// Package epub Tools to create EPUB from images.
package epub
import (
"archive/zip"
"fmt"
"math"
"path/filepath"
"regexp"
"sort"
"strings"
"text/template"
"time"
"github.com/gofrs/uuid"
epubimage "github.com/celogeek/go-comic-converter/v2/internal/epub/image"
epubimageprocessor "github.com/celogeek/go-comic-converter/v2/internal/epub/imageprocessor"
epuboptions "github.com/celogeek/go-comic-converter/v2/internal/epub/options"
epubprogress "github.com/celogeek/go-comic-converter/v2/internal/epub/progress"
epubtemplates "github.com/celogeek/go-comic-converter/v2/internal/epub/templates"
epubtree "github.com/celogeek/go-comic-converter/v2/internal/epub/tree"
epubzip "github.com/celogeek/go-comic-converter/v2/internal/epub/zip"
"github.com/celogeek/go-comic-converter/v2/internal/utils"
)
type EPUB struct {
epuboptions.Options
UID string
Publisher string
UpdatedAt string
templateProcessor *template.Template
imageProcessor epubimageprocessor.EPUBImageProcessor
}
type epubPart struct {
Cover epubimage.Image
Images []epubimage.Image
}
// New initialize EPUB
func New(options epuboptions.Options) EPUB {
uid := uuid.Must(uuid.NewV4())
tmpl := template.New("parser")
tmpl.Funcs(template.FuncMap{
"mod": func(i, j int) bool { return i%j == 0 },
"zoom": func(s int, z float32) int { return int(float32(s) * z) },
})
return EPUB{
Options: options,
UID: uid.String(),
Publisher: "GO Comic Converter",
UpdatedAt: time.Now().UTC().Format("2006-01-02T15:04:05Z"),
templateProcessor: tmpl,
imageProcessor: epubimageprocessor.New(options),
}
}
// render templates
func (e EPUB) render(templateString string, data map[string]any) string {
var result strings.Builder
tmpl := template.Must(e.templateProcessor.Parse(templateString))
if err := tmpl.Execute(&result, data); err != nil {
panic(err)
}
return regexp.MustCompile("\n+").ReplaceAllString(result.String(), "\n")
}
// write image to the zip
func (e EPUB) writeImage(wz epubzip.EPUBZip, img epubimage.Image, zipImg *zip.File) error {
err := wz.WriteContent(
img.EPUBPagePath(),
[]byte(e.render(epubtemplates.Text, map[string]any{
"Title": fmt.Sprintf("Image %d Part %d", img.Id, img.Part),
"ViewPort": fmt.Sprintf("width=%d,height=%d", e.Image.View.Width, e.Image.View.Height),
"ImagePath": img.ImgPath(),
"ImageStyle": img.ImgStyle(e.Image.View.Width, e.Image.View.Height, ""),
})),
)
if err == nil {
err = wz.Copy(zipImg)
}
return err
}
// write blank page
func (e EPUB) writeBlank(wz epubzip.EPUBZip, img epubimage.Image) error {
return wz.WriteContent(
img.EPUBSpacePath(),
[]byte(e.render(epubtemplates.Blank, map[string]any{
"Title": fmt.Sprintf("Blank Page %d", img.Id),
"ViewPort": fmt.Sprintf("width=%d,height=%d", e.Image.View.Width, e.Image.View.Height),
})),
)
}
// write title image
func (e EPUB) writeCoverImage(wz epubzip.EPUBZip, img epubimage.Image, part, totalParts int) error {
title := "Cover"
text := ""
if totalParts > 1 {
text = fmt.Sprintf("%d / %d", part, totalParts)
title = fmt.Sprintf("%s %s", title, text)
}
if err := wz.WriteContent(
"OEBPS/Text/cover.xhtml",
[]byte(e.render(epubtemplates.Text, map[string]any{
"Title": title,
"ViewPort": fmt.Sprintf("width=%d,height=%d", e.Image.View.Width, e.Image.View.Height),
"ImagePath": fmt.Sprintf("Images/cover.%s", e.Image.Format),
"ImageStyle": img.ImgStyle(e.Image.View.Width, e.Image.View.Height, ""),
})),
); err != nil {
return err
}
coverTitle, err := e.imageProcessor.CoverTitleData(epubimageprocessor.CoverTitleDataOptions{
Src: img.Raw,
Name: "cover",
Text: text,
Align: "bottom",
PctWidth: 50,
PctMargin: 50,
MaxFontSize: 96,
BorderSize: 8,
})
if err != nil {
return err
}
if err := wz.WriteRaw(coverTitle); err != nil {
return err
}
return nil
}
// write title image
func (e EPUB) writeTitleImage(wz epubzip.EPUBZip, img epubimage.Image, title string) error {
titleAlign := ""
