hugo/hugolib/site.go

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// Copyright 2016 The Hugo Authors. All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
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// http://www.apache.org/licenses/LICENSE-2.0
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//
// 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"
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"fmt"
"html/template"
"io"
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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"net/url"
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"os"
"path"
"path/filepath"
"strconv"
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"strings"
"sync"
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"time"
"github.com/bep/inflect"
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"sync/atomic"
"github.com/fsnotify/fsnotify"
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"github.com/spf13/afero"
"github.com/spf13/cast"
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bp "github.com/spf13/hugo/bufferpool"
"github.com/spf13/hugo/deps"
"github.com/spf13/hugo/helpers"
"github.com/spf13/hugo/output"
"github.com/spf13/hugo/parser"
"github.com/spf13/hugo/source"
"github.com/spf13/hugo/tpl"
"github.com/spf13/hugo/transform"
"github.com/spf13/nitro"
"github.com/spf13/viper"
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)
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var _ = transform.AbsURL
// used to indicate if run as a test.
var testMode bool
var defaultTimer *nitro.B
var (
distinctErrorLogger = helpers.NewDistinctErrorLogger()
distinctFeedbackLogger = helpers.NewDistinctFeedbackLogger()
)
// Site contains all the information relevant for constructing a static
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// 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.
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//
// 3. Taxonomies are created via configuration and will present some aspect of
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// 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.
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//
// 5. The entire collection of files is written to disk.
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type Site struct {
owner *HugoSites
*PageCollections
Files []*source.File
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/spf13/hugo/issues/2835
// Maps "actors-gerard-depardieu" to "Gérard Depardieu" when preserveTaxonomyNames
// is set.
taxonomiesOrigKey map[string]string
Source source.Input
Sections Taxonomy
Info SiteInfo
Menus Menus
timer *nitro.B
layoutHandler *output.LayoutHandler
draftCount int
futureCount int
expiredCount int
Data map[string]interface{}
Language *helpers.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
// Logger etc.
*deps.Deps `json:"-"`
siteStats *siteStats
}
type siteStats struct {
pageCount int
pageCountRegular int
}
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(s.PathSpec.ThemeSet()),
disabledKinds: s.disabledKinds,
outputFormats: s.outputFormats,
Language: s.Language,
owner: s.owner,
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 = helpers.NewDefaultLanguage(cfg.Cfg)
}
disabledKinds := make(map[string]bool)
for _, disabled := range cast.ToStringSlice(cfg.Language.Get("disableKinds")) {
disabledKinds[disabled] = true
}
outputFormats, err := createSiteOutputFormats(cfg.Language)
if err != nil {
return nil, err
}
s := &Site{
PageCollections: c,
layoutHandler: output.NewLayoutHandler(cfg.Cfg.GetString("themesDir") != ""),
Language: cfg.Language,
disabledKinds: disabledKinds,
outputFormats: outputFormats,
}
s.Info = newSiteInfo(siteBuilderCfg{s: s, pageCollections: c, language: s.Language})
return s, nil
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}
// 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 = applyDepsIfNeeded(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.
func NewSiteDefaultLang(withTemplate ...func(templ tpl.Template) error) (*Site, error) {
v := viper.New()
loadDefaultSettingsFor(v)
return newSiteForLang(helpers.NewDefaultLanguage(v), withTemplate...)
}
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// 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.
func NewEnglishSite(withTemplate ...func(templ tpl.Template) error) (*Site, error) {
v := viper.New()
loadDefaultSettingsFor(v)
return newSiteForLang(helpers.NewLanguage("en", v), withTemplate...)
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}
// newSiteForLang creates a new site in the given language.
func newSiteForLang(lang *helpers.Language, withTemplate ...func(templ tpl.Template) error) (*Site, error) {
withTemplates := func(templ tpl.Template) error {
for _, wt := range withTemplate {
if err := wt(templ); err != nil {
return err
}
}
return nil
}
cfg := deps.DepsCfg{WithTemplate: withTemplates, Language: lang, Cfg: lang}
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return NewSiteForCfg(cfg)
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}
// 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) {
s, err := newSite(cfg)
if err != nil {
return nil, err
}
if err := applyDepsIfNeeded(cfg, s); err != nil {
return nil, err
}
return s, nil
}
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type SiteInfo struct {
// atomic requires 64-bit alignment for struct field access
// According to the docs, " The first word in a global variable or in an
// allocated struct or slice can be relied upon to be 64-bit aligned."
// Moving paginationPageCount to the top of this struct didn't do the
// magic, maybe due to the way SiteInfo is embedded.
// Adding the 4 byte padding below does the trick.
_ [4]byte
paginationPageCount uint64
BaseURL template.URL
Taxonomies TaxonomyList
Authors AuthorList
Social SiteSocial
Sections Taxonomy
*PageCollections
Files *[]*source.File
Menus *Menus
Hugo *HugoInfo
Title string
RSSLink string
Author map[string]interface{}
LanguageCode string
DisqusShortname string
GoogleAnalytics string
Copyright string
LastChange time.Time
Permalinks PermalinkOverrides
Params map[string]interface{}
BuildDrafts bool
canonifyURLs bool
relativeURLs bool
uglyURLs bool
preserveTaxonomyNames bool
Data *map[string]interface{}
owner *HugoSites
s *Site
multilingual *Multilingual
Language *helpers.Language
LanguagePrefix string
Languages helpers.Languages
defaultContentLanguageInSubdir bool
sectionPagesMenu string
}
func (s *SiteInfo) String() string {
return fmt.Sprintf("Site(%q)", s.Title)
}
// Used in tests.
