arduino-audio-tools/_codec_w_a_v_8h_source.html

#pragma once


#include "AudioTools/AudioCodecs/AudioCodecsBase.h"

#include "AudioTools/AudioCodecs/AudioEncoded.h"

#include "AudioTools/AudioCodecs/AudioFormat.h"

#include "AudioTools/CoreAudio/AudioBasic/StrView.h"


#define READ_BUFFER_SIZE 512

#define MAX_WAV_HEADER_LEN 200


namespace audio_tools {


struct WAVAudioInfo : AudioInfo {

  WAVAudioInfo() = default;


  WAVAudioInfo(const AudioInfo &from) {

    sample_rate = from.sample_rate;

    channels = from.channels;

    bits_per_sample = from.bits_per_sample;

  }


  AudioFormat format = AudioFormat::PCM;

  int byte_rate = 0;

  int block_align = 0;

  bool is_streamed = true;

  bool is_valid = false;

  uint32_t data_length = 0;

  uint32_t file_size = 0;

  int offset = 0;

};


static const char *wav_mime = "audio/wav";


class WAVHeader {

 public:

  WAVHeader() = default;


  int write(uint8_t *data, size_t data_len) {

    return buffer.writeArray(data, data_len);

  }


  bool parse() {

    LOGI("WAVHeader::begin: %u", (unsigned)buffer.available());

    this->data_pos = 0l;

    memset((void *)&headerInfo, 0, sizeof(WAVAudioInfo));


    if (!setPos("RIFF")) return false;

    // RIFF stores chunk_size (= file_size - 8): normalize to full file size

    headerInfo.file_size = read_int32() + 8;

    if (!setPos("WAVE")) return false;

    if (!setPos("fmt ")) return false;

    int fmt_length = read_int32();

    headerInfo.format = (AudioFormat)read_int16();

    headerInfo.channels = read_int16();

    headerInfo.sample_rate = read_int32();

    headerInfo.byte_rate = read_int32();

    headerInfo.block_align = read_int16();

    headerInfo.bits_per_sample = read_int16();

    if (!setPos("data")) return false;

    headerInfo.data_length = read_int32();

    if (headerInfo.data_length == 0 || headerInfo.data_length >= 0x7fff0000) {

      headerInfo.is_streamed = true;

      headerInfo.data_length = ~0;

    }


    logInfo();

    buffer.clear();

    return true;

  }


  bool isDataComplete() {

    int pos = getDataPos();

    return pos > 0 && buffer.available() >= pos;

  }


  size_t available() { return buffer.available(); }


  int getDataPos() {

    int pos =

        StrView((char *)buffer.data(), MAX_WAV_HEADER_LEN, buffer.available())

            .indexOf("data");

    return pos > 0 ? pos + 8 : 0;

  }


  WAVAudioInfo &audioInfo() { return headerInfo; }


  void setAudioInfo(WAVAudioInfo info) { headerInfo = info; }


  bool writeHeader(Print *out) {

    return writeHeader(out, headerInfo);

  }


  bool writeHeader(Print *out, const WAVAudioInfo &info) {

    writeRiffHeader(buffer, info);

    writeFMT(buffer, info);

    writeDataHeader(buffer, info);

    int len = buffer.available();

    int written = out->write(buffer.data(), len);

    if (written != len) {

      LOGE("Failed to write WAV header to output: written %d of %d bytes", written, len);

    }

    return written == len;

  }


  void clear() {

    data_pos = 0;

    WAVAudioInfo empty;

    empty.sample_rate = 0;

    empty.channels = 0;

    empty.bits_per_sample = 0;

    headerInfo = empty;

    buffer.setClearWithZero(true);

    buffer.reset();

  }


  void dumpHeader() {

    char msg[buffer.available() + 1];

    memset(msg, 0, buffer.available() + 1);

    for (int j = 0; j < buffer.available(); j++) {

      char c = (char)buffer.data()[j];

      if (!isalpha(c)) {

        c = '.';

      }

      msg[j] = c;

    }

    LOGI("Header: %s", msg);

  }


 protected:

  WAVAudioInfo headerInfo;