if !e.Image.View.PortraitOnly {
if e.Image.Manga {
titleAlign = "right:0"
} else {
titleAlign = "left:0"
}
}
if !e.Image.View.PortraitOnly {
if err := wz.WriteContent(
"OEBPS/Text/space_title.xhtml",
[]byte(e.render(epubtemplates.Blank, map[string]any{
"Title": "Blank Page Title",
"ViewPort": fmt.Sprintf("width=%d,height=%d", e.Image.View.Width, e.Image.View.Height),
})),
); err != nil {
return err
}
}
if err := wz.WriteContent(
"OEBPS/Text/title.xhtml",
[]byte(e.render(epubtemplates.Text, map[string]any{
"Title": title,
"ViewPort": fmt.Sprintf("width=%d,height=%d", e.Image.View.Width, e.Image.View.Height),
"ImagePath": fmt.Sprintf("Images/title.%s", e.Image.Format),
"ImageStyle": img.ImgStyle(e.Image.View.Width, e.Image.View.Height, titleAlign),
})),
); err != nil {
return err
}
coverTitle, err := e.imageProcessor.CoverTitleData(epubimageprocessor.CoverTitleDataOptions{
Src: img.Raw,
Name: "title",
Text: title,
Align: "center",
PctWidth: 100,
PctMargin: 100,
MaxFontSize: 64,
BorderSize: 4,
})
if err != nil {
return err
}
if err := wz.WriteRaw(coverTitle); err != nil {
return err
}
return nil
}
// extract image and split it into part
func (e EPUB) getParts() (parts []epubPart, imgStorage epubzip.StorageImageReader, err error) {
images, err := e.imageProcessor.Load()
if err != nil {
return
}
// sort result by id and part
sort.Slice(images, func(i, j int) bool {
if images[i].Id == images[j].Id {
return images[i].Part < images[j].Part
}
return images[i].Id < images[j].Id
})
parts = make([]epubPart, 0)
cover := images[0]
if e.Image.HasCover {
images = images[1:]
}
if e.Dry {
parts = append(parts, epubPart{
Cover: cover,
Images: images,
})
return
}
imgStorage, err = epubzip.NewStorageImageReader(e.ImgStorage())
if err != nil {
return
}
// compute size of the EPUB part and try to be as close as possible of the target
maxSize := uint64(e.LimitMb * 1024 * 1024)
xhtmlSize := uint64(1024)
// descriptor files + title + cover
baseSize := uint64(128*1024) + imgStorage.Size(cover.EPUBImgPath())*2
currentSize := baseSize
currentImages := make([]epubimage.Image, 0)
part := 1
for _, img := range images {
imgSize := imgStorage.Size(img.EPUBImgPath()) + xhtmlSize
if maxSize > 0 && len(currentImages) > 0 && currentSize+imgSize > maxSize {
parts = append(parts, epubPart{
Cover: cover,
Images: currentImages,
})
part += 1
currentSize = baseSize
currentImages = make([]epubimage.Image, 0)
}
currentSize += imgSize
currentImages = append(currentImages, img)
}
if len(currentImages) > 0 {
parts = append(parts, epubPart{
Cover: cover,
Images: currentImages,
})
}
return
}
// create a tree from the directories.
//
// this is used to simulate the toc.
func (e EPUB) getTree(images []epubimage.Image, skipFiles bool) string {
t := epubtree.New()
for _, img := range images {
if skipFiles {
t.Add(img.Path)
} else {
t.Add(filepath.Join(img.Path, img.Name))
}
}
c := t.Root()
if skipFiles && e.StripFirstDirectoryFromToc && c.ChildCount() == 1 {
c = c.FirstChild()
}
return c.WriteString("")
}
func (e EPUB) computeAspectRatio(epubParts []epubPart) float64 {
var (
bestAspectRatio float64
bestAspectRatioCount int
aspectRatio = map[float64]int{}
)
trunc := func(v float64) float64 {
return float64(math.Round(v*10000)) / 10000
}
for _, p := range epubParts {
aspectRatio[trunc(p.Cover.OriginalAspectRatio)]++
for _, i := range p.Images {
aspectRatio[trunc(i.OriginalAspectRatio)]++
}
}
for k, v := range aspectRatio {
if v > bestAspectRatioCount {
bestAspectRatio, bestAspectRatioCount = k, v
}
}
return bestAspectRatio
}
func (e EPUB) computeViewPort(epubParts []epubPart) {
if e.Image.View.AspectRatio == -1 {
return //keep device size
}
// readjusting view port
bestAspectRatio := e.Image.View.AspectRatio
if bestAspectRatio == 0 {
bestAspectRatio = e.computeAspectRatio(epubParts)
}