type siteBuilderCfg struct {
language *helpers.Language
s *Site
pageCollections *PageCollections
baseURL string
}
// TODO(bep) get rid of this
func newSiteInfo(cfg siteBuilderCfg) SiteInfo {
return SiteInfo{
s: cfg.s,
BaseURL: template.URL(cfg.baseURL),
multilingual: newMultiLingualForLanguage(cfg.language),
PageCollections: cfg.pageCollections,
Params: make(map[string]interface{}),
}
}
// 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
}
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// GetParam gets a site parameter value if found, nil if not.
func (s *SiteInfo) GetParam(key string) interface{} {
// Remove in Hugo 0.20
helpers.Deprecated("SiteInfo", ".GetParam", "Use .Param", true)
v := s.Params[strings.ToLower(key)]
if v == nil {
return nil
}
switch val := v.(type) {
case bool:
return val
case string:
return val
case int64, int32, int16, int8, int:
return cast.ToInt(v)
case float64, float32:
return cast.ToFloat64(v)
case time.Time:
return val
case []string:
return v
}
return nil
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}
func (s *SiteInfo) IsMultiLingual() bool {
return len(s.Languages) > 1
}
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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func (s *SiteInfo) refLink(ref string, page *Page, relative bool) (string, error) {
var refURL *url.URL
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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var err error
refURL, err = url.Parse(ref)
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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if err != nil {
return "", err
}
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var target *Page
var link string
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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if refURL.Path != "" {
for _, page := range s.AllRegularPages {
refPath := filepath.FromSlash(refURL.Path)
if page.Source.Path() == refPath || page.Source.LogicalName() == refPath {
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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target = page
break
}
}
if target == nil {
return "", fmt.Errorf("No page found with path or logical name \"%s\".\n", refURL.Path)
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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}
if relative {
link = target.RelPermalink()
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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} else {
link = target.Permalink()
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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}
}
if refURL.Fragment != "" {
link = link + "#" + refURL.Fragment
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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if refURL.Path != "" && target != nil && !target.getRenderingConfig().PlainIDAnchors {
link = link + ":" + target.UniqueID()
} else if page != nil && !page.getRenderingConfig().PlainIDAnchors {
link = link + ":" + page.UniqueID()
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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}
}
return link, nil
}
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// Ref will give an absolute URL to ref in the given Page.
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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func (s *SiteInfo) Ref(ref string, page *Page) (string, error) {
return s.refLink(ref, page, false)
}
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// RelRef will give an relative URL to ref in the given Page.
Provide (relative) reference funcs & shortcodes. - `.Ref` and `.RelRef` take a reference (the logical filename for a page, including extension and/or a document fragment ID) and return a permalink (or relative permalink) to the referenced document. - If the reference is a page name (such as `about.md`), the page will be discovered and the permalink will be returned: `/about/` - If the reference is a page name with a fragment (such as `about.md#who`), the page will be discovered and used to add the `page.UniqueID()` to the resulting fragment and permalink: `/about/#who:deadbeef`. - If the reference is a fragment and `.*Ref` has been called from a `Node` or `SiteInfo`, it will be returned as is: `#who`. - If the reference is a fragment and `.*Ref` has been called from a `Page`, it will be returned with the page’s unique ID: `#who:deadbeef`. - `.*Ref` can be called from either `Node`, `SiteInfo` (e.g., `Node.Site`), `Page` objects, or `ShortcodeWithPage` objects in templates. - `.*Ref` cannot be used in content, so two shortcodes have been created to provide the functionality to content: `ref` and `relref`. These are intended to be used within markup, like `[Who]({{% ref about.md#who %}})` or `<a href="{{% ref about.md#who %}}">Who</a>`. - There are also `ref` and `relref` template functions (used to create the shortcodes) that expect a `Page` or `Node` object and the reference string (e.g., `{{ relref . "about.md" }}` or `{{ "about.md" | ref . }}`). It actually looks for `.*Ref` as defined on `Node` or `Page` objects. - Shortcode handling had to use a *differently unique* wrapper in `createShortcodePlaceholder` because of the way that the `ref` and `relref` are intended to be used in content.
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func (s *SiteInfo) RelRef(ref string, page *Page) (string, error) {
return s.refLink(ref, page, true)
}
// SourceRelativeLink attempts to convert any source page relative links (like [../another.md]) into absolute links
func (s *SiteInfo) SourceRelativeLink(ref string, currentPage *Page) (string, error) {
var refURL *url.URL
var err error
refURL, err = url.Parse(strings.TrimPrefix(ref, currentPage.getRenderingConfig().SourceRelativeLinksProjectFolder))
if err != nil {
return "", err
}
if refURL.Scheme != "" {
// Not a relative source level path
return ref, nil
}
var target *Page
var link string
if refURL.Path != "" {
refPath := filepath.Clean(filepath.FromSlash(refURL.Path))
if strings.IndexRune(refPath, os.PathSeparator) == 0 { // filepath.IsAbs fails to me.
refPath = refPath[1:]
} else {
if currentPage != nil {
refPath = filepath.Join(currentPage.Source.Dir(), refURL.Path)
}
}
for _, page := range s.AllRegularPages {
if page.Source.Path() == refPath {
target = page
break
}
}
// need to exhaust the test, then try with the others :/
// if the refPath doesn't end in a filename with extension `.md`, then try with `.md` , and then `/index.md`
mdPath := strings.TrimSuffix(refPath, string(os.PathSeparator)) + ".md"
for _, page := range s.AllRegularPages {
if page.Source.Path() == mdPath {
target = page
break
}
}
indexPath := filepath.Join(refPath, "index.md")
for _, page := range s.AllRegularPages {
if page.Source.Path() == indexPath {
target = page
break
}
}
if target == nil {
return "", fmt.Errorf("No page found for \"%s\" on page \"%s\".\n", ref, currentPage.Source.Path())
}
link = target.RelPermalink()
}
if refURL.Fragment != "" {
link = link + "#" + refURL.Fragment
if refURL.Path != "" && target != nil && !target.getRenderingConfig().PlainIDAnchors {
link = link + ":" + target.UniqueID()
} else if currentPage != nil && !currentPage.getRenderingConfig().PlainIDAnchors {
link = link + ":" + currentPage.UniqueID()
}
}
return link, nil
}
// SourceRelativeLinkFile attempts to convert any non-md source relative links (like [../another.gif]) into absolute links
func (s *SiteInfo) SourceRelativeLinkFile(ref string, currentPage *Page) (string, error) {
var refURL *url.URL
var err error
refURL, err = url.Parse(strings.TrimPrefix(ref, currentPage.getRenderingConfig().SourceRelativeLinksProjectFolder))
if err != nil {
return "", err
}
if refURL.Scheme != "" {
// Not a relative source level path
return ref, nil
}
var target *source.File
var link string
if refURL.Path != "" {
refPath := filepath.Clean(filepath.FromSlash(refURL.Path))
if strings.IndexRune(refPath, os.PathSeparator) == 0 { // filepath.IsAbs fails to me.
