ref: 6959370835734d37d488136504db68b5b9a3277e
dir: /hugolib/content_map_page.go/
// Copyright 2019 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 ( "context" "fmt" "path" "path/filepath" "strings" "sync" "github.com/gohugoio/hugo/common/maps" "github.com/gohugoio/hugo/common/types" "github.com/gohugoio/hugo/resources" "github.com/gohugoio/hugo/common/hugio" "github.com/gohugoio/hugo/hugofs" "github.com/gohugoio/hugo/hugofs/files" "github.com/gohugoio/hugo/parser/pageparser" "github.com/gohugoio/hugo/resources/page" "github.com/gohugoio/hugo/resources/resource" "github.com/spf13/cast" "github.com/gohugoio/hugo/common/para" "github.com/pkg/errors" ) func newPageMaps(h *HugoSites) *pageMaps { mps := make([]*pageMap, len(h.Sites)) for i, s := range h.Sites { mps[i] = s.pageMap } return &pageMaps{ workers: para.New(h.numWorkers), pmaps: mps, } } type pageMap struct { s *Site *contentMap } func (m *pageMap) Len() int { l := 0 for _, t := range m.contentMap.pageTrees { l += t.Len() } return l } func (m *pageMap) createMissingTaxonomyNodes() error { if m.cfg.taxonomyDisabled { return nil } m.taxonomyEntries.Walk(func(s string, v interface{}) bool { n := v.(*contentNode) vi := n.viewInfo k := cleanSectionTreeKey(vi.name.plural + "/" + vi.termKey) if _, found := m.taxonomies.Get(k); !found { vic := &contentBundleViewInfo{ name: vi.name, termKey: vi.termKey, termOrigin: vi.termOrigin, } m.taxonomies.Insert(k, &contentNode{viewInfo: vic}) } return false }) return nil } func (m *pageMap) newPageFromContentNode(n *contentNode, parentBucket *pagesMapBucket, owner *pageState) (*pageState, error) { if n.fi == nil { panic("FileInfo must (currently) be set") } f, err := newFileInfo(m.s.SourceSpec, n.fi) if err != nil { return nil, err } meta := n.fi.Meta() content := func() (hugio.ReadSeekCloser, error) { return meta.Open() } bundled := owner != nil s := m.s sections := s.sectionsFromFile(f) kind := s.kindFromFileInfoOrSections(f, sections) if kind == page.KindTerm { s.PathSpec.MakePathsSanitized(sections) } metaProvider := &pageMeta{kind: kind, sections: sections, bundled: bundled, s: s, f: f} ps, err := newPageBase(metaProvider) if err != nil { return nil, err } if n.fi.Meta().GetBool(walkIsRootFileMetaKey) { // Make sure that the bundle/section we start walking from is always // rendered. // This is only relevant in server fast render mode. ps.forceRender = true } n.p = ps if ps.IsNode() { ps.bucket = newPageBucket(ps) } gi, err := s.h.gitInfoForPage(ps) if err != nil { return nil, errors.Wrap(err, "failed to load Git data") } ps.gitInfo = gi r, err := content() if err != nil { return nil, err } defer r.Close() parseResult, err := pageparser.Parse( r, pageparser.Config{EnableEmoji: s.siteCfg.enableEmoji}, ) if err != nil { return nil, err } ps.pageContent = pageContent{ source: rawPageContent{ parsed: parseResult, posMainContent: -1, posSummaryEnd: -1, posBodyStart: -1, }, } ps.shortcodeState = newShortcodeHandler(ps, ps.s, nil) if err := ps.mapContent(parentBucket, metaProvider); err != nil { return nil, ps.wrapError(err) } if err := metaProvider.applyDefaultValues(n); err != nil { return nil, err } ps.init.Add(func() (interface{}, error) { pp, err := newPagePaths(s, ps, metaProvider) if err != nil { return nil, err } outputFormatsForPage := ps.m.outputFormats() // Prepare output formats for all sites. // We do this even if this page does not get rendered on // its own. It may