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subtitles.go
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subtitles.go
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package astisub
import (
"errors"
"fmt"
"math"
"os"
"path/filepath"
"sort"
"strconv"
"strings"
"time"
"github.com/asticode/go-astikit"
)
// Bytes
var (
BytesBOM = []byte{239, 187, 191}
bytesLineSeparator = []byte("\n")
bytesSpace = []byte(" ")
)
// Colors
var (
ColorBlack = &Color{}
ColorBlue = &Color{Blue: 255}
ColorCyan = &Color{Blue: 255, Green: 255}
ColorGray = &Color{Blue: 128, Green: 128, Red: 128}
ColorGreen = &Color{Green: 128}
ColorLime = &Color{Green: 255}
ColorMagenta = &Color{Blue: 255, Red: 255}
ColorMaroon = &Color{Red: 128}
ColorNavy = &Color{Blue: 128}
ColorOlive = &Color{Green: 128, Red: 128}
ColorPurple = &Color{Blue: 128, Red: 128}
ColorRed = &Color{Red: 255}
ColorSilver = &Color{Blue: 192, Green: 192, Red: 192}
ColorTeal = &Color{Blue: 128, Green: 128}
ColorYellow = &Color{Green: 255, Red: 255}
ColorWhite = &Color{Blue: 255, Green: 255, Red: 255}
)
// Errors
var (
ErrInvalidExtension = errors.New("astisub: invalid extension")
ErrNoSubtitlesToWrite = errors.New("astisub: no subtitles to write")
)
// Now allows testing functions using it
var Now = func() time.Time {
return time.Now()
}
// Options represents open or write options
type Options struct {
Filename string
Teletext TeletextOptions
STL STLOptions
}
// Open opens a subtitle reader based on options
func Open(o Options) (s *Subtitles, err error) {
// Open the file
var f *os.File
if f, err = os.Open(o.Filename); err != nil {
err = fmt.Errorf("astisub: opening %s failed: %w", o.Filename, err)
return
}
defer f.Close()
// Parse the content
switch filepath.Ext(strings.ToLower(o.Filename)) {
case ".srt":
s, err = ReadFromSRT(f)
case ".ssa", ".ass":
s, err = ReadFromSSA(f)
case ".stl":
s, err = ReadFromSTL(f, o.STL)
case ".ts":
s, err = ReadFromTeletext(f, o.Teletext)
case ".ttml":
s, err = ReadFromTTML(f)
case ".vtt":
s, err = ReadFromWebVTT(f)
default:
err = ErrInvalidExtension
}
return
}
// OpenFile opens a file regardless of other options
func OpenFile(filename string) (*Subtitles, error) {
return Open(Options{Filename: filename})
}
// Subtitles represents an ordered list of items with formatting
type Subtitles struct {
Items []*Item
Metadata *Metadata
Regions map[string]*Region
Styles map[string]*Style
}
// NewSubtitles creates new subtitles
func NewSubtitles() *Subtitles {
return &Subtitles{
Regions: make(map[string]*Region),
Styles: make(map[string]*Style),
}
}
// Item represents a text to show between 2 time boundaries with formatting
type Item struct {
Comments []string
Index int
EndAt time.Duration
InlineStyle *StyleAttributes
Lines []Line
Region *Region
StartAt time.Duration
Style *Style
}
// String implements the Stringer interface
func (i Item) String() string {
var os []string
for _, l := range i.Lines {
os = append(os, l.String())
}
return strings.Join(os, " - ")
}
// Color represents a color
type Color struct {
Alpha, Blue, Green, Red uint8
}
// newColorFromSSAString builds a new color based on an SSA string
func newColorFromSSAString(s string, base int) (c *Color, err error) {
var i int64
if i, err = strconv.ParseInt(s, base, 64); err != nil {
err = fmt.Errorf("parsing int %s with base %d failed: %w", s, base, err)
return
}
c = &Color{
Alpha: uint8(i>>24) & 0xff,
Blue: uint8(i>>16) & 0xff,
Green: uint8(i>>8) & 0xff,
Red: uint8(i) & 0xff,
}
return
}
