Kirika/cmd/decode/decode.go

package main

import (
	"encoding/hex"
	"flag"
	"git.gammaspectra.live/S.O.N.G/Kirika/audio"
	"git.gammaspectra.live/S.O.N.G/Kirika/audio/format"
	"git.gammaspectra.live/S.O.N.G/Kirika/audio/format/guess"
	"git.gammaspectra.live/S.O.N.G/Kirika/hasher"
	"log"
	"os"
	"strconv"
	"time"
)

func main() {
	inputFile := flag.String("input", "", "Input file to decode")

	flag.Parse()

	fp, err := os.Open(*inputFile)
	if err != nil {
		log.Panic(err)
		return
	}
	defer fp.Close()
	log.Printf("File: %s\n", *inputFile)

	decoders, err := guess.GetDecoders(fp, *inputFile)
	if err != nil {
		log.Panic(err)
		return
	}

	log.Print("Available decoders:\n")
	for _, d := range decoders {
		if ad, ok := d.(format.AnalyzerDecoder); ok {
			log.Printf("\t%s: %s (analyzer)", ad.Name(), ad.DecoderDescription())
		} else {
			log.Printf("\t%s: %s", d.Name(), d.DecoderDescription())
		}
	}

	startTime := time.Now()

	source, analyzer, err := guess.OpenAnalyzer(fp, decoders)
	if err != nil {
		source, analyzer, err = format.NewAnalyzerChannel(guess.Open(fp, decoders))
	}

	if err != nil {
		log.Panic(err)
		return
	}

	analyzers := analyzer.Split(3)

	hCRC32 := hasher.NewHasher(analyzers[0], hasher.HashtypeCrc32)
	hSHA256 := hasher.NewHasher(analyzers[1], hasher.HashtypeSha256)
	hMD5 := hasher.NewHasher(analyzers[2], hasher.HashtypeMd5)

	var sampleCount, blockCount uint64
	if f32Source, ok := source.(audio.TypedSource[float32]); ok {
		log.Printf("Decoding as float32 @ %dHz %d channel(s)", f32Source.GetSampleRate(), f32Source.GetChannels())
		for b := range f32Source.GetBlocks() {
			blockCount++
			sampleCount += uint64(len(b))
		}
		sampleCount /= uint64(f32Source.GetChannels())
	} else if i16Source, ok := source.(audio.TypedSource[int16]); ok {
		log.Printf("Decoding as int16 %d-bit @ %dHz %d channel(s)", i16Source.GetBitDepth(), i16Source.GetSampleRate(), i16Source.GetChannels())
		for b := range i16Source.GetBlocks() {
			blockCount++
			sampleCount += uint64(len(b))
		}
		sampleCount /= uint64(i16Source.GetChannels())
	} else if i32Source, ok := source.(audio.TypedSource[int32]); ok {
		log.Printf("Decoding as int32 %d-bit @ %dHz %d channel(s)", i32Source.GetBitDepth(), i32Source.GetSampleRate(), i32Source.GetChannels())
		for b := range i32Source.GetBlocks() {
			blockCount++
			sampleCount += uint64(len(b))
		}
		sampleCount /= uint64(i32Source.GetChannels())
	} else {
		f32Source = source.ToFloat32()
		log.Printf("Decoding as float32 (generic) %d-bit @ %dHz %d channel(s)", f32Source.GetBitDepth(), f32Source.GetSampleRate(), f32Source.GetChannels())
		for b := range f32Source.GetBlocks() {
			blockCount++
			sampleCount += uint64(len(b))
		}
		sampleCount /= uint64(f32Source.GetChannels())
	}

	log.Printf("Decoded %d sample(s)", sampleCount)
	if blockCount > 0 {
		log.Printf("Processed %d blocks(s) (avg %0.2f sample(s) per block)", blockCount, float64(sampleCount)/float64(blockCount))
	}
	log.Printf("Duration %s", ((time.Duration(sampleCount) * time.Second) / time.Duration(source.GetSampleRate())).String())

	hCRC32.Wait()
	hSHA256.Wait()
	hMD5.Wait()

	log.Printf("CRC32 hash: %s", hex.EncodeToString(hCRC32.GetResult()))
	log.Printf("SHA256 hash: %s", hex.EncodeToString(hSHA256.GetResult()))
	log.Printf("MD5 hash: %s", hex.EncodeToString(hMD5.GetResult()))
	if _, ok := source.(audio.TypedSource[float32]); ok {
		log.Printf("\tCheck via $ ffmpeg -hide_banner -loglevel error -i %s -vn -c:a pcm_f32le -f md5 -", strconv.Quote(*inputFile))
		log.Printf("\tNote that you might need to specify a decoder with -c:a before -i to perfectly match the hash on lossy decoders, for example, libopus instead of opus")
	} else {
		switch source.GetBitDepth() {
		case 8, 16, 24, 32:
			log.Printf("\tCheck via $ ffmpeg -hide_banner -loglevel error -i %s -vn -c:a pcm_s%dle -f md5 -", strconv.Quote(*inputFile), source.GetBitDepth())
		default:
			log.Printf("\tCheck via $ ffmpeg -hide_banner -loglevel error -i %s -vn -c:a pcm_s32le -f md5 -", strconv.Quote(*inputFile))
		}
	}

	log.Printf("Took %s", time.Now().Sub(startTime).String())

}