hugo/related/inverted_index.go
Bjørn Erik Pedersen 90da7664bf Add page fragments support to Related
The main topic of this commit is that you can now index fragments (content heading identifiers) when calling `.Related`.

You can do this by:

* Configure one or more indices with type `fragments`
* The name of those index configurations maps to an (optional) front matter slice with fragment references. This allows you to link
page<->fragment and page<->page.
* This also will index all the fragments (heading identifiers) of the pages.

It's also possible to use type `fragments` indices in shortcode, e.g.:

```
{{ $related := site.RegularPages.Related .Page }}
```

But, and this is important, you need to include the shortcode using the `{{<` delimiter. Not doing so will create infinite loops and timeouts.

This commit also:

* Adds two new methods to Page: Fragments (can also be used to build ToC) and HeadingsFiltered (this is only used in Related Content with
index type `fragments` and `enableFilter` set to true.
* Consolidates all `.Related*` methods into one, which takes either a `Page` or an options map as its only argument.
* Add `context.Context` to all of the content related Page API. Turns out it wasn't strictly needed for this particular feature, but it will
soon become usefil, e.g. in #9339.

Closes #10711
Updates #9339
Updates #10725
2023-02-21 17:56:41 +01:00

590 lines
14 KiB
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 related holds code to help finding related content.
package related
import (
"context"
"errors"
"fmt"
"math"
"sort"
"strings"
"sync"
"time"
xmaps "golang.org/x/exp/maps"
"github.com/gohugoio/hugo/common/collections"
"github.com/gohugoio/hugo/common/maps"
"github.com/gohugoio/hugo/compare"
"github.com/gohugoio/hugo/markup/tableofcontents"
"github.com/spf13/cast"
"github.com/gohugoio/hugo/common/types"
"github.com/mitchellh/mapstructure"
)
const (
TypeBasic = "basic"
TypeFragments = "fragments"
)
var validTypes = map[string]bool{
TypeBasic: true,
TypeFragments: true,
}
var (
_ Keyword = (*StringKeyword)(nil)
zeroDate = time.Time{}
// DefaultConfig is the default related config.
DefaultConfig = Config{
Threshold: 80,
Indices: IndexConfigs{
IndexConfig{Name: "keywords", Weight: 100, Type: TypeBasic},
IndexConfig{Name: "date", Weight: 10, Type: TypeBasic},
},
}
)
/*
Config is the top level configuration element used to configure how to retrieve
related content in Hugo.
An example site config.toml:
[related]
threshold = 1
[[related.indices]]
name = "keywords"
weight = 200
[[related.indices]]
name = "tags"
weight = 100
[[related.indices]]
name = "date"
weight = 1
pattern = "2006"
*/
type Config struct {
// Only include matches >= threshold, a normalized rank between 0 and 100.
Threshold int
// To get stable "See also" sections we, by default, exclude newer related pages.
IncludeNewer bool
// Will lower case all string values and queries to the indices.
// May get better results, but at a slight performance cost.
ToLower bool
Indices IndexConfigs
}
// Add adds a given index.
func (c *Config) Add(index IndexConfig) {
if c.ToLower {
index.ToLower = true
}
c.Indices = append(c.Indices, index)
}
func (c *Config) HasType(s string) bool {
for _, i := range c.Indices {
if i.Type == s {
return true
}
}
return false
}
// IndexConfigs holds a set of index configurations.
type IndexConfigs []IndexConfig
// IndexConfig configures an index.
type IndexConfig struct {
// The index name. This directly maps to a field or Param name.
Name string
// The index type.
Type string
// Enable to apply a type specific filter to the results.
// This is currently only used for the "fragments" type.
ApplyFilter bool