// SSAString expresses the color as an SSA string
func (c *Color) SSAString() string {
return fmt.Sprintf("%.8x", uint32(c.Alpha)<<24|uint32(c.Blue)<<16|uint32(c.Green)<<8|uint32(c.Red))
}
// TTMLString expresses the color as a TTML string
func (c *Color) TTMLString() string {
return fmt.Sprintf("%.6x", uint32(c.Red)<<16|uint32(c.Green)<<8|uint32(c.Blue))
}
type Justification int
var (
JustificationUnchanged = Justification(1)
JustificationLeft = Justification(2)
JustificationCentered = Justification(3)
JustificationRight = Justification(4)
)
// StyleAttributes represents style attributes
type StyleAttributes struct {
SSAAlignment *int
SSAAlphaLevel *float64
SSAAngle *float64 // degrees
SSABackColour *Color
SSABold *bool
SSABorderStyle *int
SSAEffect string
SSAEncoding *int
SSAFontName string
SSAFontSize *float64
SSAItalic *bool
SSALayer *int
SSAMarginLeft *int // pixels
SSAMarginRight *int // pixels
SSAMarginVertical *int // pixels
SSAMarked *bool
SSAOutline *float64 // pixels
SSAOutlineColour *Color
SSAPrimaryColour *Color
SSAScaleX *float64 // %
SSAScaleY *float64 // %
SSASecondaryColour *Color
SSAShadow *float64 // pixels
SSASpacing *float64 // pixels
SSAStrikeout *bool
SSAUnderline *bool
STLBoxing *bool
STLItalics *bool
STLJustification *Justification
STLPosition *STLPosition
STLUnderline *bool
TeletextColor *Color
TeletextDoubleHeight *bool
TeletextDoubleSize *bool
TeletextDoubleWidth *bool
TeletextSpacesAfter *int
TeletextSpacesBefore *int
// TODO Use pointers with real types below
TTMLBackgroundColor *string // https://htmlcolorcodes.com/fr/
TTMLColor *string
TTMLDirection *string
TTMLDisplay *string
TTMLDisplayAlign *string
TTMLExtent *string
TTMLFontFamily *string
TTMLFontSize *string
TTMLFontStyle *string
TTMLFontWeight *string
TTMLLineHeight *string
TTMLOpacity *string
TTMLOrigin *string
TTMLOverflow *string
TTMLPadding *string
TTMLShowBackground *string
TTMLTextAlign *string
TTMLTextDecoration *string
TTMLTextOutline *string
TTMLUnicodeBidi *string
TTMLVisibility *string
TTMLWrapOption *string
TTMLWritingMode *string
TTMLZIndex *int
WebVTTAlign string
WebVTTLine string
WebVTTLines int
WebVTTPosition string
WebVTTRegionAnchor string
WebVTTScroll string
WebVTTSize string
WebVTTStyles []string
WebVTTTags []WebVTTTag
WebVTTVertical string
WebVTTViewportAnchor string
WebVTTWidth string
}
type WebVTTTag struct {
Name string
Annotation string
Classes []string
}
func (t WebVTTTag) startTag() string {
if t.Name == "" {
return ""
}
s := t.Name
if len(t.Classes) > 0 {
s += "." + strings.Join(t.Classes, ".")
}
if t.Annotation != "" {
s += " " + t.Annotation
}
return "<" + s + ">"
}
func (t WebVTTTag) endTag() string {
if t.Name == "" {
return ""
}
return "</" + t.Name + ">"
}
func (sa *StyleAttributes) propagateSSAAttributes() {}
func (sa *StyleAttributes) propagateSTLAttributes() {
if sa.STLJustification != nil {
switch *sa.STLJustification {
case JustificationCentered:
// default to middle anyway?
case JustificationRight:
sa.WebVTTAlign = "right"
case JustificationLeft:
sa.WebVTTAlign = "left"
}
}
// converts STL vertical position (row number) to WebVTT line percentage
if sa.STLPosition != nil && sa.STLPosition.MaxRows > 0 {
// in-vision vertical position ranges from 0 to maxrows (maxrows <= 99)
sa.WebVTTLine = fmt.Sprintf("%d%%", sa.STLPosition.VerticalPosition*100/sa.STLPosition.MaxRows)
// teletext vertical position ranges from 1 to 23; as webvtt line percentage starts
// from the top at 0%, substract 1 to the stl position to get a better conversion.