  SingleBuffer<uint8_t> buffer{MAX_WAV_HEADER_LEN};

  size_t data_pos = 0;


  bool setPos(const char *id) {

    int id_len = strlen(id);

    int pos = indexOf(id);

    if (pos < 0) return false;

    data_pos = pos + id_len;

    return true;

  }


  int indexOf(const char *str) {

    return StrView((char *)buffer.data(), MAX_WAV_HEADER_LEN,

                   buffer.available())

        .indexOf(str);

  }


  uint32_t read_tag() {

    uint32_t tag = 0;

    tag = (tag << 8) | getChar();

    tag = (tag << 8) | getChar();

    tag = (tag << 8) | getChar();

    tag = (tag << 8) | getChar();

    return tag;

  }


  uint32_t getChar32() { return getChar(); }


  uint32_t read_int32() {

    uint32_t value = 0;

    value |= getChar32() << 0;

    value |= getChar32() << 8;

    value |= getChar32() << 16;

    value |= getChar32() << 24;

    return value;

  }


  uint16_t read_int16() {

    uint16_t value = 0;

    value |= getChar() << 0;

    value |= getChar() << 8;

    return value;

  }


  void skip(int n) {

    int i;

    for (i = 0; i < n; i++) getChar();

  }


  int getChar() {

    if (data_pos < buffer.size())

      return buffer.data()[data_pos++];

    else

      return -1;

  }


  void seek(long int offset, int origin) {

    if (origin == SEEK_SET) {

      data_pos = offset;

    } else if (origin == SEEK_CUR) {

      data_pos += offset;

    }

  }


  size_t tell() { return data_pos; }


  bool eof() { return data_pos >= buffer.size() - 1; }


  void logInfo() {

    LOGI("WAVHeader sound_pos: %d", getDataPos());

    LOGI("WAVHeader channels: %d ", headerInfo.channels);

    LOGI("WAVHeader bits_per_sample: %d", headerInfo.bits_per_sample);

    LOGI("WAVHeader sample_rate: %d ", (int)headerInfo.sample_rate);

    LOGI("WAVHeader format: %d", (int)headerInfo.format);

  }


  void writeRiffHeader(BaseBuffer<uint8_t> &buffer,

                       const WAVAudioInfo &info) {

    buffer.writeArray((uint8_t *)"RIFF", 4);

    // chunk_size = file_size - 8 (RIFF header size)

    uint32_t chunk_size = info.file_size > 8 ? info.file_size - 8 : 0;

    LOGI("writeRiffHeader: file_size=%u riff_size=%u", info.file_size, chunk_size);

    write32(buffer, chunk_size);

    buffer.writeArray((uint8_t *)"WAVE", 4);

  }


  void writeFMT(BaseBuffer<uint8_t> &buffer, const WAVAudioInfo &info) {

    uint16_t fmt_len = 16;

    buffer.writeArray((uint8_t *)"fmt ", 4);

    write32(buffer, fmt_len);

    write16(buffer, (uint16_t)info.format);  // PCM

    write16(buffer, info.channels);

    write32(buffer, info.sample_rate);

    write32(buffer, info.byte_rate);

    write16(buffer, info.block_align);  // frame size

    write16(buffer, info.bits_per_sample);

  }


  void writeDataHeader(BaseBuffer<uint8_t> &buffer, const WAVAudioInfo &info) {

    buffer.writeArray((uint8_t *)"data", 4);

    uint32_t data_length = info.data_length;

    if (headerInfo.is_streamed && data_length == 0) {

      data_length = ~0;  // use max value for streamed data if not set

    }

    if (!headerInfo.is_streamed && info.file_size >= 36 && (data_length == 0 || data_length == ~0)) {

      data_length = info.file_size - 36;  // data length = file size - header size (36 bytes)

    }

    LOGI("writeDataHeader: data_length=%u", data_length);

    write32(buffer, data_length);

    int offset = info.offset;

    if (offset > 0) {

      uint8_t empty[offset];

      memset(empty, 0, offset);

      buffer.writeArray(empty, offset);  // resolve issue with wrong aligment

    }

  }


  void write32(BaseBuffer<uint8_t> &buffer, uint64_t value) {

    buffer.writeArray((uint8_t *)&value, 4);