be referenced via .Site.GetPage and // it will then need an output format. ps.pageOutputs = make([]*pageOutput, len(ps.s.h.renderFormats)) created := make(map[string]*pageOutput) shouldRenderPage := !ps.m.noRender() for i, f := range ps.s.h.renderFormats { if po, found := created[f.Name]; found { ps.pageOutputs[i] = po continue } render := shouldRenderPage if render { _, render = outputFormatsForPage.GetByName(f.Name) } po := newPageOutput(ps, pp, f, render) // Create a content provider for the first, // we may be able to reuse it. if i == 0 { contentProvider, err := newPageContentOutput(ps, po) if err != nil { return nil, err } po.initContentProvider(contentProvider) } ps.pageOutputs[i] = po created[f.Name] = po } if err := ps.initCommonProviders(pp); err != nil { return nil, err } return nil, nil }) ps.parent = owner return ps, nil } func (m *pageMap) newResource(fim hugofs.FileMetaInfo, owner *pageState) (resource.Resource, error) { if owner == nil { panic("owner is nil") } // TODO(bep) consolidate with multihost logic + clean up outputFormats := owner.m.outputFormats() seen := make(map[string]bool) var targetBasePaths []string // Make sure bundled resources are published to all of the ouptput formats' // sub paths. for _, f := range outputFormats { p := f.Path if seen[p] { continue } seen[p] = true targetBasePaths = append(targetBasePaths, p) } meta := fim.Meta() r := func() (hugio.ReadSeekCloser, error) { return meta.Open() } target := strings.TrimPrefix(meta.Path(), owner.File().Dir()) return owner.s.ResourceSpec.New( resources.ResourceSourceDescriptor{ TargetPaths: owner.getTargetPaths, OpenReadSeekCloser: r, FileInfo: fim, RelTargetFilename: target, TargetBasePaths: targetBasePaths, LazyPublish: !owner.m.buildConfig.PublishResources, }) } func (m *pageMap) createSiteTaxonomies() error { m.s.taxonomies = make(TaxonomyList) var walkErr error m.taxonomies.Walk(func(s string, v interface{}) bool { n := v.(*contentNode) t := n.viewInfo viewName := t.name if t.termKey == "" { m.s.taxonomies[viewName.plural] = make(Taxonomy) } else { taxonomy := m.s.taxonomies[viewName.plural] if taxonomy == nil { walkErr = errors.Errorf("missing taxonomy: %s", viewName.plural) return true } m.taxonomyEntries.WalkPrefix(s, func(ss string, v interface{}) bool { b2 := v.(*contentNode) info := b2.viewInfo taxonomy.add(info.termKey, page.NewWeightedPage(info.weight, info.ref.p, n.p)) return false }) } return false }) for _, taxonomy := range m.s.taxonomies { for _, v := range taxonomy { v.Sort() } } return walkErr } func (m *pageMap) createListAllPages() page.Pages { pages := make(page.Pages, 0) m.contentMap.pageTrees.Walk(func(s string, n *contentNode) bool { if n.p == nil { panic(fmt.Sprintf("BUG: page not set for %q", s)) } if contentTreeNoListAlwaysFilter(s, n) { return false } pages = append(pages, n.p) return false }) page.SortByDefault(pages) return pages } func (m *pageMap) assemblePages() error { m.taxonomyEntries.DeletePrefix("/") if err := m.assembleSections(); err != nil { return err } var err error if err != nil { return err } m.pages.Walk(func(s string, v interface{}) bool { n := v.(*contentNode) var shouldBuild bool defer func() { // Make sure we always rebuild the view cache. if shouldBuild && err == nil && n.p != nil { m.attachPageToViews(s, n) } }() if n.p != nil { // A rebuild shouldBuild = true return false } var parent *contentNode var parentBucket *pagesMapBucket _, parent = m.getSection(s) if parent == nil { panic(fmt.Sprintf("BUG: parent not set for %q", s)) } parentBucket = parent.p.bucket n.p, err = m.newPageFromContentNode(n, parentBucket, nil) if err != nil { return true } shouldBuild = !