// Especially apparent on Shaka player, where a single line at vp 22 would be half
// out of bounds at 95% (22*100/23), and fine at 91% (21*100/23)
if sa.STLPosition.MaxRows == 23 && sa.STLPosition.VerticalPosition > 0 {
sa.WebVTTLine = fmt.Sprintf("%d%%", (sa.STLPosition.VerticalPosition-1)*100/sa.STLPosition.MaxRows)
}
}
}
func (sa *StyleAttributes) propagateTeletextAttributes() {
if sa.TeletextColor != nil {
sa.TTMLColor = astikit.StrPtr("#" + sa.TeletextColor.TTMLString())
}
}
// reference for migration: https://w3c.github.io/ttml-webvtt-mapping/
func (sa *StyleAttributes) propagateTTMLAttributes() {
if sa.TTMLTextAlign != nil {
sa.WebVTTAlign = *sa.TTMLTextAlign
}
if sa.TTMLExtent != nil {
//region settings
lineHeight := 5 //assuming height of line as 5.33vh
dimensions := strings.Split(*sa.TTMLExtent, " ")
if len(dimensions) > 1 {
sa.WebVTTWidth = dimensions[0]
if height, err := strconv.Atoi(strings.ReplaceAll(dimensions[1], "%", "")); err == nil {
sa.WebVTTLines = height / lineHeight
}
//cue settings
//default TTML WritingMode is lrtb i.e. left to right, top to bottom
sa.WebVTTSize = dimensions[1]
if sa.TTMLWritingMode != nil && strings.HasPrefix(*sa.TTMLWritingMode, "tb") {
sa.WebVTTSize = dimensions[0]
}
}
}
if sa.TTMLOrigin != nil {
//region settings
sa.WebVTTRegionAnchor = "0%,0%"
sa.WebVTTViewportAnchor = strings.ReplaceAll(strings.TrimSpace(*sa.TTMLOrigin), " ", ",")
sa.WebVTTScroll = "up"
//cue settings
coordinates := strings.Split(*sa.TTMLOrigin, " ")
if len(coordinates) > 1 {
sa.WebVTTLine = coordinates[0]
sa.WebVTTPosition = coordinates[1]
if sa.TTMLWritingMode != nil && strings.HasPrefix(*sa.TTMLWritingMode, "tb") {
sa.WebVTTLine = coordinates[1]
sa.WebVTTPosition = coordinates[0]
}
}
}
}
func (sa *StyleAttributes) propagateWebVTTAttributes() {}
// Metadata represents metadata
// TODO Merge attributes
type Metadata struct {
Comments []string
Framerate int
Language string
SSACollisions string
SSAOriginalEditing string
SSAOriginalScript string
SSAOriginalTiming string
SSAOriginalTranslation string
SSAPlayDepth *int
SSAPlayResX, SSAPlayResY *int
SSAScriptType string
SSAScriptUpdatedBy string
SSASynchPoint string
SSATimer *float64
SSAUpdateDetails string
SSAWrapStyle string
STLCountryOfOrigin string
STLCreationDate *time.Time
STLDisplayStandardCode string
STLEditorContactDetails string
STLEditorName string
STLMaximumNumberOfDisplayableCharactersInAnyTextRow *int
STLMaximumNumberOfDisplayableRows *int
STLOriginalEpisodeTitle string
STLPublisher string
STLRevisionDate *time.Time
STLRevisionNumber int
STLSubtitleListReferenceCode string
STLTimecodeStartOfProgramme time.Duration
STLTranslatedEpisodeTitle string
STLTranslatedProgramTitle string
STLTranslatorContactDetails string
STLTranslatorName string
Title string
TTMLCopyright string
}
// Region represents a subtitle's region
type Region struct {
ID string
InlineStyle *StyleAttributes
Style *Style
}
// Style represents a subtitle's style
type Style struct {
ID string
InlineStyle *StyleAttributes
Style *Style
}
// Line represents a set of formatted line items
type Line struct {
Items []LineItem
VoiceName string
}
// String implement the Stringer interface
func (l Line) String() string {
var texts []string
for _, i := range l.Items {
texts = append(texts, i.Text)
}
return strings.Join(texts, " ")
}
// LineItem represents a formatted line item
type LineItem struct {
InlineStyle *StyleAttributes
Style *Style
Text string
}
// Add adds a duration to each time boundaries. As in the time package, duration can be negative.
