hugo/hugolib/page_collections_test.go

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// Copyright 2017 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 (
"fmt"
"math/rand"
"path"
"path/filepath"
"testing"
"time"
"github.com/gohugoio/hugo/deps"
"github.com/stretchr/testify/require"
)
const pageCollectionsPageTemplate = `---
title: "%s"
categories:
- Hugo
---
# Doc
`
func BenchmarkGetPage(b *testing.B) {
var (
cfg, fs = newTestCfg()
r = rand.New(rand.NewSource(time.Now().UnixNano()))
)
for i := 0; i < 10; i++ {
for j := 0; j < 100; j++ {
writeSource(b, fs, filepath.Join("content", fmt.Sprintf("sect%d", i), fmt.Sprintf("page%d.md", j)), "CONTENT")
}
}
s := buildSingleSite(b, deps.DepsCfg{Fs: fs, Cfg: cfg}, BuildCfg{SkipRender: true})
pagePaths := make([]string, b.N)
for i := 0; i < b.N; i++ {
pagePaths[i] = fmt.Sprintf("sect%d", r.Intn(10))
}
b.ResetTimer()
for i := 0; i < b.N; i++ {
home, _ := s.getPageNew(nil, "/")
if home == nil {
b.Fatal("Home is nil")
}
p, _ := s.getPageNew(nil, pagePaths[i])
if p == nil {
b.Fatal("Section is nil")
}
}
}
func BenchmarkGetPageRegular(b *testing.B) {
var (
cfg, fs = newTestCfg()
r = rand.New(rand.NewSource(time.Now().UnixNano()))
)
for i := 0; i < 10; i++ {
for j := 0; j < 100; j++ {
content := fmt.Sprintf(pageCollectionsPageTemplate, fmt.Sprintf("Title%d_%d", i, j))
writeSource(b, fs, filepath.Join("content", fmt.Sprintf("sect%d", i), fmt.Sprintf("page%d.md", j)), content)
}
}
s := buildSingleSite(b, deps.DepsCfg{Fs: fs, Cfg: cfg}, BuildCfg{SkipRender: true})
pagePaths := make([]string, b.N)
for i := 0; i < b.N; i++ {
pagePaths[i] = path.Join(fmt.Sprintf("sect%d", r.Intn(10)), fmt.Sprintf("page%d.md", r.Intn(100)))
}
b.ResetTimer()
for i := 0; i < b.N; i++ {
page, _ := s.getPageNew(nil, pagePaths[i])
require.NotNil(b, page)
}
}
type testCase struct {
kind string
context *Page
path []string
expectedTitle string
}
func (t *testCase) check(p *Page, err error, errorMsg string, assert *require.Assertions) {
switch t.kind {
case "Ambiguous":
assert.Error(err)
assert.Nil(p, errorMsg)
case "NoPage":
assert.NoError(err)
assert.Nil(p, errorMsg)
default:
assert.NoError(err, errorMsg)
assert.NotNil(p, errorMsg)
assert.Equal(t.kind, p.Kind, errorMsg)
assert.Equal(t.expectedTitle, p.title, errorMsg)
}
}
func TestGetPage(t *testing.T) {
var (
assert = require.New(t)
cfg, fs = newTestCfg()
)
for i := 0; i < 10; i++ {
for j := 0; j < 10; j++ {
content := fmt.Sprintf(pageCollectionsPageTemplate, fmt.Sprintf("Title%d_%d", i, j))
writeSource(t, fs, filepath.Join("content", fmt.Sprintf("sect%d", i), fmt.Sprintf("page%d.md", j)), content)
}
}
content := fmt.Sprintf(pageCollectionsPageTemplate, "home page")
writeSource(t, fs, filepath.Join("content", "_index.md"), content)
content = fmt.Sprintf(pageCollectionsPageTemplate, "about page")
writeSource(t, fs, filepath.Join("content", "about.md"), content)
content = fmt.Sprintf(pageCollectionsPageTemplate, "section 3")
writeSource(t, fs, filepath.Join("content", "sect3", "_index.md"), content)
content = fmt.Sprintf(pageCollectionsPageTemplate, "UniqueBase")
writeSource(t, fs, filepath.Join("content", "sect3", "unique.md"), content)
content = fmt.Sprintf(pageCollectionsPageTemplate, "another sect7")
writeSource(t, fs, filepath.Join("content", "sect3", "sect7", "_index.md"), content)
content = fmt.Sprintf(pageCollectionsPageTemplate, "deep page")
writeSource(t, fs, filepath.Join("content", "sect3", "subsect", "deep.md"), content)
s := buildSingleSite(t, deps.DepsCfg{Fs: fs, Cfg: cfg}, BuildCfg{SkipRender: true})
sec3, err := s.getPageNew(nil, "/sect3")
assert.NoError(err, "error getting Page for /sec3")
assert.NotNil(sec3, "failed to get Page for /sec3")
tests := []testCase{
// legacy content root relative paths
{KindHome, nil, []string{}, "home page"},
{KindPage, nil, []string{"about.md"}, "about page"},
{KindSection, nil, []string{"sect3"}, "section 3"},
{KindPage, nil, []string{"sect3/page1.md"}, "Title3_1"},
{KindPage, nil, []string{"sect4/page2.md"}, "Title4_2"},
{KindSection, nil, []string{"sect3/sect7"}, "another sect7"},
{KindPage, nil, []string{"sect3/subsect/deep.md"}, "deep page"},
{KindPage, nil, []string{filepath.FromSlash("sect5/page3.md")}, "Title5_3"}, //test OS-specific path
// shorthand refs (potentially ambiguous)
{KindPage, nil, []string{"unique.md"}, "UniqueBase"},
{"Ambiguous", nil, []string{"page1.md"}, ""},
// ISSUE: This is an ambiguous ref, but because we have to support the legacy
// content root relative paths without a leading slash, the lookup
// returns /sect7. This undermines ambiguity detection, but we have no choice.