// Contextual pattern used to convert the Param value into a string.
// Currently only used for dates. Can be used to, say, bump posts in the same
// time frame when searching for related documents.
// For dates it follows Go's time.Format patterns, i.e.
// "2006" for YYYY and "200601" for YYYYMM.
Pattern string
// This field's weight when doing multi-index searches. Higher is "better".
Weight int
// Will lower case all string values in and queries tothis index.
// May get better accurate results, but at a slight performance cost.
ToLower bool
}
// Document is the interface an indexable document in Hugo must fulfill.
type Document interface {
// RelatedKeywords returns a list of keywords for the given index config.
RelatedKeywords(cfg IndexConfig) ([]Keyword, error)
// When this document was or will be published.
PublishDate() time.Time
// Name is used as an tiebreaker if both Weight and PublishDate are
// the same.
Name() string
}
// FragmentProvider is an optional interface that can be implemented by a Document.
type FragmentProvider interface {
Fragments(context.Context) *tableofcontents.Fragments
// For internal use.
ApplyFilterToHeadings(context.Context, func(*tableofcontents.Heading) bool) Document
}
// InvertedIndex holds an inverted index, also sometimes named posting list, which
// lists, for every possible search term, the documents that contain that term.
type InvertedIndex struct {
cfg Config
index map[string]map[Keyword][]Document
minWeight int
maxWeight int
}
func (idx *InvertedIndex) getIndexCfg(name string) (IndexConfig, bool) {
for _, conf := range idx.cfg.Indices {
if conf.Name == name {
return conf, true
}
}
return IndexConfig{}, false
}
// NewInvertedIndex creates a new InvertedIndex.
// Documents to index must be added in Add.
func NewInvertedIndex(cfg Config) *InvertedIndex {
idx := &InvertedIndex{index: make(map[string]map[Keyword][]Document), cfg: cfg}
for _, conf := range cfg.Indices {
idx.index[conf.Name] = make(map[Keyword][]Document)
if conf.Weight < idx.minWeight {
// By default, the weight scale starts at 0, but we allow
// negative weights.
idx.minWeight = conf.Weight
}
if conf.Weight > idx.maxWeight {
idx.maxWeight = conf.Weight
}
}
return idx
}
// Add documents to the inverted index.
// The value must support == and !=.
func (idx *InvertedIndex) Add(ctx context.Context, docs ...Document) error {
var err error
for _, config := range idx.cfg.Indices {
if config.Weight == 0 {
// Disabled
continue
}
setm := idx.index[config.Name]
for _, doc := range docs {
var words []Keyword
words, err = doc.RelatedKeywords(config)
if err != nil {
continue
}
for _, keyword := range words {
setm[keyword] = append(setm[keyword], doc)
}
if config.Type == TypeFragments {
if fp, ok := doc.(FragmentProvider); ok {
for _, fragment := range fp.Fragments(ctx).Identifiers {
setm[FragmentKeyword(fragment)] = append(setm[FragmentKeyword(fragment)], doc)
}
}
}
}
}
return err
}
// queryElement holds the index name and keywords that can be used to compose a
// search for related content.
type queryElement struct {
Index string
Keywords []Keyword
}
func newQueryElement(index string, keywords ...Keyword) queryElement {
return queryElement{Index: index, Keywords: keywords}
}
type ranks []*rank
type rank struct {
Doc Document
Weight int
Matches int
}
func (r *rank) addWeight(w int) {
r.Weight += w
r.Matches++
}
var rankPool = sync.Pool{
New: func() interface{} {
return &rank{}
},
}
func getRank(doc Document, weight int) *rank {
r := rankPool.Get().(*rank)
r.Doc = doc
r.Weight = weight
r.Matches = 1
return r
}
func putRank(r *rank) {
rankPool.Put(r)
}
func (r ranks) Len() int { return len(r) }