  }


  void write16(BaseBuffer<uint8_t> &buffer, uint16_t value) {

    buffer.writeArray((uint8_t *)&value, 2);

  }


};


class WAVDecoder : public AudioDecoder {


 public:

  WAVDecoder() = default;


  WAVDecoder(AudioDecoderExt &dec, AudioFormat fmt) { setDecoder(dec, fmt); }


  void setDecoder(AudioDecoderExt &dec, AudioFormat fmt) {

    TRACED();

    decoder_format = fmt;

    p_decoder = &dec;

  }


  void setOutput(Print &out_stream) override { this->p_print = &out_stream; }


  bool begin() override {

    TRACED();

    header.clear();

    setupEncodedAudio();

    byte_buffer.reset();

    buffer24.reset();

    isFirst = true;

    active = true;

    return true;

  }


  void end() override {

    TRACED();

    byte_buffer.reset();

    buffer24.reset();

    active = false;

  }


  const char *mime() { return wav_mime; }


  WAVAudioInfo &audioInfoEx() { return header.audioInfo(); }


  AudioInfo audioInfo() override {

    WAVAudioInfo info = header.audioInfo();

    if (convert8to16 && info.format == AudioFormat::PCM &&

        info.bits_per_sample == 8) {

      info.bits_per_sample = 16;

    }

    // 32 bits gives better result

    if (convert24 && info.format == AudioFormat::PCM &&

        info.bits_per_sample == 24) {

      info.bits_per_sample = 32;

    }

    return info;

  }


  virtual size_t write(const uint8_t *data, size_t len) override {

    TRACED();

    size_t result = 0;

    if (active) {

      if (isFirst) {

        int data_start = decodeHeader((uint8_t *)data, len);

        // we do not have the complete header yet: need more data

        if (data_start == 0) return len;

        // process the outstanding data

        result = data_start +

                 write_out((uint8_t *)data + data_start, len - data_start);


      } else if (isValid) {

        result = write_out((uint8_t *)data, len);

      }

    }

    return result;

  }


  virtual operator bool() override { return active; }


  void setConvert8Bit(bool enable) {

    convert8to16 = enable;

  }


  void setConvert24Bit(bool enable) {

    convert24 = enable;

  }


  WAVHeader &getHeader() { return header; }


 protected:

  WAVHeader header;

  bool isFirst = true;

  bool isValid = true;

  bool active = false;

  AudioFormat decoder_format = AudioFormat::PCM;

  AudioDecoderExt *p_decoder = nullptr;

  EncodedAudioOutput dec_out;

  SingleBuffer<uint8_t> byte_buffer{0};

  SingleBuffer<int32_t> buffer24{0};

  bool convert8to16 = true;  // Optional conversion flag

  bool convert24 = true;  // Optional conversion flag

  const size_t batch_size = 256;


  Print &out() { return p_decoder == nullptr ? *p_print : dec_out; }


  virtual size_t write_out(const uint8_t *in_ptr, size_t in_size) {

    // check if we need to convert int24 data from 3 bytes to 4 bytes

    size_t result = 0;

    if (convert24 && header.audioInfo().format == AudioFormat::PCM &&

        header.audioInfo().bits_per_sample == 24 && sizeof(int24_t) == 4) {

      write_out_24(in_ptr, in_size);

      result = in_size;

    } else if (convert8to16 && header.audioInfo().format == AudioFormat::PCM &&

               header.audioInfo().bits_per_sample == 8) {

      result = write_out_8to16(in_ptr, in_size);

    } else {

      result = out().write(in_ptr, in_size);

    }

    return result;

  }


  size_t write_out_8to16(const uint8_t *in_ptr, size_t in_size) {

    size_t total_written = 0;

    size_t samples_remaining = in_size;

    size_t offset = 0;

    int16_t out_buf[batch_size];

    while (samples_remaining > 0) {

      size_t current_batch =

          samples_remaining > batch_size ? batch_size : samples_remaining;

      for (size_t i = 0; i < current_batch; ++i) {

        out_buf[i] = ((int16_t)in_ptr[offset + i] - 128) << 8;

      }

      writeDataT<int16_t>(&out(), out_buf, current_batch);

      offset += current_batch;

      samples_remaining -= current_batch;