func (s *Subtitles) Add(d time.Duration) {
for idx := 0; idx < len(s.Items); idx++ {
s.Items[idx].EndAt += d
s.Items[idx].StartAt += d
if s.Items[idx].EndAt <= 0 && s.Items[idx].StartAt <= 0 {
s.Items = append(s.Items[:idx], s.Items[idx+1:]...)
idx--
} else if s.Items[idx].StartAt <= 0 {
s.Items[idx].StartAt = time.Duration(0)
}
}
}
// Duration returns the subtitles duration
func (s Subtitles) Duration() time.Duration {
if len(s.Items) == 0 {
return time.Duration(0)
}
return s.Items[len(s.Items)-1].EndAt
}
// ForceDuration updates the subtitles duration.
// If requested duration is bigger, then we create a dummy item.
// If requested duration is smaller, then we remove useless items and we cut the last item or add a dummy item.
func (s *Subtitles) ForceDuration(d time.Duration, addDummyItem bool) {
// Requested duration is the same as the subtitles'one
if s.Duration() == d {
return
}
// Requested duration is bigger than subtitles'one
if s.Duration() > d {
// Find last item before input duration and update end at
var lastIndex = -1
for index, i := range s.Items {
// Start at is bigger than input duration, we've found the last item
if i.StartAt >= d {
lastIndex = index
break
} else if i.EndAt > d {
s.Items[index].EndAt = d
}
}
// Last index has been found
if lastIndex != -1 {
s.Items = s.Items[:lastIndex]
}
}
// Add dummy item with the minimum duration possible
if addDummyItem && s.Duration() < d {
s.Items = append(s.Items, &Item{EndAt: d, Lines: []Line{{Items: []LineItem{{Text: "..."}}}}, StartAt: d - time.Millisecond})
}
}
// Fragment fragments subtitles with a specific fragment duration
func (s *Subtitles) Fragment(f time.Duration) {
// Nothing to fragment
if len(s.Items) == 0 {
return
}
// Here we want to simulate fragments of duration f until there are no subtitles left in that period of time
var fragmentStartAt, fragmentEndAt = time.Duration(0), f
for fragmentStartAt < s.Items[len(s.Items)-1].EndAt {
// We loop through subtitles and process the ones that either contain the fragment start at,
// or contain the fragment end at
//
// It's useless processing subtitles contained between fragment start at and end at
// |____________________| <- subtitle
// | |
// fragment start at fragment end at
for i, sub := range s.Items {
// Init
var newSub = &Item{}
*newSub = *sub
// A switch is more readable here
switch {
// Subtitle contains fragment start at
// |____________________| <- subtitle
// | |
// fragment start at fragment end at
case sub.StartAt < fragmentStartAt && sub.EndAt > fragmentStartAt:
sub.StartAt = fragmentStartAt
newSub.EndAt = fragmentStartAt
// Subtitle contains fragment end at
// |____________________| <- subtitle
// | |
// fragment start at fragment end at
case sub.StartAt < fragmentEndAt && sub.EndAt > fragmentEndAt:
sub.StartAt = fragmentEndAt
newSub.EndAt = fragmentEndAt
default:
continue
}
// Insert new sub
s.Items = append(s.Items[:i], append([]*Item{newSub}, s.Items[i:]...)...)