//{"Ambiguous", nil, []string{"sect7"}, ""},
{KindSection, nil, []string{"sect7"}, "Sect7s"},
// absolute paths
{KindHome, nil, []string{"/"}, "home page"},
{KindPage, nil, []string{"/about.md"}, "about page"},
{KindSection, nil, []string{"/sect3"}, "section 3"},
{KindPage, nil, []string{"/sect3/page1.md"}, "Title3_1"},
{KindPage, nil, []string{"/sect4/page2.md"}, "Title4_2"},
{KindSection, nil, []string{"/sect3/sect7"}, "another sect7"},
{KindPage, nil, []string{"/sect3/subsect/deep.md"}, "deep page"},
{KindPage, nil, []string{filepath.FromSlash("/sect5/page3.md")}, "Title5_3"}, //test OS-specific path
{KindPage, nil, []string{"/sect3/unique.md"}, "UniqueBase"}, //next test depends on this page existing
// {"NoPage", nil, []string{"/unique.md"}, ""}, // ISSUE #4969: this is resolving to /sect3/unique.md
{"NoPage", nil, []string{"/missing-page.md"}, ""},
{"NoPage", nil, []string{"/missing-section"}, ""},
// relative paths
{KindHome, sec3, []string{".."}, "home page"},
{KindHome, sec3, []string{"../"}, "home page"},
{KindPage, sec3, []string{"../about.md"}, "about page"},
{KindSection, sec3, []string{"."}, "section 3"},
{KindSection, sec3, []string{"./"}, "section 3"},
{KindPage, sec3, []string{"page1.md"}, "Title3_1"},
{KindPage, sec3, []string{"./page1.md"}, "Title3_1"},
{KindPage, sec3, []string{"../sect4/page2.md"}, "Title4_2"},
{KindSection, sec3, []string{"sect7"}, "another sect7"},
{KindSection, sec3, []string{"./sect7"}, "another sect7"},
{KindPage, sec3, []string{"./subsect/deep.md"}, "deep page"},
{KindPage, sec3, []string{"./subsect/../../sect7/page9.md"}, "Title7_9"},
{KindPage, sec3, []string{filepath.FromSlash("../sect5/page3.md")}, "Title5_3"}, //test OS-specific path
{KindPage, sec3, []string{"./unique.md"}, "UniqueBase"},
{"NoPage", sec3, []string{"./sect2"}, ""},
//{"NoPage", sec3, []string{"sect2"}, ""}, // ISSUE: /sect3 page relative query is resolving to /sect2
// absolute paths ignore context
{KindHome, sec3, []string{"/"}, "home page"},
{KindPage, sec3, []string{"/about.md"}, "about page"},
{KindPage, sec3, []string{"/sect4/page2.md"}, "Title4_2"},
{KindPage, sec3, []string{"/sect3/subsect/deep.md"}, "deep page"}, //next test depends on this page existing
{"NoPage", sec3, []string{"/subsect/deep.md"}, ""},
}
for _, test := range tests {
errorMsg := fmt.Sprintf("Test case %s %v -> %s", test.context, test.path, test.expectedTitle)
// test legacy public Site.GetPage (which does not support page context relative queries)
if test.context == nil {
args := append([]string{test.kind}, test.path...)
page, err := s.Info.GetPage(args...)
test.check(page, err, errorMsg, assert)
}
// test new internal Site.getPageNew
var ref string
if len(test.path) == 1 {
ref = filepath.ToSlash(test.path[0])
} else {
ref = path.Join(test.path...)
}
page2, err := s.getPageNew(test.context, ref)
test.check(page2, err, errorMsg, assert)
}
}