hugo/hugolib/taxonomy.go
bep be38acdce7 Add PreserveTaxonomyNames flag
Before this commit, taxonomy names were hyphenated, lower-cased and normalized -- then fixed and titleized on the archive page.

So what you entered in the front matter isn't necessarily what you got in the final site.

To preserve backwards compability, `PreserveTaxonomyNames` is default `false`.

Setting it to `true` will preserve what you type (the first characters is made toupper for titles), but normalized in URLs.

This also means that, if you manually construct URLs to the archive pages, you will have to pass the Taxonomy names through the `urlize` func.

Fixes #1180
2015-05-31 20:30:53 +02:00

211 lines
5.3 KiB
Go

// Copyright © 2013 Steve Francia <spf@spf13.com>.
//
// Licensed under the Simple Public 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://opensource.org/licenses/Simple-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 (
"sort"
"github.com/spf13/hugo/helpers"
)
/*
* An taxonomy list is a list of all taxonomies and their values
* EG. List['tags'] => TagTaxonomy (from above)
*/
type TaxonomyList map[string]Taxonomy
/*
* An taxonomy is a map of keywords to a list of pages.
* For example
* TagTaxonomy['technology'] = WeightedPages
* TagTaxonomy['go'] = WeightedPages2
*/
type Taxonomy map[string]WeightedPages
/*
* A list of Pages with their corresponding (and relative) weight
* [{Weight: 30, Page: *1}, {Weight: 40, Page: *2}]
*/
type WeightedPages []WeightedPage
type WeightedPage struct {
Weight int
Page *Page
}
/*
* This is another representation of an Taxonomy using an array rather than a map.
* Important because you can't order a map.
*/
type OrderedTaxonomy []OrderedTaxonomyEntry
/*
* Similar to an element of an Taxonomy, but with the key embedded (as name)
* Eg: {Name: Technology, WeightedPages: Taxonomyedpages}
*/
type OrderedTaxonomyEntry struct {
Name string
WeightedPages WeightedPages
}
// KeyPrep... Taxonomies should be case insensitive. Can make it easily conditional later.
func kp(in string) string {
return helpers.MakePathToLower(in)
}
func (i Taxonomy) Get(key string) WeightedPages { return i[kp(key)] }
func (i Taxonomy) Count(key string) int { return len(i[kp(key)]) }
func (i Taxonomy) Add(key string, w WeightedPage, pretty bool) {
if !pretty {
key = kp(key)
}
i[key] = append(i[key], w)
}
// Returns an ordered taxonomy with a non defined order
func (i Taxonomy) TaxonomyArray() OrderedTaxonomy {
ies := make([]OrderedTaxonomyEntry, len(i))
count := 0
for k, v := range i {
ies[count] = OrderedTaxonomyEntry{Name: k, WeightedPages: v}
count++
}
return ies
}
// Returns an ordered taxonomy sorted by key name
func (i Taxonomy) Alphabetical() OrderedTaxonomy {
name := func(i1, i2 *OrderedTaxonomyEntry) bool {
return i1.Name < i2.Name
}
ia := i.TaxonomyArray()
OIby(name).Sort(ia)
return ia
}
// Returns an ordered taxonomy sorted by # of pages per key
func (i Taxonomy) ByCount() OrderedTaxonomy {
count := func(i1, i2 *OrderedTaxonomyEntry) bool {
return len(i1.WeightedPages) > len(i2.WeightedPages)
}
ia := i.TaxonomyArray()
OIby(count).Sort(ia)
return ia
}
// Helper to move the page access up a level
func (ie OrderedTaxonomyEntry) Pages() Pages {
return ie.WeightedPages.Pages()
}
func (ie OrderedTaxonomyEntry) Count() int {
return len(ie.WeightedPages)
}
func (ie OrderedTaxonomyEntry) Term() string {
return ie.Name
}
func (t OrderedTaxonomy) Reverse() OrderedTaxonomy {
for i, j := 0, len(t)-1; i < j; i, j = i+1, j-1 {
t[i], t[j] = t[j], t[i]
}
return t
}
/*
* Implementation of a custom sorter for OrderedTaxonomies
*/
// A type to implement the sort interface for TaxonomyEntries.
type orderedTaxonomySorter struct {
taxonomy OrderedTaxonomy
by OIby
}
// Closure used in the Sort.Less method.
type OIby func(i1, i2 *OrderedTaxonomyEntry) bool
func (by OIby) Sort(taxonomy OrderedTaxonomy) {
ps := &orderedTaxonomySorter{
taxonomy: taxonomy,
by: by, // The Sort method's receiver is the function (closure) that defines the sort order.
}
sort.Stable(ps)
}
// Len is part of sort.Interface.
func (s *orderedTaxonomySorter) Len() int {
return len(s.taxonomy)
}
// Swap is part of sort.Interface.
func (s *orderedTaxonomySorter) Swap(i, j int) {
s.taxonomy[i], s.taxonomy[j] = s.taxonomy[j], s.taxonomy[i]
}
// Less is part of sort.Interface. It is implemented by calling the "by" closure in the sorter.
func (s *orderedTaxonomySorter) Less(i, j int) bool {
return s.by(&s.taxonomy[i], &s.taxonomy[j])
}
func (wp WeightedPages) Pages() Pages {
pages := make(Pages, len(wp))
for i := range wp {
pages[i] = wp[i].Page
}
return pages
}
func (wp WeightedPages) Prev(cur *Page) *Page {
for x, c := range wp {
if c.Page.UniqueID() == cur.UniqueID() {
if x == 0 {
return wp[len(wp)-1].Page
}
return wp[x-1].Page
}
}
return nil
}
func (wp WeightedPages) Next(cur *Page) *Page {
for x, c := range wp {
if c.Page.UniqueID() == cur.UniqueID() {
if x < len(wp)-1 {
return wp[x+1].Page
}
return wp[0].Page
}
}
return nil
}
func (wp WeightedPages) Len() int { return len(wp) }
func (wp WeightedPages) Swap(i, j int) { wp[i], wp[j] = wp[j], wp[i] }
func (wp WeightedPages) Sort() { sort.Stable(wp) }
func (wp WeightedPages) Count() int { return len(wp) }
func (wp WeightedPages) Less(i, j int) bool {
if wp[i].Weight == wp[j].Weight {
if wp[i].Page.Date.Equal(wp[j].Page.Date) {
return wp[i].Page.Title < wp[j].Page.Title
}
return wp[i].Page.Date.After(wp[i].Page.Date)
}
return wp[i].Weight < wp[j].Weight
}
// TODO mimic PagesSorter for WeightedPages