MenuEntry{Menu: name}
ime, err := cast.ToStringMapE(entry)
if err != nil {
s.Log.ERROR.Printf("unable to process menus in site config\n")
s.Log.ERROR.Println(err)
}
menuEntry.marshallMap(ime)
menuEntry.URL = s.Info.createNodeMenuEntryURL(menuEntry.URL)
if ret[name] == nil {
ret[name] = &Menu{}
}
*ret[name] = ret[name].add(&menuEntry)
}
}
}
return ret
}
return ret
}
func (s *SiteInfo) createNodeMenuEntryURL(in string) string {
if !strings.HasPrefix(in, "/") {
return in
}
// make it match the nodes
menuEntryURL := in
menuEntryURL = helpers.SanitizeURLKeepTrailingSlash(s.s.PathSpec.URLize(menuEntryURL))
if !s.canonifyURLs {
menuEntryURL = helpers.AddContextRoot(s.s.PathSpec.BaseURL.String(), menuEntryURL)
}
return menuEntryURL
}
func (s *Site) assembleMenus() {
s.Menus = Menus{}
type twoD struct {
MenuName, EntryName string
}
flat := map[twoD]*MenuEntry{}
children := map[twoD]Menu{}
// add menu entries from config to flat hash
menuConfig := s.getMenusFromConfig()
for name, menu := range menuConfig {
for _, me := range *menu {
flat[twoD{name, me.KeyName()}] = me
}
}
sectionPagesMenu := s.Info.sectionPagesMenu
pages := s.Pages
if sectionPagesMenu != "" {
for _, p := range pages {
if p.Kind == KindSection {
// From Hugo 0.22 we have nested sections, but until we get a
// feel of how that would work in this setting, let us keep
// this menu for the top level only.
id := p.Section()
if _, ok := flat[twoD{sectionPagesMenu, id}]; ok {
continue
}
me := MenuEntry{Identifier: id,
Name: p.LinkTitle(),
Weight: p.Weight,
URL: p.RelPermalink()}
flat[twoD{sectionPagesMenu, me.KeyName()}] = &me
}
}
}
// Add menu entries provided by pages
for _, p := range pages {
for name, me := range p.Menus() {
if _, ok := flat[twoD{name, me.KeyName()}]; ok {
s.Log.ERROR.Printf("Two or more menu items have the same name/identifier in Menu %q: %q.\nRename or set an unique identifier.\n", name, me.KeyName())
continue
}
flat[twoD{name, me.KeyName()}] = me
}
}
// Create Children Menus First
for _, e := range flat {
if e.Parent != "" {
children[twoD{e.Menu, e.Parent}] = children[twoD{e.Menu, e.Parent}].add(e)
}
}
// Placing Children in Parents (in flat)
for p, childmenu := range children {
_, ok := flat[twoD{p.MenuName, p.EntryName}]
if !ok {
// if parent does not exist, create one without a URL
flat[twoD{p.MenuName, p.EntryName}] = &MenuEntry{Name: p.EntryName, URL: ""}
}
flat[twoD{p.MenuName, p.EntryName}].Children = childmenu
}
// Assembling Top Level of Tree
for menu, e := range flat {
if e.Parent == "" {
_, ok := s.Menus[menu.MenuName]
if !ok {
s.Menus[menu.MenuName] = &Menu{}
}
*s.Menus[menu.MenuName] = s.Menus[menu.MenuName].add(e)
}
}
}
func (s *Site) getTaxonomyKey(key string) string {
if s.Info.preserveTaxonomyNames {
// Keep as is
return key
}
return s.PathSpec.MakePathSanitized(key)
}
// We need to create the top level taxonomy early in the build process
// to be able to determine the page Kind correctly.
func (s *Site) createTaxonomiesEntries() {
s.Taxonomies = make(TaxonomyList)
taxonomies := s.Language.GetStringMapString("taxonomies")
for _, plural := range taxonomies {
s.Taxonomies[plural] = make(Taxonomy)
}
}
func (s *Site) assembleTaxonomies() {
s.taxonomiesPluralSingular = make(map[string]string)
s.taxonomiesOrigKey = make(map[string]string)
taxonomies := s.Language.GetStringMapString("taxonomies")
s.Log.INFO.Printf("found taxonomies: %#v\n", taxonomies)
for singular, plural := range taxonomies {
s.taxonomiesPluralSingular[plural] = singular
for _, p := range s.Pages {
vals := p.getParam(plural, !s.Info.preserveTaxonomyNames)
weight := p.getParamToLower(plural + "_weight")
if weight == nil {
weight = 0
}
if vals != nil {
if v, ok := vals.([]string); ok {
for _, idx := range v {
x := WeightedPage{weight.(int), p}
s.Taxonomies[plural].add(s.getTaxonomyKey(idx), x)
if s.Info.preserveTaxonomyNames {
// Need to track the original
s.taxonomiesOrigKey[fmt.Sprintf("%s-%s", plural, s.PathSpec.MakePathSanitized(idx))] = idx
}
}
} else if v, ok := vals.(string); ok {
x := WeightedPage{weight.(int), p}
s.Taxonomies[plural].add(s.getTaxonomyKey(v), x)
if s.Info.preserveTaxonomyNames {
// Need to track the original
s.taxonomiesOrigKey[fmt.Sprintf("%s-%s", plural, s.PathSpec.MakePathSanitized(v))] = v
}
} else {
s.Log.ERROR.Printf("Invalid %s in %s\n", plural, p.File.Path())
}
}
}
for k := range s.Taxonomies[plural] {
s.Taxonomies[plural][k].Sort()
}
}
s.Info.Taxonomies = s.Taxonomies
}
// Prepare site for a new full build.