    }

    return in_size;

  }


  size_t write_out_24(const uint8_t *in_ptr, size_t in_size) {

    // store 1 sample

    buffer24.resize(batch_size);

    byte_buffer.resize(3);


    for (size_t i = 0; i < in_size; i++) {

      // Add byte to buffer

      byte_buffer.write(in_ptr[i]);


      // Process complete sample when buffer is full

      if (byte_buffer.isFull()) {

        int24_3bytes_t sample24{byte_buffer.data()};

        int32_t converted_sample = sample24.scale32();

        buffer24.write(converted_sample);

        if (buffer24.isFull()) {

          writeDataT<int32_t>(&out(), buffer24.data(), buffer24.available());

          buffer24.reset();

        }

        byte_buffer.reset();

      }

    }


    return in_size;

  }


  int decodeHeader(uint8_t *in_ptr, size_t in_size) {

    int result = in_size;

    // we expect at least the full header

    int written = header.write(in_ptr, in_size);

    if (!header.isDataComplete()) {

      LOGW("WAV header misses 'data' section in len: %d",

           (int)header.available());

      header.dumpHeader();

      return 0;

    }

    // parse header

    if (!header.parse()) {

      LOGE("WAV header parsing failed");

      return 0;

    }


    isFirst = false;

    isValid = header.audioInfo().is_valid;


    LOGI("WAV sample_rate: %d", (int)header.audioInfo().sample_rate);

    LOGI("WAV data_length: %u", (unsigned)header.audioInfo().data_length);

    LOGI("WAV is_streamed: %d", header.audioInfo().is_streamed);

    LOGI("WAV is_valid: %s", header.audioInfo().is_valid ? "true" : "false");


    // check format

    AudioFormat format = header.audioInfo().format;

    isValid = format == decoder_format;

    if (isValid) {

      // update blocksize

      if (p_decoder != nullptr) {

        int block_size = header.audioInfo().block_align;

        p_decoder->setBlockSize(block_size);

      }


      // update sampling rate if the target supports it

      AudioInfo bi = audioInfo();

      notifyAudioChange(bi);

    } else {

      LOGE("WAV format not supported: %d", (int)format);

    }

    return header.getDataPos();

  }


  void setupEncodedAudio() {

    if (p_decoder != nullptr) {

      assert(p_print != nullptr);

      dec_out.setOutput(p_print);

      dec_out.setDecoder(p_decoder);

      dec_out.begin(info);

    }

  }


};


class WAVEncoder : public AudioEncoder {

 public:

  WAVEncoder() = default;


  WAVEncoder(AudioEncoderExt &enc, AudioFormat fmt) { setEncoder(enc, fmt); };


  void setEncoder(AudioEncoderExt &enc, AudioFormat fmt) {

    TRACED();

    wav_info.format = fmt;

    p_encoder = &enc;

  }


  void setOutput(Print &out) override {

    TRACED();

    p_print = &out;

  }


  const char *mime() override { return wav_mime; }


  WAVAudioInfo defaultConfig() {

    WAVAudioInfo info;

    info.format = AudioFormat::PCM;

    info.sample_rate = DEFAULT_SAMPLE_RATE;

    info.bits_per_sample = DEFAULT_BITS_PER_SAMPLE;

    info.channels = DEFAULT_CHANNELS;

    info.is_streamed = true;

    info.is_valid = true;

    info.data_length = 0x7fff0000;

    info.file_size = info.data_length + 36;

    return info;

  }


  virtual void setAudioInfo(AudioInfo from) override {

    wav_info.sample_rate = from.sample_rate;

    wav_info.channels = from.channels;

    wav_info.bits_per_sample = from.bits_per_sample;

    // recalculate byte rate, block align...

    setAudioInfo(wav_info);

  }


  virtual void setAudioInfo(WAVAudioInfo ai) {

    AudioEncoder::setAudioInfo(ai);

    if (p_encoder) p_encoder->setAudioInfo(ai);

    wav_info = ai;

    LOGI("sample_rate: %d", (int)wav_info.sample_rate);

    LOGI("channels: %d", wav_info.channels);

    LOGI("bits_per_sample: %d", wav_info.bits_per_sample);