refPath = refPath[1:]
} else {
if currentPage != nil {
refPath = filepath.Join(currentPage.Source.Dir(), refURL.Path)
}
}
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for _, file := range *s.Files {
if file.Path() == refPath {
target = file
break
}
}
if target == nil {
return "", fmt.Errorf("No file found for \"%s\" on page \"%s\".\n", ref, currentPage.Source.Path())
}
link = target.Path()
return "/" + filepath.ToSlash(link), nil
}
return "", fmt.Errorf("failed to find a file to match \"%s\" on page \"%s\"", ref, currentPage.Source.Path())
}
func (s *SiteInfo) addToPaginationPageCount(cnt uint64) {
atomic.AddUint64(&s.paginationPageCount, cnt)
}
type runmode struct {
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Watching bool
}
func (s *Site) running() bool {
return s.owner.runMode.Watching
}
func init() {
defaultTimer = nitro.Initalize()
}
func (s *Site) timerStep(step string) {
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if s.timer == nil {
s.timer = defaultTimer
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}
s.timer.Step(step)
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}
type whatChanged struct {
source bool
other bool
}
// reBuild partially rebuilds a site given the filesystem events.
// It returns whetever the content source was changed.
func (s *Site) reProcess(events []fsnotify.Event) (whatChanged, error) {
s.Log.DEBUG.Printf("Rebuild for events %q", events)
s.timerStep("initialize rebuild")
// First we need to determine what changed
sourceChanged := []fsnotify.Event{}
sourceReallyChanged := []fsnotify.Event{}
tmplChanged := []fsnotify.Event{}
dataChanged := []fsnotify.Event{}
i18nChanged := []fsnotify.Event{}
shortcodesChanged := make(map[string]bool)
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// prevent spamming the log on changes
logger := helpers.NewDistinctFeedbackLogger()
for _, ev := range events {
if s.isContentDirEvent(ev) {
logger.Println("Source changed", ev.Name)
sourceChanged = append(sourceChanged, ev)
}
if s.isLayoutDirEvent(ev) {
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logger.Println("Template changed", ev.Name)
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) {
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logger.Println("Data changed", ev.Name)
dataChanged = append(dataChanged, ev)
}
if s.isI18nEvent(ev) {
logger.Println("i18n changed", ev.Name)
i18nChanged = append(dataChanged, ev)
}
}
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 {
s.Log.ERROR.Println(err)
}
s.Tmpl.PrintErrors()
for i := 1; i < len(sites); i++ {
site := sites[i]
var err error
site.Deps, err = first.Deps.ForLanguage(site.Language)
if err != nil {
return whatChanged{}, err
}
}
s.timerStep("template prep")
}
if len(dataChanged) > 0 {
s.readDataFromSourceFS()
}
// If a content file changes, we need to reload only it and re-render the entire site.
// First step is to read the changed files and (re)place them in site.AllPages
// This includes processing any meta-data for that content
// The second step is to convert the content into HTML
// This includes processing any shortcodes that may be present.
// We do this in parallel... even though it's likely only one file at a time.
// We need to process the reading prior to the conversion for each file, but
// we can convert one file while another one is still reading.
errs := make(chan error, 2)
readResults := make(chan HandledResult)
filechan := make(chan *source.File)
convertResults := make(chan HandledResult)
pageChan := make(chan *Page)
fileConvChan := make(chan *source.File)
coordinator := make(chan bool)
wg := &sync.WaitGroup{}
wg.Add(2)
for i := 0; i < 2; i++ {
go sourceReader(s, filechan, readResults, wg)
}
wg2 := &sync.WaitGroup{}
wg2.Add(4)
for i := 0; i < 2; i++ {
go fileConverter(s, fileConvChan, convertResults, wg2)
go pageConverter(pageChan, convertResults, wg2)
}
for _, ev := range sourceChanged {
// The incrementalReadCollator below will also make changes to the site's pages,
// so we do this first to prevent races.
if ev.Op&fsnotify.Remove == fsnotify.Remove {
//remove the file & a create will follow
path, _ := helpers.GetRelativePath(ev.Name, s.getContentDir(ev.Name))
s.removePageByPath(path)
continue
}
// 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 {
path, _ := helpers.GetRelativePath(ev.Name, s.getContentDir(ev.Name))
s.removePageByPath(path)
continue
}
}
sourceReallyChanged = append(sourceReallyChanged, ev)
}
go incrementalReadCollator(s, readResults, pageChan, fileConvChan, coordinator, errs)
go converterCollator(convertResults, errs)
for _, ev := range sourceReallyChanged {
file, err := s.reReadFile(ev.Name)
if err != nil {
s.Log.ERROR.Println("Error reading file", ev.Name, ";", err)
}
if file != nil {
filechan <- file
}
}
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 := s.findPagesByShortcode(shortcode)
for _, p := range pagesWithShortcode {
p.rendered = false
pageChan <- p
}
}
// we close the filechan as we have sent everything we want to send to it.
