mirror of
https://github.com/gohugoio/hugo.git
synced 2024-11-21 20:46:30 -05:00
80230f26a3
This commit adds support for theme composition and inheritance in Hugo. With this, it helps thinking about a theme as a set of ordered components: ```toml theme = ["my-shortcodes", "base-theme", "hyde"] ``` The theme definition example above in `config.toml` creates a theme with the 3 components with presedence from left to right. So, Hugo will, for any given file, data entry etc., look first in the project, and then in `my-shortcode`, `base-theme` and lastly `hyde`. Hugo uses two different algorithms to merge the filesystems, depending on the file type: * For `i18n` and `data` files, Hugo merges deeply using the translation id and data key inside the files. * For `static`, `layouts` (templates) and `archetypes` files, these are merged on file level. So the left-most file will be chosen. The name used in the `theme` definition above must match a folder in `/your-site/themes`, e.g. `/your-site/themes/my-shortcodes`. There are plans to improve on this and get a URL scheme so this can be resolved automatically. Also note that a component that is part of a theme can have its own configuration file, e.g. `config.toml`. There are currently some restrictions to what a theme component can configure: * `params` (global and per language) * `menu` (global and per language) * `outputformats` and `mediatypes` The same rules apply here: The left-most param/menu etc. with the same ID will win. There are some hidden and experimental namespace support in the above, which we will work to improve in the future, but theme authors are encouraged to create their own namespaces to avoid naming conflicts. A final note: Themes/components can also have a `theme` definition in their `config.toml` and similar, which is the "inheritance" part of this commit's title. This is currently not supported by the Hugo theme site. We will have to wait for some "auto dependency" feature to be implemented for that to happen, but this can be a powerful feature if you want to create your own theme-variant based on others. Fixes #4460 Fixes #4450
545 lines
12 KiB
Go
545 lines
12 KiB
Go
// Copyright 2015 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.
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// 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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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package hugolib
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import (
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"errors"
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"fmt"
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"html/template"
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"math"
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"reflect"
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"strings"
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"github.com/gohugoio/hugo/config"
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"github.com/spf13/cast"
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)
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// Pager represents one of the elements in a paginator.
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// The number, starting on 1, represents its place.
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type Pager struct {
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number int
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*paginator
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}
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func (p Pager) String() string {
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return fmt.Sprintf("Pager %d", p.number)
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}
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type paginatedElement interface {
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Len() int
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}
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// Len returns the number of pages in the list.
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func (p Pages) Len() int {
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return len(p)
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}
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// Len returns the number of pages in the page group.
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func (psg PagesGroup) Len() int {
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l := 0
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for _, pg := range psg {
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l += len(pg.Pages)
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}
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return l
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}
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type pagers []*Pager
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var (
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paginatorEmptyPages Pages
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paginatorEmptyPageGroups PagesGroup
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)
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type paginator struct {
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paginatedElements []paginatedElement
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pagers
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paginationURLFactory
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total int
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size int
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source interface{}
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options []interface{}
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}
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type paginationURLFactory func(int) string
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// PageNumber returns the current page's number in the pager sequence.
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func (p *Pager) PageNumber() int {
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return p.number
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}
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// URL returns the URL to the current page.
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func (p *Pager) URL() template.HTML {
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return template.HTML(p.paginationURLFactory(p.PageNumber()))
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}
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// Pages returns the Pages on this page.
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// Note: If this return a non-empty result, then PageGroups() will return empty.
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func (p *Pager) Pages() Pages {
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if len(p.paginatedElements) == 0 {
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return paginatorEmptyPages
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}
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if pages, ok := p.element().(Pages); ok {
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return pages
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}
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return paginatorEmptyPages
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}
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// PageGroups return Page groups for this page.
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// Note: If this return non-empty result, then Pages() will return empty.