func (s *Site) resetBuildState() {
s.relatedDocsHandler = newSearchIndexHandler(s.relatedDocsHandler.cfg)
s.PageCollections = newPageCollectionsFromPages(s.rawAllPages)
// TODO(bep) get rid of this double
s.Info.PageCollections = s.PageCollections
s.draftCount = 0
s.futureCount = 0
s.expiredCount = 0
for _, p := range s.rawAllPages {
p.subSections = Pages{}
p.parent = nil
p.scratch = maps.NewScratch()
p.mainPageOutput = nil
}
}
func (s *Site) kindFromSections(sections []string) string {
if len(sections) == 0 {
return KindSection
}
if _, isTaxonomy := s.Taxonomies[sections[0]]; isTaxonomy {
if len(sections) == 1 {
return KindTaxonomyTerm
}
return KindTaxonomy
}
return KindSection
}
func (s *Site) layouts(p *PageOutput) ([]string, error) {
return s.layoutHandler.For(p.layoutDescriptor, p.outputFormat)
}
func (s *Site) preparePages() error {
var errors []error
for _, p := range s.Pages {
if err := p.prepareLayouts(); err != nil {
errors = append(errors, err)
}
if err := p.prepareData(s); err != nil {
errors = append(errors, err)
}
}
if len(errors) != 0 {
return fmt.Errorf("Prepare pages failed: %.100q…", errors)
}
return nil
}
func errorCollator(results <-chan error, errs chan<- error) {
errMsgs := []string{}
for err := range results {
if err != nil {
errMsgs = append(errMsgs, err.Error())
}
}
if len(errMsgs) == 0 {
errs <- nil
} else {
errs <- errors.New(strings.Join(errMsgs, "\n"))
}
close(errs)
}
func (s *Site) appendThemeTemplates(in []string) []string {
if !s.PathSpec.ThemeSet() {
return in
}
out := []string{}
// First place all non internal templates
for _, t := range in {
if !strings.HasPrefix(t, "_internal/") {
out = append(out, t)
}
}
// Then place theme templates with the same names
for _, t := range in {
if !strings.HasPrefix(t, "_internal/") {
out = append(out, "theme/"+t)
}
}
// Lastly place internal templates
for _, t := range in {
if strings.HasPrefix(t, "_internal/") {
out = append(out, t)
}
}
return out
}
// GetPage looks up a page of a given type for the given ref.
// In Hugo <= 0.44 you had to add Page Kind (section, home) etc. as the first
// argument and then either a unix styled path (with or without a leading slash))
// or path elements separated.
// When we now remove the Kind from this API, we need to make the transition as painless
// as possible for existing sites. Most sites will use {{ .Site.GetPage "section" "my/section" }},
// i.e. 2 arguments, so we test for that.
func (s *SiteInfo) GetPage(ref ...string) (*Page, error) {
return s.getPageOldVersion(ref...)
}
func (s *Site) permalinkForOutputFormat(link string, f output.Format) (string, error) {
var (
baseURL string
err error
)
if f.Protocol != "" {
baseURL, err = s.PathSpec.BaseURL.WithProtocol(f.Protocol)
if err != nil {
return "", err
}
} else {
baseURL = s.PathSpec.BaseURL.String()
}
return s.PathSpec.PermalinkForBaseURL(link, baseURL), nil
}
func (s *Site) permalink(link string) string {
return s.PathSpec.PermalinkForBaseURL(link, s.PathSpec.BaseURL.String())
}
func (s *Site) renderAndWriteXML(statCounter *uint64, name string, targetPath string, d interface{}, layouts ...string) error {
s.Log.DEBUG.Printf("Render XML for %q to %q", name, targetPath)
renderBuffer := bp.GetBuffer()
defer bp.PutBuffer(renderBuffer)
renderBuffer.WriteString("<?xml version=\"1.0\" encoding=\"utf-8\" standalone=\"yes\" ?>\n")
if err := s.renderForLayouts(name, d, renderBuffer, layouts...); err != nil {
helpers.DistinctWarnLog.Println(err)
return nil
}
var path string
if s.Info.relativeURLs {
path = helpers.GetDottedRelativePath(targetPath)
} else {
s := s.PathSpec.BaseURL.String()
if !strings.HasSuffix(s, "/") {
s += "/"
}
path = s
}
pd := publisher.Descriptor{
Src: renderBuffer,
TargetPath: targetPath,
StatCounter: statCounter,
// For the minification part of XML,
// we currently only use the MIME type.