    // bytes per second

    wav_info.byte_rate = wav_info.sample_rate * wav_info.channels *

                          wav_info.bits_per_sample / 8;

    if (wav_info.format == AudioFormat::PCM) {

      wav_info.block_align =

          wav_info.bits_per_sample / 8 * wav_info.channels;

    }

  }


  bool begin(WAVAudioInfo ai) {

    header.clear();

    setAudioInfo(ai);

    return begin();

  }


  virtual bool begin() override {

    TRACED();

    setupEncodedAudio();


    // normalize streaming mode and payload limits at start time

    if (wav_info.is_streamed || wav_info.data_length == 0 ||

        wav_info.data_length >= 0x7fff0000) {

      LOGI("is_streamed! because length is %u",

           (unsigned)wav_info.data_length);

      wav_info.is_streamed = true;

      wav_info.data_length = ~0;

      size_limit = 0;

    } else {

      wav_info.is_streamed = false;

      size_limit = wav_info.data_length;

      LOGI("size_limit is %d", (int)size_limit);

    }


    header_written = false;

    is_open = true;

    return true;

  }


  void end() override { is_open = false; }


  virtual size_t write(const uint8_t *data, size_t len) override {

    if (!is_open) {

      LOGE("The WAVEncoder is not open - please call begin()");

      return 0;

    }


    if (p_print == nullptr) {

      LOGE("No output stream was provided");

      return 0;

    }


    if (!header_written) {

      LOGI("Writing Header");

      if (!header.writeHeader(p_print, wav_info)) {

        LOGE("Failed to write WAV header");

        is_open = false;

        return 0;

      }

      header_written = true;

    }


    int32_t result = 0;

    Print *p_out = p_encoder == nullptr ? p_print : &enc_out;


    if (wav_info.is_streamed) {

      result = p_out->write((uint8_t *)data, len);

    } else if (size_limit > 0) {

      size_t write_size = min((size_t)len, (size_t)size_limit);

      result = p_out->write((uint8_t *)data, write_size);

      size_limit -= result;


      if (size_limit <= 0) {

        LOGI("The defined size was written - so we close the WAVEncoder now");

        is_open = false;

      }

    }

    return result;

  }


  operator bool() override { return is_open; }


  bool isOpen() { return is_open; }


  void setDataOffset(uint16_t offset) { wav_info.offset = offset; }


  void setDataLength(uint32_t data_length) {

    wav_info.data_length = data_length;

    wav_info.is_streamed =

        (data_length == 0 || data_length >= 0x7fff0000);

    if (!wav_info.is_streamed) {

      // full file size = RIFF chunk (36) + data chunk payload

      wav_info.file_size = wav_info.data_length + 36;

    }

    setAudioInfo(wav_info);

  }


  WAVAudioInfo &audioInfoEx() { return wav_info; }


  WAVHeader &getHeader() { return header; }


 protected:

  WAVHeader header;

  Print *p_print = nullptr;  // final output  CopyEncoder copy; // used for PCM

  AudioEncoderExt *p_encoder = nullptr;

  EncodedAudioOutput enc_out;

  WAVAudioInfo wav_info = defaultConfig();

  int64_t size_limit = 0;

  bool header_written = false;

  volatile bool is_open = false;


  void setupEncodedAudio() {

    if (p_encoder != nullptr) {

      assert(p_print != nullptr);

      enc_out.setOutput(p_print);

      enc_out.setEncoder(p_encoder);

      enc_out.setAudioInfo(wav_info);

      enc_out.begin();

      // block size only available after begin(): update block size

      wav_info.block_align = p_encoder->blockSize();

    }

  }


};


}  // namespace audio_tools

AudioCodecsBase.h

AudioEncoded.h

AudioFormat.h
WAV Audio Formats used by Microsoft e.g. in AVI video files.