func (r ranks) Swap(i, j int) { r[i], r[j] = r[j], r[i] }
func (r ranks) Less(i, j int) bool {
if r[i].Weight == r[j].Weight {
if r[i].Doc.PublishDate() == r[j].Doc.PublishDate() {
return r[i].Doc.Name() < r[j].Doc.Name()
}
return r[i].Doc.PublishDate().After(r[j].Doc.PublishDate())
}
return r[i].Weight > r[j].Weight
}
// SearchOpts holds the options for a related search.
type SearchOpts struct {
// The Document to search for related content for.
Document Document
// The keywords to search for.
NamedSlices []types.KeyValues
// The indices to search in.
Indices []string
// Fragments holds a a list of special keywords that is used
// for indices configured as type "fragments".
// This will match the fragment identifiers of the documents.
Fragments []string
}
// Search finds the documents matching any of the keywords in the given indices
// against query options in opts.
// The resulting document set will be sorted according to number of matches
// and the index weights, and any matches with a rank below the configured
// threshold (normalize to 0..100) will be removed.
// If an index name is provided, only that index will be queried.
func (idx *InvertedIndex) Search(ctx context.Context, opts SearchOpts) ([]Document, error) {
var (
queryElements []queryElement
configs IndexConfigs
)
if len(opts.Indices) == 0 {
configs = idx.cfg.Indices
} else {
configs = make(IndexConfigs, len(opts.Indices))
for i, indexName := range opts.Indices {
cfg, found := idx.getIndexCfg(indexName)
if !found {
return nil, fmt.Errorf("index %q not found", indexName)
}
configs[i] = cfg
}
}
for _, cfg := range configs {
var keywords []Keyword
if opts.Document != nil {
k, err := opts.Document.RelatedKeywords(cfg)
if err != nil {
return nil, err
}
keywords = append(keywords, k...)
}
if cfg.Type == TypeFragments {
for _, fragment := range opts.Fragments {
keywords = append(keywords, FragmentKeyword(fragment))
}
if opts.Document != nil {
if fp, ok := opts.Document.(FragmentProvider); ok {
for _, fragment := range fp.Fragments(ctx).Identifiers {
keywords = append(keywords, FragmentKeyword(fragment))
}
}
}
}
queryElements = append(queryElements, newQueryElement(cfg.Name, keywords...))
}
for _, slice := range opts.NamedSlices {
var keywords []Keyword
key := slice.KeyString()
if key == "" {
return nil, fmt.Errorf("index %q not valid", slice.Key)
}
conf, found := idx.getIndexCfg(key)
if !found {
return nil, fmt.Errorf("index %q not found", key)
}
for _, val := range slice.Values {
k, err := conf.ToKeywords(val)
if err != nil {
return nil, err
}
keywords = append(keywords, k...)
}
queryElements = append(queryElements, newQueryElement(conf.Name, keywords...))
}
if opts.Document != nil {
return idx.searchDate(ctx, opts.Document, opts.Document.PublishDate(), queryElements...)
}
return idx.search(ctx, queryElements...)
}
func (cfg IndexConfig) stringToKeyword(s string) Keyword {
if cfg.ToLower {
s = strings.ToLower(s)
}
if cfg.Type == TypeFragments {
return FragmentKeyword(s)
}
return StringKeyword(s)
}
// ToKeywords returns a Keyword slice of the given input.
func (cfg IndexConfig) ToKeywords(v any) ([]Keyword, error) {
var keywords []Keyword
switch vv := v.(type) {
case string:
keywords = append(keywords, cfg.stringToKeyword(vv))
case []string:
vvv := make([]Keyword, len(vv))
for i := 0; i < len(vvv); i++ {
vvv[i] = cfg.stringToKeyword(vv[i])
}
keywords = append(keywords, vvv...)
case []any:
return cfg.ToKeywords(cast.ToStringSlice(vv))
case time.Time:
layout := "2006"
if cfg.Pattern != "" {
layout = cfg.Pattern
}
keywords = append(keywords, StringKeyword(vv.Format(layout)))
case nil:
return keywords, nil
default:
return keywords, fmt.Errorf("indexing currently not supported for index %q and type %T", cfg.Name, vv)