// this will tell the sourceReaders to stop iterating on that channel
close(filechan)
// waiting for the sourceReaders to all finish
wg.Wait()
// Now closing readResults as this will tell the incrementalReadCollator to
// stop iterating over that.
close(readResults)
// once readResults is finished it will close coordinator and move along
<-coordinator
// allow that routine to finish, then close page & fileconvchan as we've sent
// everything to them we need to.
close(pageChan)
close(fileConvChan)
wg2.Wait()
close(convertResults)
s.timerStep("read & convert pages from source")
for i := 0; i < 2; i++ {
err := <-errs
if err != nil {
s.Log.ERROR.Println(err)
}
}
changed := whatChanged{
source: len(sourceChanged) > 0,
other: len(tmplChanged) > 0 || len(i18nChanged) > 0 || len(dataChanged) > 0,
}
return changed, nil
}
func (s *Site) loadData(sources []source.Input) (err error) {
s.Log.DEBUG.Printf("Load Data from %d source(s)", len(sources))
s.Data = make(map[string]interface{})
var current map[string]interface{}
for _, currentSource := range sources {
for _, r := range currentSource.Files() {
// Crawl in data tree to insert data
current = s.Data
for _, key := range strings.Split(r.Dir(), helpers.FilePathSeparator) {
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 {
return fmt.Errorf("Failed to read data from %s: %s", filepath.Join(r.Path(), r.LogicalName()), err)
}
if data == nil {
continue
}
// Copy content from current to data when needed
if _, ok := current[r.BaseFileName()]; ok {
data := data.(map[string]interface{})
for key, value := range current[r.BaseFileName()].(map[string]interface{}) {
if _, override := data[key]; override {
// 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
s.Log.WARN.Printf("Data for key '%s' in path '%s' is overridden in subfolder", key, r.Path())
}
data[key] = value
}
}
// Insert data
current[r.BaseFileName()] = data
}
}
return
}
func (s *Site) readData(f *source.File) (interface{}, error) {
switch f.Extension() {
case "yaml", "yml":
return parser.HandleYAMLMetaData(f.Bytes())
case "json":
return parser.HandleJSONMetaData(f.Bytes())
case "toml":
return parser.HandleTOMLMetaData(f.Bytes())
default:
return nil, fmt.Errorf("Data not supported for extension '%s'", f.Extension())
}
}
func (s *Site) readDataFromSourceFS() error {
sp := source.NewSourceSpec(s.Cfg, s.Fs)
dataSources := make([]source.Input, 0, 2)
dataSources = append(dataSources, sp.NewFilesystem(s.absDataDir()))
// have to be last - duplicate keys in earlier entries will win
themeDataDir, err := s.PathSpec.GetThemeDataDirPath()
if err == nil {
dataSources = append(dataSources, sp.NewFilesystem(themeDataDir))
}
err = s.loadData(dataSources)
s.timerStep("load data")
return err
}
func (s *Site) process(config BuildCfg) (err error) {
s.timerStep("Go initialization")
if err = s.initialize(); err != nil {
return
}
s.timerStep("initialize")
if err = s.readDataFromSourceFS(); err != nil {
return
}
s.timerStep("load i18n")
return s.createPages()
}
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]
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}
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if i > 0 {
page.Prev = s.RegularPages[i-1]
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}
// 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
}
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}
s.Info.LastChange = siteLastChange
}
func (s *Site) render() (err error) {
if err = s.preparePages(); err != nil {
return
}
s.timerStep("prepare pages")
// 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 {
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return
}
s.timerStep("render and write aliases")
if err = s.renderPages(); err != nil {
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return
}
s.timerStep("render and write pages")
if err = s.renderSitemap(); err != nil {
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return
}
s.timerStep("render and write Sitemap")
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if err = s.renderRobotsTXT(); err != nil {
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return
}
s.timerStep("render and write robots.txt")
if err = s.render404(); err != nil {
return
}
s.timerStep("render and write 404")
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return
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}
func (s *Site) Initialise() (err error) {
return s.initialize()
}
func (s *Site) initialize() (err error) {
defer s.initializeSiteInfo()
s.Menus = Menus{}
// May be supplied in tests.