}
// Update fragments boundaries
fragmentStartAt += f
fragmentEndAt += f
}
// Order
s.Order()
}
// IsEmpty returns whether the subtitles are empty
func (s Subtitles) IsEmpty() bool {
return len(s.Items) == 0
}
// Merge merges subtitles i into subtitles
func (s *Subtitles) Merge(i *Subtitles) {
// Append items
s.Items = append(s.Items, i.Items...)
s.Order()
// Add regions
for _, region := range i.Regions {
if _, ok := s.Regions[region.ID]; !ok {
s.Regions[region.ID] = region
}
}
// Add styles
for _, style := range i.Styles {
if _, ok := s.Styles[style.ID]; !ok {
s.Styles[style.ID] = style
}
}
}
// Optimize optimizes subtitles
func (s *Subtitles) Optimize() {
// Nothing to optimize
if len(s.Items) == 0 {
return
}
// Remove unused regions and style
s.removeUnusedRegionsAndStyles()
}
// removeUnusedRegionsAndStyles removes unused regions and styles
func (s *Subtitles) removeUnusedRegionsAndStyles() {
// Loop through items
var usedRegions, usedStyles = make(map[string]bool), make(map[string]bool)
for _, item := range s.Items {
// Add region
if item.Region != nil {
usedRegions[item.Region.ID] = true
}
// Add style
if item.Style != nil {
usedStyles[item.Style.ID] = true
}
// Loop through lines
for _, line := range item.Lines {
// Loop through line items
for _, lineItem := range line.Items {
// Add style
if lineItem.Style != nil {
usedStyles[lineItem.Style.ID] = true
}
}
}
}
// Loop through regions
for id, region := range s.Regions {
if _, ok := usedRegions[region.ID]; ok {
if region.Style != nil {
usedStyles[region.Style.ID] = true
}
} else {
delete(s.Regions, id)
}
}
// Loop through style
for id, style := range s.Styles {
if _, ok := usedStyles[style.ID]; !ok {
delete(s.Styles, id)
}
}
}
// Order orders items
func (s *Subtitles) Order() {
// Nothing to do if less than 1 element
if len(s.Items) <= 1 {
return
}
// Order
sort.Slice(s.Items, func(i, j int) bool {
return s.Items[i].StartAt < s.Items[j].StartAt
})
}
// RemoveStyling removes the styling from the subtitles
func (s *Subtitles) RemoveStyling() {
s.Regions = map[string]*Region{}
s.Styles = map[string]*Style{}
for _, i := range s.Items {
i.Region = nil
i.Style = nil
i.InlineStyle = nil
for idxLine, l := range i.Lines {
for idxLineItem := range l.Items {
i.Lines[idxLine].Items[idxLineItem].InlineStyle = nil
i.Lines[idxLine].Items[idxLineItem].Style = nil
}
}
}
}
// Unfragment unfragments subtitles
func (s *Subtitles) Unfragment() {
// Nothing to do if less than 1 element
if len(s.Items) <= 1 {
return
}
// Order
s.Order()
// Loop through items
for i := 0; i < len(s.Items)-1; i++ {
for j := i + 1; j < len(s.Items); j++ {
// Items are the same
if s.Items[i].String() == s.Items[j].String() && s.Items[i].EndAt >= s.Items[j].StartAt {
// Only override end time if longer
if s.Items[i].EndAt < s.Items[j].EndAt {
s.Items[i].EndAt = s.Items[j].EndAt
}
s.Items = append(s.Items[:j], s.Items[j+1:]...)