}
return keywords, nil
}
func (idx *InvertedIndex) search(ctx context.Context, query ...queryElement) ([]Document, error) {
return idx.searchDate(ctx, nil, zeroDate, query...)
}
func (idx *InvertedIndex) searchDate(ctx context.Context, self Document, upperDate time.Time, query ...queryElement) ([]Document, error) {
matchm := make(map[Document]*rank, 200)
defer func() {
for _, r := range matchm {
putRank(r)
}
}()
applyDateFilter := !idx.cfg.IncludeNewer && !upperDate.IsZero()
var fragmentsFilter collections.SortedStringSlice
for _, el := range query {
setm, found := idx.index[el.Index]
if !found {
return []Document{}, fmt.Errorf("index for %q not found", el.Index)
}
config, found := idx.getIndexCfg(el.Index)
if !found {
return []Document{}, fmt.Errorf("index config for %q not found", el.Index)
}
for _, kw := range el.Keywords {
if docs, found := setm[kw]; found {
for _, doc := range docs {
if compare.Eq(doc, self) {
continue
}
if applyDateFilter {
// Exclude newer than the limit given
if doc.PublishDate().After(upperDate) {
continue
}
}
if config.Type == TypeFragments && config.ApplyFilter {
if fkw, ok := kw.(FragmentKeyword); ok {
fragmentsFilter = append(fragmentsFilter, string(fkw))
}
}
r, found := matchm[doc]
if !found {
r = getRank(doc, config.Weight)
matchm[doc] = r
} else {
r.addWeight(config.Weight)
}
}
}
}
}
if len(matchm) == 0 {
return []Document{}, nil
}
matches := make(ranks, 0, 100)
for _, v := range matchm {
avgWeight := v.Weight / v.Matches
weight := norm(avgWeight, idx.minWeight, idx.maxWeight)
threshold := idx.cfg.Threshold / v.Matches
if weight >= threshold {
matches = append(matches, v)
}
}
sort.Stable(matches)
sort.Strings(fragmentsFilter)
result := make([]Document, len(matches))
for i, m := range matches {
result[i] = m.Doc
if len(fragmentsFilter) > 0 {
if dp, ok := result[i].(FragmentProvider); ok {
result[i] = dp.ApplyFilterToHeadings(ctx, func(h *tableofcontents.Heading) bool {
return fragmentsFilter.Contains(h.ID)
})
}
}
}
return result, nil
}
// normalizes num to a number between 0 and 100.
func norm(num, min, max int) int {
if min > max {
panic("min > max")
}
return int(math.Floor((float64(num-min) / float64(max-min) * 100) + 0.5))
}
// DecodeConfig decodes a slice of map into Config.
func DecodeConfig(m maps.Params) (Config, error) {
if m == nil {
return Config{}, errors.New("no related config provided")
}
if len(m) == 0 {
return Config{}, errors.New("empty related config provided")
}
var c Config
if err := mapstructure.WeakDecode(m, &c); err != nil {
return c, err
}
if c.Threshold < 0 || c.Threshold > 100 {
return Config{}, errors.New("related threshold must be between 0 and 100")
}
if c.ToLower {
for i := range c.Indices {
c.Indices[i].ToLower = true
}
}
for i := range c.Indices {
if c.Indices[i].Type == "" {
c.Indices[i].Type = TypeBasic
}
if !validTypes[c.Indices[i].Type] {
return c, fmt.Errorf("invalid index type %q. Must be one of %v", c.Indices[i].Type, xmaps.Keys(validTypes))
}
}
return c, nil
}
// StringKeyword is a string search keyword.
type StringKeyword string
func (s StringKeyword) String() string {
return string(s)
}
// FragmentKeyword represents a document fragment.
type FragmentKeyword string
func (f FragmentKeyword) String() string {
return string(f)
}
// Keyword is the interface a keyword in the search index must implement.
type Keyword interface {
String() string
}
// StringsToKeywords converts the given slice of strings to a slice of Keyword.
func (cfg IndexConfig) StringsToKeywords(s ...string) []Keyword {
kw := make([]Keyword, len(s))
for i := 0; i < len(s); i++ {
kw[i] = cfg.stringToKeyword(s[i])
}
return kw
}