if s.Source != nil && len(s.Source.Files()) > 0 {
s.Log.DEBUG.Println("initialize: Source is already set")
return
}
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if err = s.checkDirectories(); err != nil {
return err
}
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staticDir := s.PathSpec.GetStaticDirPath() + "/"
sp := source.NewSourceSpec(s.Cfg, s.Fs)
s.Source = sp.NewFilesystem(s.absContentDir(), staticDir)
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return
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}
// 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
}
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func (s *Site) initializeSiteInfo() {
var (
lang = s.Language
languages helpers.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") {
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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 multilingual *Multilingual
if s.owner != nil {
multilingual = s.owner.multilingual
}
s.Info = SiteInfo{
BaseURL: template.URL(helpers.SanitizeURLKeepTrailingSlash(s.Cfg.GetString("baseURL"))),
Title: lang.GetString("title"),
Author: lang.GetStringMap("author"),
Social: lang.GetStringMapString("social"),
LanguageCode: lang.GetString("languageCode"),
Copyright: lang.GetString("copyright"),
DisqusShortname: lang.GetString("disqusShortname"),
multilingual: multilingual,
Language: lang,
LanguagePrefix: languagePrefix,
Languages: languages,
defaultContentLanguageInSubdir: defaultContentInSubDir,
sectionPagesMenu: lang.GetString("sectionPagesMenu"),
GoogleAnalytics: lang.GetString("googleAnalytics"),
BuildDrafts: s.Cfg.GetBool("buildDrafts"),
canonifyURLs: s.Cfg.GetBool("canonifyURLs"),
relativeURLs: s.Cfg.GetBool("relativeURLs"),
uglyURLs: s.Cfg.GetBool("uglyURLs"),
preserveTaxonomyNames: lang.GetBool("preserveTaxonomyNames"),
PageCollections: s.PageCollections,
Files: &s.Files,
Menus: &s.Menus,
Params: params,
Permalinks: permalinks,
Data: &s.Data,
owner: s.owner,
s: s,
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}
s.Info.RSSLink = s.permalink(lang.GetString("rssURI"))
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}
func (s *Site) dataDir() string {
return s.Cfg.GetString("dataDir")
}
func (s *Site) absDataDir() string {
return s.PathSpec.AbsPathify(s.dataDir())
}
func (s *Site) i18nDir() string {
return s.Cfg.GetString("i18nDir")
}
func (s *Site) absI18nDir() string {
return s.PathSpec.AbsPathify(s.i18nDir())
}
func (s *Site) isI18nEvent(e fsnotify.Event) bool {
if s.getI18nDir(e.Name) != "" {
return true
}
return s.getThemeI18nDir(e.Name) != ""
}
func (s *Site) getI18nDir(path string) string {
return s.getRealDir(s.absI18nDir(), path)
}
func (s *Site) getThemeI18nDir(path string) string {
if !s.PathSpec.ThemeSet() {
return ""
}
return s.getRealDir(filepath.Join(s.PathSpec.GetThemeDir(), s.i18nDir()), path)
}
func (s *Site) isDataDirEvent(e fsnotify.Event) bool {
if s.getDataDir(e.Name) != "" {
return true
}
return s.getThemeDataDir(e.Name) != ""
}
func (s *Site) getDataDir(path string) string {
return s.getRealDir(s.absDataDir(), path)
}
func (s *Site) getThemeDataDir(path string) string {
if !s.PathSpec.ThemeSet() {
return ""
}
return s.getRealDir(filepath.Join(s.PathSpec.GetThemeDir(), s.dataDir()), path)
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}
func (s *Site) layoutDir() string {
return s.Cfg.GetString("layoutDir")
}
func (s *Site) isLayoutDirEvent(e fsnotify.Event) bool {
if s.getLayoutDir(e.Name) != "" {
return true
}
return s.getThemeLayoutDir(e.Name) != ""
}
func (s *Site) getLayoutDir(path string) string {
return s.getRealDir(s.PathSpec.GetLayoutDirPath(), path)
}
func (s *Site) getThemeLayoutDir(path string) string {
if !s.PathSpec.ThemeSet() {
return ""
}
return s.getRealDir(filepath.Join(s.PathSpec.GetThemeDir(), s.layoutDir()), path)
}
func (s *Site) absContentDir() string {
return s.PathSpec.AbsPathify(s.Cfg.GetString("contentDir"))
}
func (s *Site) isContentDirEvent(e fsnotify.Event) bool {
return s.getContentDir(e.Name) != ""
}
func (s *Site) getContentDir(path string) string {
return s.getRealDir(s.absContentDir(), path)
}
// getRealDir gets the base path of the given path, also handling the case where
// base is a symlinked folder.
func (s *Site) getRealDir(base, path string) string {
if strings.HasPrefix(path, base) {
return base
}
realDir, err := helpers.GetRealPath(s.Fs.Source, base)
if err != nil {
if !os.IsNotExist(err) {
s.Log.ERROR.Printf("Failed to get real path for %s: %s", path, err)
}
return ""
}
if strings.HasPrefix(path, realDir) {
return realDir
}
return ""
}
func (s *Site) absPublishDir() string {
return s.PathSpec.AbsPathify(s.Cfg.GetString("publishDir"))
}
func (s *Site) checkDirectories() (err error) {
if b, _ := helpers.DirExists(s.absContentDir(), s.Fs.Source); !b {
return errors.New("No source directory found, expecting to find it at " + s.absContentDir())
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}
return
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}
// reReadFile resets file to be read from disk again
func (s *Site) reReadFile(absFilePath string) (*source.File, error) {
s.Log.INFO.Println("rereading", absFilePath)
var file *source.File
reader, err := source.NewLazyFileReader(s.Fs.Source, absFilePath)
if err != nil {
return nil, err
}
sp := source.NewSourceSpec(s.Cfg, s.Fs)
file, err = sp.NewFileFromAbs(s.getContentDir(absFilePath), absFilePath, reader)
if err != nil {
return nil, err
}
return file, nil
}
func (s *Site) readPagesFromSource() chan error {
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if s.Source == nil {
panic(fmt.Sprintf("s.Source not set %s", s.absContentDir()))
}
s.Log.DEBUG.Printf("Read %d pages from source", len(s.Source.Files()))
errs := make(chan error)
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if len(s.Source.Files()) < 1 {
close(errs)
return errs
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}
files := s.Source.Files()
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results := make(chan HandledResult)
filechan := make(chan *source.File)
wg := &sync.WaitGroup{}
numWorkers := getGoMaxProcs() * 4
wg.Add(numWorkers)
for i := 0; i < numWorkers; i++ {
go sourceReader(s, filechan, results, wg)
}
// we can only have exactly one result collator, since it makes changes that
// must be synchronized.