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func (p *Pager) PageGroups() PagesGroup {
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if len(p.paginatedElements) == 0 {
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return paginatorEmptyPageGroups
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}
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if groups, ok := p.element().(PagesGroup); ok {
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return groups
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}
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return paginatorEmptyPageGroups
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}
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func (p *Pager) element() paginatedElement {
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if len(p.paginatedElements) == 0 {
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return paginatorEmptyPages
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}
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return p.paginatedElements[p.PageNumber()-1]
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}
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// page returns the Page with the given index
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func (p *Pager) page(index int) (*Page, error) {
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if pages, ok := p.element().(Pages); ok {
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if pages != nil && len(pages) > index {
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return pages[index], nil
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}
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return nil, nil
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}
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// must be PagesGroup
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// this construction looks clumsy, but ...
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// ... it is the difference between 99.5% and 100% test coverage :-)
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groups := p.element().(PagesGroup)
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i := 0
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for _, v := range groups {
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for _, page := range v.Pages {
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if i == index {
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return page, nil
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}
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i++
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}
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}
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return nil, nil
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}
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// NumberOfElements gets the number of elements on this page.
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func (p *Pager) NumberOfElements() int {
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return p.element().Len()
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}
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// HasPrev tests whether there are page(s) before the current.
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func (p *Pager) HasPrev() bool {
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return p.PageNumber() > 1
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}
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// Prev returns the pager for the previous page.
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func (p *Pager) Prev() *Pager {
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if !p.HasPrev() {
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return nil
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}
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return p.pagers[p.PageNumber()-2]
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}
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// HasNext tests whether there are page(s) after the current.
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func (p *Pager) HasNext() bool {
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return p.PageNumber() < len(p.paginatedElements)
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}
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// Next returns the pager for the next page.
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func (p *Pager) Next() *Pager {
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if !p.HasNext() {
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return nil
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}
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return p.pagers[p.PageNumber()]
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}
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// First returns the pager for the first page.
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func (p *Pager) First() *Pager {
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return p.pagers[0]
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}
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// Last returns the pager for the last page.
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func (p *Pager) Last() *Pager {
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return p.pagers[len(p.pagers)-1]
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}
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// Pagers returns a list of pagers that can be used to build a pagination menu.
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func (p *paginator) Pagers() pagers {
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return p.pagers
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}
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// PageSize returns the size of each paginator page.
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func (p *paginator) PageSize() int {
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return p.size
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}
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// TotalPages returns the number of pages in the paginator.
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func (p *paginator) TotalPages() int {
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return len(p.paginatedElements)
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}
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// TotalNumberOfElements returns the number of elements on all pages in this paginator.
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func (p *paginator) TotalNumberOfElements() int {
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return p.total
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}
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func splitPages(pages Pages, size int) []paginatedElement {
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var split []paginatedElement
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for low, j := 0, len(pages); low < j; low += size {
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high := int(math.Min(float64(low+size), float64(len(pages))))
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split = append(split, pages[low:high])
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}
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return split
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}
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func splitPageGroups(pageGroups PagesGroup, size int) []paginatedElement {
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type keyPage struct {
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key interface{}
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page *Page
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}
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var (
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split []paginatedElement
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flattened []keyPage
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)
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for _, g := range pageGroups {
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for _, p := range g.Pages {
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flattened = append(flattened, keyPage{g.Key, p})
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}
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}
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numPages := len(flattened)
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for low, j := 0, numPages; low < j; low += size {
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high := int(math.Min(float64(low+size), float64(numPages)))
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var (
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pg PagesGroup
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key interface{}
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groupIndex = -1
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)
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for k := low; k < high; k++ {
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kp := flattened[k]
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if key == nil || key != kp.key {
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key = kp.key
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pg = append(pg, PageGroup{Key: key})
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groupIndex++
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}
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pg[groupIndex].Pages = append(pg[groupIndex].Pages, kp.page)
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}
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split = append(split, pg)
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}
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return split
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}
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// Paginator get this Page's main output's paginator.