viewWidth, viewHeight := int(float64(e.Image.View.Height)/bestAspectRatio), int(float64(e.Image.View.Width)*bestAspectRatio)
if viewWidth > e.Image.View.Width {
e.Image.View.Height = viewHeight
} else {
e.Image.View.Width = viewWidth
}
}
func (e EPUB) writePart(path string, currentPart, totalParts int, part epubPart, imgStorage epubzip.StorageImageReader) error {
hasTitlePage := e.TitlePage == 1 || (e.TitlePage == 2 && totalParts > 1)
wz, err := epubzip.New(path)
if err != nil {
return err
}
defer func(wz epubzip.EPUBZip) {
_ = wz.Close()
}(wz)
title := e.Title
if totalParts > 1 {
title = fmt.Sprintf("%s [%d/%d]", title, currentPart, totalParts)
}
type zipContent struct {
Name string
Content string
}
content := []zipContent{
{"META-INF/container.xml", epubtemplates.Container},
{"META-INF/com.apple.ibooks.display-options.xml", epubtemplates.AppleBooks},
{"OEBPS/content.opf", epubtemplates.Content{
Title: title,
HasTitlePage: hasTitlePage,
UID: e.UID,
Author: e.Author,
Publisher: e.Publisher,
UpdatedAt: e.UpdatedAt,
ImageOptions: e.Image,
Cover: part.Cover,
Images: part.Images,
Current: currentPart,
Total: totalParts,
}.String()},
{"OEBPS/toc.xhtml", epubtemplates.Toc(title, hasTitlePage, e.StripFirstDirectoryFromToc, part.Images)},
{"OEBPS/Text/style.css", e.render(epubtemplates.Style, map[string]any{
"View": e.Image.View,
})},
}
if err = wz.WriteMagic(); err != nil {
return err
}
for _, c := range content {
if err := wz.WriteContent(c.Name, []byte(c.Content)); err != nil {
return err
}
}
if err = e.writeCoverImage(wz, part.Cover, currentPart, totalParts); err != nil {
return err
}
if hasTitlePage {
if err = e.writeTitleImage(wz, part.Cover, title); err != nil {
return err
}
}
lastImage := part.Images[len(part.Images)-1]
for _, img := range part.Images {
if err := e.writeImage(wz, img, imgStorage.Get(img.EPUBImgPath())); err != nil {
return err
}
// Double Page or Last Image that is not a double page
if !e.Image.View.PortraitOnly &&
(img.DoublePage ||
(!e.Image.KeepDoublePageIfSplit && img.Part == 1) ||
(img.Part == 0 && img == lastImage)) {
if err := e.writeBlank(wz, img); err != nil {
return err
}
}
}
return nil
}
// create the zip
func (e EPUB) Write() error {
epubParts, imgStorage, err := e.getParts()
if err != nil {
return err
}
if e.Dry {
p := epubParts[0]
utils.Printf("TOC:\n - %s\n%s\n", e.Title, e.getTree(p.Images, true))
if e.DryVerbose {
if e.Image.HasCover {
utils.Printf("Cover:\n%s\n", e.getTree([]epubimage.Image{p.Cover}, false))
}
utils.Printf("Files:\n%s\n", e.getTree(p.Images, false))
}
return nil
}
defer func() {
_ = imgStorage.Close()
_ = imgStorage.Remove()
}()
totalParts := len(epubParts)
bar := epubprogress.New(epubprogress.Options{
Max: totalParts,
Description: "Writing Part",
CurrentJob: 2,
TotalJob: 2,
Quiet: e.Quiet,
Json: e.Json,
})
e.computeViewPort(epubParts)
for i, part := range epubParts {
ext := filepath.Ext(e.Output)
suffix := ""
if totalParts > 1 {
fmtLen := len(fmt.Sprint(totalParts))
fmtPart := fmt.Sprintf(" Part %%0%dd of %%0%dd", fmtLen, fmtLen)
suffix = fmt.Sprintf(fmtPart, i+1, totalParts)
}
path := fmt.Sprintf("%s%s%s", e.Output[0:len(e.Output)-len(ext)], suffix, ext)
if err := e.writePart(
path,
i+1,
totalParts,
part,
imgStorage,
); err != nil {
return err
}
_ = bar.Add(1)
}
_ = bar.Close()
if !e.Json {
utils.Println()
}
// display corrupted images
hasError := false
for pId, part := range epubParts {
if pId == 0 && e.Image.HasCover && part.Cover.Error != nil {
hasError = true
utils.Printf("Error on image %s: %v\n", filepath.Join(part.Cover.Path, part.Cover.Name), part.Cover.Error)
}
for _, img := range part.Images {
if img.Part == 0 && img.Error != nil {
hasError = true
utils.Printf("Error on image %s: %v\n", filepath.Join(img.Path, img.Name), img.Error)
}
}
}
if hasError {
utils.Println()
}
return nil
}