go readCollator(s, results, errs)
for _, file := range files {
filechan <- file
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}
close(filechan)
wg.Wait()
close(results)
return errs
}
func (s *Site) convertSource() chan error {
errs := make(chan error)
results := make(chan HandledResult)
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pageChan := make(chan *Page)
fileConvChan := make(chan *source.File)
numWorkers := getGoMaxProcs() * 4
wg := &sync.WaitGroup{}
for i := 0; i < numWorkers; i++ {
wg.Add(2)
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go fileConverter(s, fileConvChan, results, wg)
go pageConverter(pageChan, results, wg)
}
go converterCollator(results, errs)
for _, p := range s.rawAllPages {
if p.shouldBuild() {
pageChan <- p
}
}
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for _, f := range s.Files {
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fileConvChan <- f
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}
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close(pageChan)
close(fileConvChan)
wg.Wait()
close(results)
return errs
}
func (s *Site) createPages() error {
readErrs := <-s.readPagesFromSource()
s.timerStep("read pages from source")
renderErrs := <-s.convertSource()
s.timerStep("convert source")
if renderErrs == nil && readErrs == nil {
return nil
}
if renderErrs == nil {
return readErrs
}
if readErrs == nil {
return renderErrs
}
return fmt.Errorf("%s\n%s", readErrs, renderErrs)
}
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func sourceReader(s *Site, files <-chan *source.File, results chan<- HandledResult, wg *sync.WaitGroup) {
defer wg.Done()
for file := range files {
readSourceFile(s, file, results)
}
}
func readSourceFile(s *Site, file *source.File, results chan<- HandledResult) {
h := NewMetaHandler(file.Extension())
if h != nil {
h.Read(file, s, results)
} else {
s.Log.ERROR.Println("Unsupported File Type", file.Path())
}
}
func pageConverter(pages <-chan *Page, results HandleResults, wg *sync.WaitGroup) {
defer wg.Done()
for page := range pages {
var h *MetaHandle
if page.Markup != "" {
h = NewMetaHandler(page.Markup)
} else {
h = NewMetaHandler(page.File.Extension())
}
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if h != nil {
// Note that we convert pages from the site's rawAllPages collection
// Which may contain pages from multiple sites, so we use the Page's site
// for the conversion.
h.Convert(page, page.s, results)
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}
}
}
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func fileConverter(s *Site, files <-chan *source.File, results HandleResults, wg *sync.WaitGroup) {
defer wg.Done()
for file := range files {
h := NewMetaHandler(file.Extension())
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if h != nil {
h.Convert(file, s, results)
}
}
}
func converterCollator(results <-chan HandledResult, errs chan<- error) {
errMsgs := []string{}
for r := range results {
if r.err != nil {
errMsgs = append(errMsgs, r.err.Error())
continue
}
}
if len(errMsgs) == 0 {
errs <- nil
return
}
errs <- fmt.Errorf("Errors rendering pages: %s", strings.Join(errMsgs, "\n"))
}
func (s *Site) replaceFile(sf *source.File) {
for i, f := range s.Files {
if f.Path() == sf.Path() {
s.Files[i] = sf
return
}
}
// If a match isn't found, then append it
s.Files = append(s.Files, sf)
}
func incrementalReadCollator(s *Site, results <-chan HandledResult, pageChan chan *Page, fileConvChan chan *source.File, coordinator chan bool, errs chan<- error) {
errMsgs := []string{}
for r := range results {
if r.err != nil {
errMsgs = append(errMsgs, r.Error())
continue
}
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if r.page == nil {
s.replaceFile(r.file)
fileConvChan <- r.file
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} else {
s.replacePage(r.page)
pageChan <- r.page
}
}
s.rawAllPages.Sort()
close(coordinator)
if len(errMsgs) == 0 {
errs <- nil
return
}
errs <- fmt.Errorf("Errors reading pages: %s", strings.Join(errMsgs, "\n"))
}
func readCollator(s *Site, results <-chan HandledResult, errs chan<- error) {
if s.PageCollections == nil {
panic("No page collections")
}
errMsgs := []string{}
for r := range results {
if r.err != nil {
errMsgs = append(errMsgs, r.Error())
continue
}
// !page == file
if r.page == nil {
s.Files = append(s.Files, r.file)
} else {
s.addPage(r.page)
}
}
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s.rawAllPages.Sort()
if len(errMsgs) == 0 {
errs <- nil
return
}
errs <- fmt.Errorf("Errors reading pages: %s", strings.Join(errMsgs, "\n"))
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}
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)
}
s.assembleSections()
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)
}
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menuEntry.marshallMap(ime)
menuEntry.URL = s.Info.createNodeMenuEntryURL(menuEntry.URL)
if ret[name] == nil {
ret[name] = &Menu{}
}
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*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(string(s.BaseURL), 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 {
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 != "" {
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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{}
}
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*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)
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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)
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weight := p.GetParam(plural + "_weight")
if weight == nil {
weight = 0
}
if vals != nil {
if v, ok := vals.([]string); ok {
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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
}
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}
} 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
}
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} else {
s.Log.ERROR.Printf("Invalid %s in %s\n", plural, p.File.Path())
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}
}
}
for k := range s.Taxonomies[plural] {
s.Taxonomies[plural][k].Sort()
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}
}
s.Info.Taxonomies = s.Taxonomies
}
// Prepare site for a new full build.