LOGW
#define LOGW(...)
Definition AudioLoggerIDF.h:29

TRACED
#define TRACED()
Definition AudioLoggerIDF.h:31

LOGI
#define LOGI(...)
Definition AudioLoggerIDF.h:28

LOGE
#define LOGE(...)
Definition AudioLoggerIDF.h:30

DEFAULT_BITS_PER_SAMPLE
#define DEFAULT_BITS_PER_SAMPLE
Definition AudioToolsConfig.h:94

DEFAULT_CHANNELS
#define DEFAULT_CHANNELS
Definition AudioToolsConfig.h:90

DEFAULT_SAMPLE_RATE
#define DEFAULT_SAMPLE_RATE
Definition AudioToolsConfig.h:86

MAX_WAV_HEADER_LEN
#define MAX_WAV_HEADER_LEN
Definition CodecWAV.h:9

StrView.h

assert
#define assert(T)
Definition avr.h:10

audio_tools::AudioDecoderExt
Definition AudioCodecsBase.h:119

audio_tools::AudioDecoderExt::setBlockSize
virtual void setBlockSize(int blockSize)=0

audio_tools::AudioDecoder
Decoding of encoded audio into PCM data.
Definition AudioCodecsBase.h:18

audio_tools::AudioDecoder::info
AudioInfo info
Definition AudioCodecsBase.h:76

audio_tools::AudioDecoder::p_print
Print * p_print
Definition AudioCodecsBase.h:75

audio_tools::AudioEncoderExt
Definition AudioCodecsBase.h:124

audio_tools::AudioEncoderExt::blockSize
virtual int blockSize()=0

audio_tools::AudioEncoder
Encoding of PCM data.
Definition AudioCodecsBase.h:97

audio_tools::AudioEncoder::info
AudioInfo info
Definition AudioCodecsBase.h:116

audio_tools::AudioEncoder::setAudioInfo
void setAudioInfo(AudioInfo from) override
Defines the sample rate, number of channels and bits per sample.
Definition AudioCodecsBase.h:106

audio_tools::AudioInfoSource::notifyAudioChange
void notifyAudioChange(AudioInfo info)
Definition AudioTypes.h:178

audio_tools::BaseBuffer
Shared functionality of all buffers.
Definition Buffers.h:22

audio_tools::BaseBuffer::clear
void clear()
same as reset
Definition Buffers.h:95

audio_tools::EncodedAudioOutput
A more natural Print class to process encoded data (aac, wav, mp3...). Just define the output and the...
Definition AudioEncoded.h:21

audio_tools::EncodedAudioOutput::setEncoder
void setEncoder(AudioEncoder *encoder)
Definition AudioEncoded.h:131

audio_tools::EncodedAudioOutput::begin
bool begin() override
Starts the processing - sets the status to active.
Definition AudioEncoded.h:161

audio_tools::EncodedAudioOutput::setAudioInfo
virtual void setAudioInfo(AudioInfo newInfo) override
Defines the input AudioInfo.
Definition AudioEncoded.h:87

audio_tools::EncodedAudioOutput::setDecoder
void setDecoder(AudioDecoder *decoder)
Definition AudioEncoded.h:144

audio_tools::EncodedAudioOutput::setOutput
void setOutput(Print *outputStream)
Defines the output.
Definition AudioEncoded.h:107

audio_tools::Print
Definition NoArduino.h:62

audio_tools::Print::write
virtual size_t write(const uint8_t *data, size_t len)
Definition NoArduino.h:126

audio_tools::SingleBuffer
A simple Buffer implementation which just uses a (dynamically sized) array.
Definition Buffers.h:172

audio_tools::SingleBuffer::size
size_t size() override
Definition Buffers.h:303

audio_tools::SingleBuffer::write
bool write(T sample) override
write add an entry to the buffer
Definition Buffers.h:206

audio_tools::SingleBuffer::setClearWithZero
void setClearWithZero(bool flag)
Sets the buffer to 0 on clear.
Definition Buffers.h:314

audio_tools::SingleBuffer::available
int available() override
provides the number of entries that are available to read
Definition Buffers.h:233

audio_tools::SingleBuffer::isFull
bool isFull() override
checks if the buffer is full
Definition Buffers.h:240

audio_tools::SingleBuffer::resize
bool resize(int size)
Resizes the buffer if supported: returns false if not supported.
Definition Buffers.h:305

audio_tools::SingleBuffer::writeArray
int writeArray(const T data[], int len) override
Fills the buffer data.
Definition Buffers.h:201

audio_tools::SingleBuffer::data
T * data()
Provides address of actual data.
Definition Buffers.h:284