OutputFormat: output.RSSFormat,
AbsURLPath: path,
}
return s.publisher.Publish(pd)
}
func (s *Site) renderAndWritePage(statCounter *uint64, name string, targetPath string, p *PageOutput, layouts ...string) error {
renderBuffer := bp.GetBuffer()
defer bp.PutBuffer(renderBuffer)
if err := s.renderForLayouts(p.Kind, p, renderBuffer, layouts...); err != nil {
helpers.DistinctWarnLog.Println(err)
return nil
}
if renderBuffer.Len() == 0 {
return nil
}
isHTML := p.outputFormat.IsHTML
var path string
if s.Info.relativeURLs {
path = helpers.GetDottedRelativePath(targetPath)
} else if s.Info.canonifyURLs {
url := s.PathSpec.BaseURL.String()
if !strings.HasSuffix(url, "/") {
url += "/"
}
path = url
}
pd := publisher.Descriptor{
Src: renderBuffer,
TargetPath: targetPath,
StatCounter: statCounter,
OutputFormat: p.outputFormat,
}
if isHTML {
if s.Info.relativeURLs || s.Info.canonifyURLs {
pd.AbsURLPath = path
}
if s.running() && s.Cfg.GetBool("watch") && !s.Cfg.GetBool("disableLiveReload") {
pd.LiveReloadPort = s.Cfg.GetInt("liveReloadPort")
}
// For performance reasons we only inject the Hugo generator tag on the home page.
if p.IsHome() {
pd.AddHugoGeneratorTag = !s.Cfg.GetBool("disableHugoGeneratorInject")
}
}
return s.publisher.Publish(pd)
}
func (s *Site) renderForLayouts(name string, d interface{}, w io.Writer, layouts ...string) (err error) {
var templ tpl.Template
defer func() {
if r := recover(); r != nil {
templName := ""
if templ != nil {
templName = templ.Name()
}
s.DistinctErrorLog.Printf("Failed to render %q: %s", templName, r)
s.DistinctErrorLog.Printf("Stack Trace:\n%s", stackTrace(1200))
// TOD(bep) we really need to fix this. Also see below.
if !s.running() && !testMode {
os.Exit(-1)
}
}
}()
templ = s.findFirstTemplate(layouts...)
if templ == nil {
return fmt.Errorf("[%s] Unable to locate layout for %q: %s\n", s.Language.Lang, name, layouts)
}
if err = templ.Execute(w, d); err != nil {
// Behavior here should be dependent on if running in server or watch mode.
if p, ok := d.(*PageOutput); ok {
if p.File != nil {
s.DistinctErrorLog.Printf("Error while rendering %q in %q: %s", name, p.File.Dir(), err)
} else {
s.DistinctErrorLog.Printf("Error while rendering %q: %s", name, err)
}
} else {
s.DistinctErrorLog.Printf("Error while rendering %q: %s", name, err)
}
if !s.running() && !testMode {
// TODO(bep) check if this can be propagated
os.Exit(-1)
} else if testMode {
return
}
}
return
}
func (s *Site) findFirstTemplate(layouts ...string) tpl.Template {
for _, layout := range layouts {
if templ, found := s.Tmpl.Lookup(layout); found {
return templ
}
}
return nil
}
func (s *Site) publish(statCounter *uint64, path string, r io.Reader) (err error) {
s.PathSpec.ProcessingStats.Incr(statCounter)
return helpers.WriteToDisk(filepath.Clean(path), r, s.BaseFs.PublishFs)
}
func getGoMaxProcs() int {
if gmp := os.Getenv("GOMAXPROCS"); gmp != "" {
if p, err := strconv.Atoi(gmp); err != nil {
return p
}
}
return 1
}
func (s *Site) newNodePage(typ string, sections ...string) *Page {
p := &Page{
language: s.Language,
pageInit: &pageInit{},
pageContentInit: &pageContentInit{},
Kind: typ,
Source: Source{File: &source.FileInfo{}},
data: make(map[string]interface{}),
Site: &s.Info,
sections: sections,
s: s}
p.outputFormats = p.s.outputFormats[p.Kind]
return p
}
func (s *Site) newHomePage() *Page {
p := s.newNodePage(KindHome)
p.title = s.Info.Title
pages := Pages{}
p.data["Pages"] = pages
p.Pages = pages
return p
}
func (s *Site) newTaxonomyPage(plural, key string) *Page {
p := s.newNodePage(KindTaxonomy, plural, key)
if s.Info.preserveTaxonomyNames {
p.title = key
} else {
p.title = strings.Replace(s.titleFunc(key), "-", " ", -1)
}
return p
}
func (s *Site) newSectionPage(name string) *Page {
p := s.newNodePage(KindSection, name)
sectionName := helpers.FirstUpper(name)
if s.Cfg.GetBool("pluralizeListTitles") {
p.title = inflect.Pluralize(sectionName)
} else {
p.title = sectionName
}
return p
}
func (s *Site) newTaxonomyTermsPage(plural string) *Page {
p := s.newNodePage(KindTaxonomyTerm, plural)
p.title = s.titleFunc(plural)
return p
}
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