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func (p *Page) Paginator(options ...interface{}) (*Pager, error) {
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return p.mainPageOutput.Paginator(options...)
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}
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// Paginator gets this PageOutput's paginator if it's already created.
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// If it's not, one will be created with all pages in Data["Pages"].
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func (p *PageOutput) Paginator(options ...interface{}) (*Pager, error) {
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if !p.IsNode() {
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return nil, fmt.Errorf("Paginators not supported for pages of type %q (%q)", p.Kind, p.title)
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}
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pagerSize, err := resolvePagerSize(p.s.Cfg, options...)
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if err != nil {
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return nil, err
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}
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var initError error
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p.paginatorInit.Do(func() {
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if p.paginator != nil {
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return
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}
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pathDescriptor := p.targetPathDescriptor
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if p.s.owner.IsMultihost() {
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pathDescriptor.LangPrefix = ""
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}
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pagers, err := paginatePages(pathDescriptor, p.Data["Pages"], pagerSize)
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if err != nil {
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initError = err
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}
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if len(pagers) > 0 {
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// the rest of the nodes will be created later
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p.paginator = pagers[0]
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p.paginator.source = "paginator"
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p.paginator.options = options
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}
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})
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if initError != nil {
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return nil, initError
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}
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return p.paginator, nil
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}
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// Paginate invokes this Page's main output's Paginate method.
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func (p *Page) Paginate(seq interface{}, options ...interface{}) (*Pager, error) {
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return p.mainPageOutput.Paginate(seq, options...)
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}
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// Paginate gets this PageOutput's paginator if it's already created.
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// If it's not, one will be created with the qiven sequence.
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// Note that repeated calls will return the same result, even if the sequence is different.
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func (p *PageOutput) Paginate(seq interface{}, options ...interface{}) (*Pager, error) {
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if !p.IsNode() {
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return nil, fmt.Errorf("Paginators not supported for pages of type %q (%q)", p.Kind, p.title)
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}
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pagerSize, err := resolvePagerSize(p.s.Cfg, options...)
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if err != nil {
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return nil, err
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}
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var initError error
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p.paginatorInit.Do(func() {
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if p.paginator != nil {
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return
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}
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pathDescriptor := p.targetPathDescriptor
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if p.s.owner.IsMultihost() {
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pathDescriptor.LangPrefix = ""
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}
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pagers, err := paginatePages(pathDescriptor, seq, pagerSize)
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if err != nil {
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initError = err
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}
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if len(pagers) > 0 {
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// the rest of the nodes will be created later
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p.paginator = pagers[0]
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p.paginator.source = seq
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p.paginator.options = options
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}
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})
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if initError != nil {
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return nil, initError
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}
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if p.paginator.source == "paginator" {
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return nil, errors.New("a Paginator was previously built for this Node without filters; look for earlier .Paginator usage")
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}
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if !reflect.DeepEqual(options, p.paginator.options) || !probablyEqualPageLists(p.paginator.source, seq) {
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return nil, errors.New("invoked multiple times with different arguments")
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}
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return p.paginator, nil
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}
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func resolvePagerSize(cfg config.Provider, options ...interface{}) (int, error) {
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if len(options) == 0 {
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return cfg.GetInt("paginate"), nil
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}
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if len(options) > 1 {
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return -1, errors.New("too many arguments, 'pager size' is currently the only option")
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}
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pas, err := cast.ToIntE(options[0])
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if err != nil || pas <= 0 {
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return -1, errors.New(("'pager size' must be a positive integer"))
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}
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return pas, nil
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}
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func paginatePages(td targetPathDescriptor, seq interface{}, pagerSize int) (pagers, error) {
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if pagerSize <= 0 {
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return nil, errors.New("'paginate' configuration setting must be positive to paginate")
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}
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urlFactory := newPaginationURLFactory(td)
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var paginator *paginator
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if groups, ok := seq.(PagesGroup); ok {
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paginator, _ = newPaginatorFromPageGroups(groups, pagerSize, urlFactory)
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} else {
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pages, err := toPages(seq)
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if err != nil {
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return nil, err
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}
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paginator, _ = newPaginatorFromPages(pages, pagerSize, urlFactory)
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}
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pagers := paginator.Pagers()
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return pagers, nil
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}
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func toPages(seq interface{}) (Pages, error) {
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if seq == nil {
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return Pages{}, nil
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}
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switch seq.(type) {
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case Pages:
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return seq.(Pages), nil
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case *Pages:
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return *(seq.(*Pages)), nil
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case WeightedPages:
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return (seq.(WeightedPages)).Pages(), nil
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case PageGroup:
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return (seq.(PageGroup)).Pages, nil
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default:
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return nil, fmt.Errorf("unsupported type in paginate, got %T", seq)
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}
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}
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// probablyEqual checks page lists for probable equality.
