/* Tools to create epub from images. */ package epub import ( "fmt" "os" "path/filepath" "regexp" "sort" "strings" "text/template" "time" epubimage "github.com/celogeek/go-comic-converter/v2/internal/epub/image" epubimageprocessing "github.com/celogeek/go-comic-converter/v2/internal/epub/imageprocessing" 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/gofrs/uuid" ) type Options struct { Input string Output string Title string Author string LimitMb int StripFirstDirectoryFromToc bool Dry bool DryVerbose bool SortPathMode int Quiet bool Workers int Image *epubimage.Options } type ePub struct { *Options UID string Publisher string UpdatedAt string templateProcessor *template.Template } type epubPart struct { Cover *epubimage.Image Images []*epubimage.Image } // initialize epub func New(options *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, } } // 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) error { err := wz.WriteFile( fmt.Sprintf("OEBPS/%s", img.TextPath()), []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.ViewWidth, e.Image.ViewHeight), "ImagePath": img.ImgPath(), "ImageStyle": img.ImgStyle(e.Image.ViewWidth, e.Image.ViewHeight, e.Image.Manga), })), ) if err == nil { err = wz.WriteImage(img.Data) } return err } // write blank page func (e *ePub) writeBlank(wz *epubzip.EpubZip, img *epubimage.Image) error { return wz.WriteFile( fmt.Sprintf("OEBPS/Text/%d_sp.xhtml", img.Id), []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.ViewWidth, e.Image.ViewHeight), })), ) } // extract image and split it into part func (e *ePub) getParts() ([]*epubPart, error) { images, err := epubimageprocessing.LoadImages(&epubimageprocessing.Options{ Input: e.Input, SortPathMode: e.SortPathMode, Quiet: e.Quiet, Dry: e.Dry, Workers: e.Workers, Image: e.Image, }) if err != nil { return nil, err } // 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 parts, nil } // 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 baseSize := uint64(16*1024) + cover.Data.CompressedSize() if e.Image.HasCover { baseSize += cover.Data.CompressedSize() } currentSize := baseSize currentImages := make([]*epubimage.Image, 0) part := 1 for _, img := range images { imgSize := img.Data.CompressedSize() + xhtmlSize if maxSize > 0 && len(currentImages) > 0 && currentSize+imgSize > maxSize { parts = append(parts, &epubPart{ Cover: cover, Images: currentImages, }) part += 1 currentSize = baseSize if !e.Image.HasCover { currentSize += cover.Data.CompressedSize() } currentImages = make([]*epubimage.Image, 0) } currentSize += imgSize currentImages = append(currentImages, img) } if len(currentImages) > 0 { parts = append(parts, &epubPart{ Cover: cover, Images: currentImages, }) } return parts, nil } // create a tree from the directories. // // this is used to simulate the toc. func (e *ePub) getTree(images []*epubimage.Image, skip_files bool) string { t := epubtree.New() for _, img := range images { if skip_files { t.Add(img.Path) } else { t.Add(filepath.Join(img.Path, img.Name)) } } c := t.Root() if skip_files && e.StripFirstDirectoryFromToc && len(c.Children) == 1 { c = c.Children[0] } return c.WriteString("") } // create the zip func (e *ePub) Write() error { type zipContent struct { Name string Content string } epubParts, err := e.getParts() if err != nil { return err } if e.Dry { p := epubParts[0] fmt.Fprintf(os.Stderr, "TOC:\n - %s\n%s\n", e.Title, e.getTree(p.Images, true)) if e.DryVerbose { if e.Image.HasCover { fmt.Fprintf(os.Stderr, "Cover:\n%s\n", e.getTree([]*epubimage.Image{p.Cover}, false)) } fmt.Fprintf(os.Stderr, "Files:\n%s\n", e.getTree(p.Images, false)) } return nil } totalParts := len(epubParts) bar := epubprogress.New(epubprogress.Options{ Max: totalParts, Description: "Writing Part", CurrentJob: 2, TotalJob: 2, }) 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) wz, err := epubzip.New(path) if err != nil { return err } defer wz.Close() title := e.Title if totalParts > 1 { title = fmt.Sprintf("%s [%d/%d]", title, i+1, totalParts) } content := []zipContent{ {"META-INF/container.xml", epubtemplates.Container}, {"META-INF/com.apple.ibooks.display-options.xml", epubtemplates.AppleBooks}, {"OEBPS/content.opf", epubtemplates.Content(&epubtemplates.ContentOptions{ Title: title, UID: e.UID, Author: e.Author, Publisher: e.Publisher, UpdatedAt: e.UpdatedAt, ImageOptions: e.Image, Cover: part.Cover, Images: part.Images, Current: i + 1, Total: totalParts, })}, {"OEBPS/toc.xhtml", epubtemplates.Toc(title, e.StripFirstDirectoryFromToc, part.Images)}, {"OEBPS/Text/style.css", e.render(epubtemplates.Style, map[string]any{ "PageWidth": e.Image.ViewWidth, "PageHeight": e.Image.ViewHeight, })}, {"OEBPS/Text/title.xhtml", e.render(epubtemplates.Text, map[string]any{ "Title": title, "ViewPort": fmt.Sprintf("width=%d,height=%d", e.Image.ViewWidth, e.Image.ViewHeight), "ImagePath": "Images/title.jpg", "ImageStyle": part.Cover.ImgStyle(e.Image.ViewWidth, e.Image.ViewHeight, e.Image.Manga), })}, } if err = wz.WriteMagic(); err != nil { return err } for _, c := range content { if err := wz.WriteFile(c.Name, []byte(c.Content)); err != nil { return err } } if err := wz.WriteImage(epubimageprocessing.LoadCoverTitleData(part.Cover, title, e.Image.Quality)); err != nil { return err } // Cover exist or part > 1 // If no cover, part 2 and more will include the image as a cover if e.Image.HasCover || i > 0 { if err := e.writeImage(wz, part.Cover); err != nil { return err } } for i, img := range part.Images { if err := e.writeImage(wz, img); err != nil { return err } // Double Page or Last Image if img.DoublePage || (i+1 == len(part.Images)) { if err := e.writeBlank(wz, img); err != nil { return err } } } bar.Add(1) } bar.Close() return nil }