func (s *Site) resetBuildState() {
s.PageCollections = newPageCollectionsFromPages(s.rawAllPages)
// TODO(bep) get rid of this double
s.Info.PageCollections = s.PageCollections
s.Info.paginationPageCount = 0
s.draftCount = 0
s.futureCount = 0
s.expiredCount = 0
for _, p := range s.rawAllPages {
p.scratch = newScratch()
}
}
func (s *Site) assembleSections() {
s.Sections = make(Taxonomy)
s.Info.Sections = s.Sections
regularPages := s.findPagesByKind(KindPage)
sectionPages := s.findPagesByKind(KindSection)
for i, p := range regularPages {
section := s.getTaxonomyKey(p.Section())
s.Sections.add(section, WeightedPage{regularPages[i].Weight, regularPages[i]})
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}
// Add sections without regular pages, but with a content page
for _, sectionPage := range sectionPages {
if _, ok := s.Sections[sectionPage.sections[0]]; !ok {
s.Sections[sectionPage.sections[0]] = WeightedPages{}
}
}
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for k := range s.Sections {
s.Sections[k].Sort()
for i, wp := range s.Sections[k] {
if i > 0 {
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wp.Page.NextInSection = s.Sections[k][i-1].Page
}
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if i < len(s.Sections[k])-1 {
wp.Page.PrevInSection = s.Sections[k][i+1].Page
}
}
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}
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}
func (s *Site) kindFromSections(sections []string) string {
if _, isTaxonomy := s.Taxonomies[sections[0]]; isTaxonomy {
if len(sections) == 1 {
return KindTaxonomyTerm
}
return KindTaxonomy
}
return KindSection
}
func (s *Site) layouts(p *PageOutput) []string {
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)
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}
// TODO(bep) output remove
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func (s *Site) appendThemeTemplates(in []string) []string {
if !s.PathSpec.ThemeSet() {
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return in
}
out := []string{}
// First place all non internal templates
for _, t := range in {
if !strings.HasPrefix(t, "_internal/") {
out = append(out, t)
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}
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}
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// Then place theme templates with the same names
for _, t := range in {
if !strings.HasPrefix(t, "_internal/") {
out = append(out, "theme/"+t)
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}
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}
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// Lastly place internal templates
for _, t := range in {
if strings.HasPrefix(t, "_internal/") {
out = append(out, t)
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}
}
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return out
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}
// Stats prints Hugo builds stats to the console.
// This is what you see after a successful hugo build.
func (s *Site) Stats() {
s.Log.FEEDBACK.Printf("Built site for language %s:\n", s.Language.Lang)
s.Log.FEEDBACK.Println(s.draftStats())
s.Log.FEEDBACK.Println(s.futureStats())
s.Log.FEEDBACK.Println(s.expiredStats())
s.Log.FEEDBACK.Printf("%d regular pages created\n", s.siteStats.pageCountRegular)
s.Log.FEEDBACK.Printf("%d other pages created\n", (s.siteStats.pageCount - s.siteStats.pageCountRegular))
s.Log.FEEDBACK.Printf("%d non-page files copied\n", len(s.Files))
s.Log.FEEDBACK.Printf("%d paginator pages created\n", s.Info.paginationPageCount)
if s.isEnabled(KindTaxonomy) {
taxonomies := s.Language.GetStringMapString("taxonomies")
for _, pl := range taxonomies {
s.Log.FEEDBACK.Printf("%d %s created\n", len(s.Taxonomies[pl]), pl)
}
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}
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}
// GetPage looks up a index page of a given type in the path given.
// This method may support regular pages in the future, but currently it is a
// convenient way of getting the home page or
// a section from a template:
// {{ with .Site.GetPage "section" "blog" }}{{ .Title }}{{ end }}
//
// This will return nil when no page could be found.
//
// The valid page types are: home, section, taxonomy and taxonomyTerm
func (s *SiteInfo) GetPage(typ string, path ...string) *Page {
return s.getPage(typ, path...)
}
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.permalinkForBaseURL(link, baseURL), nil
}
func (s *Site) permalink(link string) string {
return s.permalinkForBaseURL(link, s.PathSpec.BaseURL.String())
}
func (s *Site) permalinkForBaseURL(link, baseURL string) string {
link = strings.TrimPrefix(link, "/")
if !strings.HasSuffix(baseURL, "/") {
baseURL += "/"
}
return baseURL + link
}
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func (s *Site) renderAndWriteXML(name string, dest string, d interface{}, layouts ...string) error {
s.Log.DEBUG.Printf("Render XML for %q to %q", name, dest)
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renderBuffer := bp.GetBuffer()
defer bp.PutBuffer(renderBuffer)
renderBuffer.WriteString("<?xml version=\"1.0\" encoding=\"utf-8\" standalone=\"yes\" ?>\n")
err := s.renderForLayouts(name, d, renderBuffer, layouts...)
if err != nil {
return err
}
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outBuffer := bp.GetBuffer()
defer bp.PutBuffer(outBuffer)
var path []byte
if s.Info.relativeURLs {
path = []byte(helpers.GetDottedRelativePath(dest))
} else {
s := s.Cfg.GetString("baseURL")
if !strings.HasSuffix(s, "/") {
s += "/"
}
path = []byte(s)
}
transformer := transform.NewChain(transform.AbsURLInXML)
transformer.Apply(outBuffer, renderBuffer, path)
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return s.publish(dest, outBuffer)
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}
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func (s *Site) renderAndWritePage(name string, dest string, d interface{}, layouts ...string) error {
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renderBuffer := bp.GetBuffer()
defer bp.PutBuffer(renderBuffer)
err := s.renderForLayouts(name, d, renderBuffer, layouts...)
if err != nil {
return err
}
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outBuffer := bp.GetBuffer()
defer bp.PutBuffer(outBuffer)
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transformLinks := transform.NewEmptyTransforms()
if s.Info.relativeURLs || s.Info.canonifyURLs {
transformLinks = append(transformLinks, transform.AbsURL)
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}
if s.running() && s.Cfg.GetBool("watch") && !s.Cfg.GetBool("disableLiveReload") {
transformLinks = append(transformLinks, transform.LiveReloadInject(s.Cfg.GetInt("port")))
}
// For performance reasons we only inject the Hugo generator tag on the home page.
if n, ok := d.(*PageOutput); ok && n.IsHome() {
if !s.Cfg.GetBool("disableHugoGeneratorInject") {
transformLinks = append(transformLinks, transform.HugoGeneratorInject)
}
}
var path []byte
if s.Info.relativeURLs {
path = []byte(helpers.GetDottedRelativePath(dest))
} else if s.Info.canonifyURLs {
url := s.Cfg.GetString("baseURL")
if !strings.HasSuffix(url, "/") {
url += "/"
}
path = []byte(url)
}
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transformer := transform.NewChain(transformLinks...)