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// It may return false positives.
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// The motivation behind this is to avoid potential costly reflect.DeepEqual
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// when "probably" is good enough.
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func probablyEqualPageLists(a1 interface{}, a2 interface{}) bool {
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if a1 == nil || a2 == nil {
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return a1 == a2
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}
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t1 := reflect.TypeOf(a1)
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t2 := reflect.TypeOf(a2)
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if t1 != t2 {
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return false
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}
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if g1, ok := a1.(PagesGroup); ok {
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g2 := a2.(PagesGroup)
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if len(g1) != len(g2) {
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return false
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}
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if len(g1) == 0 {
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return true
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}
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if g1.Len() != g2.Len() {
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return false
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}
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return g1[0].Pages[0] == g2[0].Pages[0]
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}
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p1, err1 := toPages(a1)
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p2, err2 := toPages(a2)
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// probably the same wrong type
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if err1 != nil && err2 != nil {
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return true
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}
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if len(p1) != len(p2) {
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return false
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}
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if len(p1) == 0 {
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return true
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}
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return p1[0] == p2[0]
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}
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func newPaginatorFromPages(pages Pages, size int, urlFactory paginationURLFactory) (*paginator, error) {
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if size <= 0 {
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return nil, errors.New("Paginator size must be positive")
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}
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split := splitPages(pages, size)
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return newPaginator(split, len(pages), size, urlFactory)
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}
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func newPaginatorFromPageGroups(pageGroups PagesGroup, size int, urlFactory paginationURLFactory) (*paginator, error) {
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if size <= 0 {
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return nil, errors.New("Paginator size must be positive")
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}
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split := splitPageGroups(pageGroups, size)
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return newPaginator(split, pageGroups.Len(), size, urlFactory)
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}
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func newPaginator(elements []paginatedElement, total, size int, urlFactory paginationURLFactory) (*paginator, error) {
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p := &paginator{total: total, paginatedElements: elements, size: size, paginationURLFactory: urlFactory}
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var ps pagers
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if len(elements) > 0 {
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ps = make(pagers, len(elements))
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for i := range p.paginatedElements {
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ps[i] = &Pager{number: (i + 1), paginator: p}
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}
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} else {
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ps = make(pagers, 1)
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ps[0] = &Pager{number: 1, paginator: p}
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}
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p.pagers = ps
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return p, nil
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}
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func newPaginationURLFactory(d targetPathDescriptor) paginationURLFactory {
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return func(page int) string {
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pathDescriptor := d
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var rel string
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if page > 1 {
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rel = fmt.Sprintf("/%s/%d/", d.PathSpec.PaginatePath, page)
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pathDescriptor.Addends = rel
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}
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targetPath := createTargetPath(pathDescriptor)
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targetPath = strings.TrimSuffix(targetPath, d.Type.BaseFilename())
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link := d.PathSpec.PrependBasePath(targetPath)
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// Note: The targetPath is massaged with MakePathSanitized
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return d.PathSpec.URLizeFilename(link)
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}
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}
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