j--
} else if s.Items[i].EndAt < s.Items[j].StartAt {
break
}
}
}
}
// ApplyLinearCorrection applies linear correction
func (s *Subtitles) ApplyLinearCorrection(actual1, desired1, actual2, desired2 time.Duration) {
// Get parameters
a := float64(desired2-desired1) / float64(actual2-actual1)
b := time.Duration(float64(desired1) - a*float64(actual1))
// Loop through items
for idx := range s.Items {
s.Items[idx].EndAt = time.Duration(a*float64(s.Items[idx].EndAt)) + b
s.Items[idx].StartAt = time.Duration(a*float64(s.Items[idx].StartAt)) + b
}
}
// Write writes subtitles to a file
func (s Subtitles) Write(dst string) (err error) {
// Create the file
var f *os.File
if f, err = os.Create(dst); err != nil {
err = fmt.Errorf("astisub: creating %s failed: %w", dst, err)
return
}
defer f.Close()
// Write the content
switch filepath.Ext(strings.ToLower(dst)) {
case ".srt":
err = s.WriteToSRT(f)
case ".ssa", ".ass":
err = s.WriteToSSA(f)
case ".stl":
err = s.WriteToSTL(f)
case ".ttml":
err = s.WriteToTTML(f)
case ".vtt":
err = s.WriteToWebVTT(f)
default:
err = ErrInvalidExtension
}
return
}
// parseDuration parses a duration in "00:00:00.000", "00:00:00,000" or "0:00:00:00" format
func parseDuration(i, millisecondSep string, numberOfMillisecondDigits int) (o time.Duration, err error) {
// Split milliseconds
var parts = strings.Split(i, millisecondSep)
var milliseconds int
var s string
if len(parts) >= 2 {
// Invalid number of millisecond digits
s = strings.TrimSpace(parts[len(parts)-1])
if len(s) > 3 {
err = fmt.Errorf("astisub: Invalid number of millisecond digits detected in %s", i)
return
}
// Parse milliseconds
if milliseconds, err = strconv.Atoi(s); err != nil {
err = fmt.Errorf("astisub: atoi of %s failed: %w", s, err)
return
}
milliseconds *= int(math.Pow10(numberOfMillisecondDigits - len(s)))
s = strings.Join(parts[:len(parts)-1], millisecondSep)
} else {
s = i
}
// Split hours, minutes and seconds
parts = strings.Split(strings.TrimSpace(s), ":")
var partSeconds, partMinutes, partHours string
if len(parts) == 2 {
partSeconds = parts[1]
partMinutes = parts[0]
} else if len(parts) == 3 {
partSeconds = parts[2]
partMinutes = parts[1]
partHours = parts[0]
} else {
err = fmt.Errorf("astisub: No hours, minutes or seconds detected in %s", i)
return
}
// Parse seconds
var seconds int
s = strings.TrimSpace(partSeconds)
if seconds, err = strconv.Atoi(s); err != nil {
err = fmt.Errorf("astisub: atoi of %s failed: %w", s, err)
return
}
// Parse minutes
var minutes int
s = strings.TrimSpace(partMinutes)
if minutes, err = strconv.Atoi(s); err != nil {
err = fmt.Errorf("astisub: atoi of %s failed: %w", s, err)
return
}
// Parse hours
var hours int
if len(partHours) > 0 {
s = strings.TrimSpace(partHours)
if hours, err = strconv.Atoi(s); err != nil {
err = fmt.Errorf("astisub: atoi of %s failed: %w", s, err)
return
}
}
// Generate output
o = time.Duration(milliseconds)*time.Millisecond + time.Duration(seconds)*time.Second + time.Duration(minutes)*time.Minute + time.Duration(hours)*time.Hour
return
}
// formatDuration formats a duration
func formatDuration(i time.Duration, millisecondSep string, numberOfMillisecondDigits int) (s string) {
// Parse hours
var hours = int(i / time.Hour)
var n = i % time.Hour
if hours < 10 {
s += "0"
}
s += strconv.Itoa(hours) + ":"
// Parse minutes
var minutes = int(n / time.Minute)
n = i % time.Minute
if minutes < 10 {
s += "0"
}
s += strconv.Itoa(minutes) + ":"
// Parse seconds
var seconds = int(n / time.Second)
n = i % time.Second
if seconds < 10 {
s += "0"
}
s += strconv.Itoa(seconds) + millisecondSep
// Parse milliseconds
var milliseconds = float64(n/time.Millisecond) / float64(1000)
s += fmt.Sprintf("%."+strconv.Itoa(numberOfMillisecondDigits)+"f", milliseconds)[2:]
return
}
// appendStringToBytesWithNewLine adds a string to bytes then adds a new line
func appendStringToBytesWithNewLine(i []byte, s string) (o []byte) {
o = append(i, []byte(s)...)
o = append(o, bytesLineSeparator...)
return
}