transformer.Apply(outBuffer, renderBuffer, path)
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if outBuffer.Len() == 0 {
s.Log.WARN.Printf("%s is rendered empty\n", dest)
if dest == "/" {
debugAddend := ""
if !s.Cfg.GetBool("verbose") {
debugAddend = "* For more debugging information, run \"hugo -v\""
}
distinctFeedbackLogger.Printf(`=============================================================
Your rendered home page is blank: /index.html is zero-length
* Did you specify a theme on the command-line or in your
%q file? (Current theme: %q)
%s
=============================================================`,
filepath.Base(viper.ConfigFileUsed()),
s.Cfg.GetString("theme"),
debugAddend)
}
// Avoid writing empty files to disk.
return nil
}
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if err = s.publish(dest, outBuffer); err != nil {
return err
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}
return nil
}
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func (s *Site) renderForLayouts(name string, d interface{}, w io.Writer, layouts ...string) error {
layout, found := s.findFirstLayout(layouts...)
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if !found {
s.Log.WARN.Printf("[%s] Unable to locate layout for %s: %s\n", s.Language.Lang, name, layouts)
return nil
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}
if err := s.renderThing(d, layout, w); err != nil {
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// Behavior here should be dependent on if running in server or watch mode.
distinctErrorLogger.Printf("Error while rendering %q: %s", name, err)
if !s.running() && !testMode {
// TODO(bep) check if this can be propagated
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os.Exit(-1)
} else if testMode {
return err
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}
}
return nil
}
func (s *Site) findFirstLayout(layouts ...string) (string, bool) {
for _, layout := range layouts {
if s.Tmpl.Lookup(layout) != nil {
return layout, true
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}
}
return "", false
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}
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func (s *Site) renderThing(d interface{}, layout string, w io.Writer) error {
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// If the template doesn't exist, then return, but leave the Writer open
if templ := s.Tmpl.Lookup(layout); templ != nil {
return templ.Execute(w, d)
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}
return fmt.Errorf("Layout not found: %s", layout)
}
func (s *Site) publish(path string, r io.Reader) (err error) {
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path = filepath.Join(s.absPublishDir(), path)
return helpers.WriteToDisk(path, r, s.Fs.Destination)
}
func (s *Site) langDir() string {
if s.Language.Lang != s.Info.multilingual.DefaultLang.Lang || s.Info.defaultContentLanguageInSubdir {
return s.Language.Lang
}
return ""
}
func (s *Site) draftStats() string {
var msg string
switch s.draftCount {
case 0:
return "0 draft content"
case 1:
msg = "1 draft rendered"
default:
msg = fmt.Sprintf("%d drafts rendered", s.draftCount)
}
if s.Cfg.GetBool("buildDrafts") {
return fmt.Sprintf("%d of ", s.draftCount) + msg
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}
return "0 of " + msg
}
func (s *Site) futureStats() string {
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var msg string
switch s.futureCount {
case 0:
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return "0 future content"
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case 1:
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msg = "1 future rendered"
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default:
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msg = fmt.Sprintf("%d futures rendered", s.futureCount)
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}
if s.Cfg.GetBool("buildFuture") {
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return fmt.Sprintf("%d of ", s.futureCount) + msg
}
return "0 of " + msg
}
func (s *Site) expiredStats() string {
var msg string
switch s.expiredCount {
case 0:
return "0 expired content"
case 1:
msg = "1 expired rendered"
default:
msg = fmt.Sprintf("%d expired rendered", s.expiredCount)
}
if s.Cfg.GetBool("buildExpired") {
return fmt.Sprintf("%d of ", s.expiredCount) + msg
}
return "0 of " + msg
}
func getGoMaxProcs() int {
if gmp := os.Getenv("GOMAXPROCS"); gmp != "" {
if p, err := strconv.Atoi(gmp); err != nil {
return p
}
}
return 1
}
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func (s *Site) newNodePage(typ string, sections ...string) *Page {
p := &Page{
language: s.Language,
pageInit: &pageInit{},
Kind: typ,
Data: make(map[string]interface{}),
Site: &s.Info,
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sections: sections,
s: s}
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p.outputFormats = p.s.outputFormats[p.Kind]
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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
s.setPageURLs(p, "/")
return p
}
// TODO(bep) output
func (s *Site) setPageURLs(p *Page, in string) {
p.URLPath.URL = s.PathSpec.URLizeAndPrep(in)
p.URLPath.Permalink = s.permalink(p.URLPath.URL)
if p.Kind != KindPage {
p.RSSLink = template.URL(s.permalink(p.URLPath.URL + ".xml"))
}
}
func (s *Site) newTaxonomyPage(plural, key string) *Page {
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p := s.newNodePage(KindTaxonomy, plural, key)
if s.Info.preserveTaxonomyNames {
// Keep (mostly) as is in the title
// We make the first character upper case, mostly because
// it is easier to reason about in the tests.
p.Title = helpers.FirstUpper(key)
key = s.PathSpec.MakePathSanitized(key)
} else {
p.Title = strings.Replace(strings.Title(key), "-", " ", -1)
}
s.setPageURLs(p, path.Join(plural, key))
return p
}
func (s *Site) newSectionPage(name string, section WeightedPages) *Page {
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p := s.newNodePage(KindSection, name)
sectionName := name
if !s.Info.preserveTaxonomyNames && len(section) > 0 {
sectionName = section[0].Page.Section()
}
sectionName = helpers.FirstUpper(sectionName)
if s.Cfg.GetBool("pluralizeListTitles") {
p.Title = inflect.Pluralize(sectionName)
} else {
p.Title = sectionName
}
s.setPageURLs(p, name)
return p
}
func (s *Site) newTaxonomyTermsPage(plural string) *Page {
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p := s.newNodePage(KindTaxonomyTerm, plural)
p.Title = strings.Title(plural)
s.setPageURLs(p, plural)
return p
}