audio_tools::SingleBuffer::reset
void reset() override
clears the buffer
Definition Buffers.h:286

audio_tools::StrView
A simple wrapper to provide string functions on existing allocated char*. If the underlying char* is ...
Definition StrView.h:28

audio_tools::StrView::indexOf
virtual int indexOf(const char c, int start=0)
Definition StrView.h:260

audio_tools::WAVDecoder
A simple WAVDecoder: We parse the header data on the first record to determine the format....
Definition CodecWAV.h:322

audio_tools::WAVDecoder::write
virtual size_t write(const uint8_t *data, size_t len) override
Write incoming WAV data (header + PCM) into output.
Definition CodecWAV.h:388

audio_tools::WAVDecoder::active
bool active
Definition CodecWAV.h:427

audio_tools::WAVDecoder::setOutput
void setOutput(Print &out_stream) override
Defines the output Stream.
Definition CodecWAV.h:344

audio_tools::WAVDecoder::isFirst
bool isFirst
Definition CodecWAV.h:425

audio_tools::WAVDecoder::setDecoder
void setDecoder(AudioDecoderExt &dec, AudioFormat fmt)
Defines an optional decoder if the format is not PCM.
Definition CodecWAV.h:337

audio_tools::WAVDecoder::write_out_24
size_t write_out_24(const uint8_t *in_ptr, size_t in_size)
convert 3 byte int24 to 4 byte int32
Definition CodecWAV.h:475

audio_tools::WAVDecoder::out
Print & out()
Definition CodecWAV.h:437

audio_tools::WAVDecoder::decodeHeader
int decodeHeader(uint8_t *in_ptr, size_t in_size)
Decodes the header data: Returns the start pos of the data.
Definition CodecWAV.h:502

audio_tools::WAVDecoder::p_decoder
AudioDecoderExt * p_decoder
Definition CodecWAV.h:429

audio_tools::WAVDecoder::setConvert8Bit
void setConvert8Bit(bool enable)
Convert 8 bit to 16 bit PCM data (default: enabled)
Definition CodecWAV.h:411

audio_tools::WAVDecoder::setupEncodedAudio
void setupEncodedAudio()
Definition CodecWAV.h:545

audio_tools::WAVDecoder::end
void end() override
Finish decoding and release temporary buffers.
Definition CodecWAV.h:359

audio_tools::WAVDecoder::decoder_format
AudioFormat decoder_format
Definition CodecWAV.h:428

audio_tools::WAVDecoder::getHeader
WAVHeader & getHeader()
Access to the internal header parser and info.
Definition CodecWAV.h:421

audio_tools::WAVDecoder::mime
const char * mime()
Provides MIME type "audio/wav".
Definition CodecWAV.h:367

audio_tools::WAVDecoder::isValid
bool isValid
Definition CodecWAV.h:426

audio_tools::WAVDecoder::WAVDecoder
WAVDecoder()=default
Construct a new WAVDecoder object for PCM data.

audio_tools::WAVDecoder::batch_size
const size_t batch_size
Definition CodecWAV.h:435

audio_tools::WAVDecoder::byte_buffer
SingleBuffer< uint8_t > byte_buffer
Definition CodecWAV.h:431

audio_tools::WAVDecoder::audioInfoEx
WAVAudioInfo & audioInfoEx()
Extended WAV specific info (original header values)
Definition CodecWAV.h:370

audio_tools::WAVDecoder::header
WAVHeader header
Definition CodecWAV.h:424

audio_tools::WAVDecoder::WAVDecoder
WAVDecoder(AudioDecoderExt &dec, AudioFormat fmt)
Construct a new WAVDecoder object for ADPCM data.
Definition CodecWAV.h:334

audio_tools::WAVDecoder::setConvert24Bit
void setConvert24Bit(bool enable)
Convert 24 bit (3 byte) to 32 bit (4 byte) PCM data (default: enabled)
Definition CodecWAV.h:416

audio_tools::WAVDecoder::begin
bool begin() override
Prepare decoder for a new WAV stream.
Definition CodecWAV.h:347

audio_tools::WAVDecoder::write_out_8to16
size_t write_out_8to16(const uint8_t *in_ptr, size_t in_size)
Convert 8-bit PCM to 16-bit PCM and write out.
Definition CodecWAV.h:456