(n.p.Kind() == page.KindPage && m.cfg.pageDisabled) && m.s.shouldBuild(n.p) if !shouldBuild { m.deletePage(s) return false } n.p.treeRef = &contentTreeRef{ m: m, t: m.pages, n: n, key: s, } if err = m.assembleResources(s, n.p, parentBucket); err != nil { return true } return false }) m.deleteOrphanSections() return err } func (m *pageMap) assembleResources(s string, p *pageState, parentBucket *pagesMapBucket) error { var err error m.resources.WalkPrefix(s, func(s string, v interface{}) bool { n := v.(*contentNode) meta := n.fi.Meta() classifier := meta.Classifier() var r resource.Resource switch classifier { case files.ContentClassContent: var rp *pageState rp, err = m.newPageFromContentNode(n, parentBucket, p) if err != nil { return true } rp.m.resourcePath = filepath.ToSlash(strings.TrimPrefix(rp.Path(), p.File().Dir())) r = rp case files.ContentClassFile: r, err = m.newResource(n.fi, p) if err != nil { return true } default: panic(fmt.Sprintf("invalid classifier: %q", classifier)) } p.resources = append(p.resources, r) return false }) return err } func (m *pageMap) assembleSections() error { var sectionsToDelete []string var err error m.sections.Walk(func(s string, v interface{}) bool { n := v.(*contentNode) var shouldBuild bool defer func() { // Make sure we always rebuild the view cache. if shouldBuild && err == nil && n.p != nil { m.attachPageToViews(s, n) if n.p.IsHome() { m.s.home = n.p } } }() sections := m.splitKey(s) if n.p != nil { if n.p.IsHome() { m.s.home = n.p } shouldBuild = true return false } var parent *contentNode var parentBucket *pagesMapBucket if s != "/" { _, parent = m.getSection(s) if parent == nil || parent.p == nil { panic(fmt.Sprintf("BUG: parent not set for %q", s)) } } if parent != nil { parentBucket = parent.p.bucket } kind := page.KindSection if s == "/" { kind = page.KindHome } if n.fi != nil { n.p, err = m.newPageFromContentNode(n, parentBucket, nil) if err != nil { return true } } else { n.p = m.s.newPage(n, parentBucket, kind, "", sections...) } shouldBuild = m.s.shouldBuild(n.p) if !shouldBuild { sectionsToDelete = append(sectionsToDelete, s) return false } n.p.treeRef = &contentTreeRef{ m: m, t: m.sections, n: n, key: s, } if err = m.assembleResources(s+cmLeafSeparator, n.p, parentBucket); err != nil { return true } return false }) for _, s := range sectionsToDelete { m.deleteSectionByPath(s) } return err } func (m *pageMap) assembleTaxonomies() error { var taxonomiesToDelete []string var err error m.taxonomies.Walk(func(s string, v interface{}) bool { n := v.(*contentNode) if n.p != nil { return false } kind := n.viewInfo.kind() sections := n.viewInfo.sections() _, parent := m.getTaxonomyParent(s) if parent == nil || parent.p == nil { panic(fmt.Sprintf("BUG: parent not set for %q", s)) } parentBucket := parent.p.bucket if n.fi != nil { n.p, err = m.newPageFromContentNode(n, parent.p.bucket, nil) if err != nil { return true } } else { title := "" if kind == page.KindTerm { title = n.viewInfo.term() } n.p = m.s.newPage(n, parent.p.bucket, kind, title, sections...) } if !m.s.shouldBuild(n.p) { taxonomiesToDelete = append(taxonomiesToDelete, s) return false } n.p.treeRef = &contentTreeRef{ m: m, t: m.taxonomies, n: n, key: s, } if err = m.assembleResources(s+cmLeafSeparator, n.p, parentBucket); err != nil { return true } return false }) for _, s := range taxonomiesToDelete { m.deleteTaxonomy(s) } return err } func (m *pageMap) attachPageToViews(s string, b *contentNode) { if m.cfg.taxonomyDisabled { return } for _, viewName := range m.cfg.taxonomyConfig { vals := types.ToStringSlicePreserveString(getParam(b.p, viewName.plural, false)) if vals == nil { continue } w := getParamToLower(b.p, viewName.plural+"_weight") weight, err := cast.ToIntE(w) if err != nil { m.s.Log.Errorf("Unable to convert taxonomy weight %#v to int for %q", w, b.p.Path()) // weight will equal zero, so let the flow continue } for i, v := range vals { termKey := m.s.getTaxonomyKey(v) bv := &contentNode{ viewInfo: &contentBundleViewInfo{ ordinal: i, name: viewName, termKey: termKey, termOrigin: v, weight: weight, ref: b, }, } var key string if strings.HasSuffix(s, "/") { key = cleanSectionTreeKey(path.Join(viewName.plural, termKey, s)) } else { key = cleanTreeKey(path.Join(viewName.plural, termKey, s)) } m.taxonomyEntries.Insert(key, bv) } } } type pageMapQuery struct { Prefix string Filter contentTreeNodeCallback } func (m *pageMap) collectPages(query pageMapQuery, fn func(c *contentNode)) error { if query.Filter == nil { query.Filter = contentTreeNoListAlwaysFilter } m.pages.WalkQuery(query, func(s string, n *contentNode) bool { fn(n) return false }) return nil } func (m *pageMap) collectPagesAndSections(query pageMapQuery, fn func(c *contentNode)) error { if err := m.collectSections(query, fn); err != nil { return err } query.Prefix = query.Prefix + cmBranchSeparator if err := m.collectPages(query, fn); err != nil { return err } return nil } func (m *pageMap) collectSections(query pageMapQuery, fn func(c *contentNode)) error { level := strings.Count(query.Prefix, "/") return m.collectSectionsFn(query, func(s string, c *contentNode) bool { if strings.Count(s, "/") != level+1 { return false } fn(c) return false }) } func (m *pageMap) collectSectionsFn(query pageMapQuery, fn func(s string, c *contentNode) bool) error { if !strings.HasSuffix(query.Prefix, "/") { query.Prefix += "/" } m.sections.WalkQuery(query, func(s string, n *contentNode) bool { return fn(s, n) }) return nil } func (m *pageMap) collectSectionsRecursiveIncludingSelf(query pageMapQuery, fn func(c *contentNode)) error { return m.collectSectionsFn(query, func(s string, c *contentNode) bool { fn(c) return false }) } func (m *pageMap) collectTaxonomies(prefix string, fn func(c *contentNode)) error { m.taxonomies.WalkQuery(pageMapQuery{Prefix: prefix}, func(s string, n *contentNode) bool { fn(n) return false }) return nil } // withEveryBundlePage applies fn to every Page, including those bundled inside // leaf bundles. func (m *pageMap) withEveryBundlePage(fn func(p *pageState) bool) { m.bundleTrees.Walk(func(s string, n *contentNode) bool { if n.p != nil { return fn(n.p) } return false }) } type pageMaps struct { workers *para.Workers pmaps []*pageMap } // deleteSection deletes the entire section from s. func (m *pageMaps) deleteSection(s string) { m.withMaps(func(pm *pageMap) error { pm.deleteSectionByPath(s) return nil }) } func (m *pageMaps) AssemblePages() error { return m.withMaps(func(pm *pageMap) error { if err := pm.CreateMissingNodes(); err != nil { return err } if err := pm.assemblePages(); err != nil { return err } if err := pm.createMissingTaxonomyNodes(); err != nil { return err } // Handle any new sections created in the step above. if err := pm.assembleSections(); err != nil { return err } if pm.s.home == nil { // Home is disabled, everything is. pm.bundleTrees.DeletePrefix("") return nil } if err := pm.assembleTaxonomies(); err != nil { return err } if err := pm.createSiteTaxonomies(); err != nil { return err } sw := §ionWalker{m: pm.contentMap} a := sw.applyAggregates() _, mainSectionsSet := pm.s.s.Info.Params()["mainsections"] if !mainSectionsSet && a.mainSection != "" { mainSections := []string{strings.TrimRight(a.mainSection, "/")} pm.s.s.Info.Params()["mainSections"] = mainSections pm.s.s.Info.Params()["mainsections"] = mainSections } pm.s.lastmod = a.datesAll.Lastmod() if resource.IsZeroDates(pm.s.home) { pm.s.home.m.Dates = a.datesAll } return nil }) } func (m *pageMaps) walkBundles(fn func(n *contentNode) bool) { _ = m.withMaps(func(pm *pageMap) error { pm.bundleTrees.Walk(func(s string, n *contentNode) bool { return fn(n) }) return nil }) } func (m *pageMaps) walkBranchesPrefix(prefix string, fn func(s string, n *contentNode) bool) { _ = m.withMaps(func(pm *pageMap) error { pm.branchTrees.WalkPrefix(prefix, func(s string, n *contentNode) bool { return fn(s, n) }) return nil }) } func (m *pageMaps) withMaps(fn func(pm *pageMap) error) error { g, _ := m.workers.Start(context.Background()) for _, pm := range m.pmaps { pm := pm g.Run(func() error { return fn(pm) }) } return g.Wait() } type pagesMapBucket struct { // Cascading front matter. cascade map[page.PageMatcher]maps.Params owner *pageState // The branch node *pagesMapBucketPages } type pagesMapBucketPages struct { pagesInit sync.Once pages page.Pages pagesAndSectionsInit sync.Once pagesAndSections page.Pages sectionsInit sync.Once sections page.Pages } func (b *pagesMapBucket) getPages() page.Pages { b.pagesInit.Do(func() { b.pages = b.owner.treeRef.getPages() page.SortByDefault(b.pages) }) return b.pages } func (b *pagesMapBucket) getPagesRecursive() page.Pages { pages := b.owner.treeRef.getPagesRecursive() page.SortByDefault(pages) return pages } func (b *pagesMapBucket) getPagesAndSections() page.Pages { b.pagesAndSectionsInit.Do(func() { b.pagesAndSections = b.owner.treeRef.getPagesAndSections() }) return b.pagesAndSections } func (b *pagesMapBucket) getSections() page.Pages { b.sectionsInit.Do(func() { if b.owner.treeRef == nil { return } b.sections = b.owner.treeRef.getSections() }) return b.sections } func (b *pagesMapBucket) getTaxonomies() page.Pages { b.sectionsInit.Do(func() { var pas page.Pages ref := b.owner.treeRef ref.m.collectTaxonomies(ref.key, func(c *contentNode) { pas = append(pas, c.p) }) page.SortByDefault(pas) b.sections = pas }) return b.sections } func (b *pagesMapBucket) getTaxonomyEntries() page.Pages { var pas page.Pages ref := b.owner.treeRef viewInfo := ref.n.viewInfo prefix := strings.ToLower("/" + viewInfo.name.plural + "/" + viewInfo.termKey + "/") ref.m.taxonomyEntries.WalkPrefix(prefix, func(s string, v interface{}) bool { n := v.(*contentNode) pas = append(pas, n.viewInfo.ref.p) return false }) page.SortByDefault(pas) return pas } type sectionAggregate struct { datesAll resource.Dates datesSection resource.Dates pageCount int mainSection string mainSectionPageCount int } type sectionAggregateHandler struct { sectionAggregate sectionPageCount int // Section b *contentNode s string } func (h *sectionAggregateHandler) String() string { return fmt.Sprintf("%s/%s - %d - %s", h.sectionAggregate.datesAll, h.sectionAggregate.datesSection, h.sectionPageCount, h.s) } func (h *sectionAggregateHandler) isRootSection() bool { return h.s != "/" && strings.Count(h.s, "/") == 2 } func (h *sectionAggregateHandler) handleNested(v sectionWalkHandler) error { nested := v.(*sectionAggregateHandler) h.sectionPageCount += nested.pageCount h.pageCount += h.sectionPageCount h.datesAll.UpdateDateAndLastmodIfAfter(nested.datesAll) h.datesSection.UpdateDateAndLastmodIfAfter(nested.datesAll) return nil } func (h *sectionAggregateHandler) handlePage(s string, n *contentNode) error { h.sectionPageCount++ var d resource.Dated if n.p != nil { d = n.p } else if n.viewInfo != nil && n.viewInfo.ref != nil { d = n.viewInfo.ref.p } else { return nil } h.datesAll.UpdateDateAndLastmodIfAfter(d) h.datesSection.UpdateDateAndLastmodIfAfter(d) return nil } func (h *sectionAggregateHandler) handleSectionPost() error { if h.sectionPageCount > h.mainSectionPageCount && h.isRootSection() { h.mainSectionPageCount = h.sectionPageCount h.mainSection = strings.TrimPrefix(h.s, "/") } if resource.IsZeroDates(h.b.p) { h.b.p.m.Dates = h.datesSection } h.datesSection = resource.Dates{} return nil } func (h *sectionAggregateHandler) handleSectionPre(s string, b *contentNode) error { h.s = s h.b = b h.sectionPageCount = 0 h.datesAll.UpdateDateAndLastmodIfAfter(b.p) return nil } type sectionWalkHandler interface { handleNested(v sectionWalkHandler) error handlePage(s string, b *contentNode) error handleSectionPost() error handleSectionPre(s string, b *contentNode) error } type sectionWalker struct { err error m *contentMap } func (w *sectionWalker) applyAggregates() *sectionAggregateHandler { return w.walkLevel("/", func() sectionWalkHandler { return §ionAggregateHandler{} }).(*sectionAggregateHandler) } func (w *sectionWalker) walkLevel(prefix string, createVisitor func() sectionWalkHandler) sectionWalkHandler { level := strings.Count(prefix, "/") visitor := createVisitor() w.m.taxonomies.WalkBelow(prefix, func(s string, v interface{}) bool { currentLevel := strings.Count(s, "/") if currentLevel > level+1 { return false } n := v.(*contentNode) if w.err = visitor.handleSectionPre(s, n); w.err != nil { return true } if currentLevel == 2 { nested := w.walkLevel(s, createVisitor) if w.err = visitor.handleNested(nested); w.err != nil { return true } } else { w.m.taxonomyEntries.WalkPrefix(s, func(ss string, v interface{}) bool { n := v.(*contentNode) w.err = visitor.handlePage(ss, n) return w.err != nil }) } w.err = visitor.handleSectionPost() return w.err != nil }) w.m.sections.WalkBelow(prefix, func(s string, v interface{}) bool { currentLevel := strings.Count(s, "/") if currentLevel > level+1 { return false } n := v.(*contentNode) if w.err = visitor.handleSectionPre(s, n); w.err != nil { return true } w.m.pages.WalkPrefix(s+cmBranchSeparator, func(s string, v interface{}) bool { w.err = visitor.handlePage(s, v.(*contentNode)) return w.err != nil }) if w.err != nil { return true } nested := w.walkLevel(s, createVisitor) if w.err = visitor.handleNested(nested); w.err != nil { return true } w.err = visitor.handleSectionPost() return w.err != nil }) return visitor } type viewName struct { singular string // e.g. "category" plural string // e.g. "categories" } func (v viewName) IsZero() bool { return v.singular == "" }