audio_tools::WAVDecoder::dec_out
EncodedAudioOutput dec_out
Definition CodecWAV.h:430

audio_tools::WAVDecoder::convert24
bool convert24
Definition CodecWAV.h:434

audio_tools::WAVDecoder::write_out
virtual size_t write_out(const uint8_t *in_ptr, size_t in_size)
Definition CodecWAV.h:439

audio_tools::WAVDecoder::audioInfo
AudioInfo audioInfo() override
Exposed AudioInfo (may reflect conversion flags)
Definition CodecWAV.h:373

audio_tools::WAVDecoder::convert8to16
bool convert8to16
Definition CodecWAV.h:433

audio_tools::WAVDecoder::buffer24
SingleBuffer< int32_t > buffer24
Definition CodecWAV.h:432

audio_tools::WAVEncoder
A simple WAV file encoder. If no AudioEncoderExt is specified the WAV file contains PCM data,...
Definition CodecWAV.h:565

audio_tools::WAVEncoder::write
virtual size_t write(const uint8_t *data, size_t len) override
Writes PCM data to be encoded as WAV.
Definition CodecWAV.h:668

audio_tools::WAVEncoder::setOutput
void setOutput(Print &out) override
Defines the otuput stream.
Definition CodecWAV.h:585

audio_tools::WAVEncoder::is_open
volatile bool is_open
Definition CodecWAV.h:742

audio_tools::WAVEncoder::isOpen
bool isOpen()
Check if encoder is open.
Definition CodecWAV.h:711

audio_tools::WAVEncoder::setupEncodedAudio
void setupEncodedAudio()
Definition CodecWAV.h:744

audio_tools::WAVEncoder::begin
virtual bool begin() override
starts the processing using the actual WAVAudioInfo
Definition CodecWAV.h:641

audio_tools::WAVEncoder::header_written
bool header_written
Definition CodecWAV.h:741

audio_tools::WAVEncoder::p_encoder
AudioEncoderExt * p_encoder
Definition CodecWAV.h:737

audio_tools::WAVEncoder::begin
bool begin(WAVAudioInfo ai)
starts the processing
Definition CodecWAV.h:634

audio_tools::WAVEncoder::wav_info
WAVAudioInfo wav_info
Definition CodecWAV.h:739

audio_tools::WAVEncoder::end
void end() override
stops the processing
Definition CodecWAV.h:665

audio_tools::WAVEncoder::setAudioInfo
virtual void setAudioInfo(WAVAudioInfo ai)
Defines the WAVAudioInfo.
Definition CodecWAV.h:617

audio_tools::WAVEncoder::size_limit
int64_t size_limit
Definition CodecWAV.h:740

audio_tools::WAVEncoder::WAVEncoder
WAVEncoder()=default
Construct a new WAVEncoder object for PCM data.

audio_tools::WAVEncoder::setDataOffset
void setDataOffset(uint16_t offset)
Adds n empty bytes at the beginning of the data.
Definition CodecWAV.h:714

audio_tools::WAVEncoder::getHeader
WAVHeader & getHeader()
Access to the internal header parser and info.
Definition CodecWAV.h:732

audio_tools::WAVEncoder::enc_out
EncodedAudioOutput enc_out
Definition CodecWAV.h:738

audio_tools::WAVEncoder::audioInfoEx
WAVAudioInfo & audioInfoEx()
Extended WAV specific info.
Definition CodecWAV.h:729

audio_tools::WAVEncoder::WAVEncoder
WAVEncoder(AudioEncoderExt &enc, AudioFormat fmt)
Construct a new WAVEncoder object for ADPCM data.
Definition CodecWAV.h:575

audio_tools::WAVEncoder::defaultConfig
WAVAudioInfo defaultConfig()
Provides the default configuration.
Definition CodecWAV.h:594

audio_tools::WAVEncoder::header
WAVHeader header
Definition CodecWAV.h:735

audio_tools::WAVEncoder::mime
const char * mime() override
Provides "audio/wav".
Definition CodecWAV.h:591

audio_tools::WAVEncoder::setAudioInfo
virtual void setAudioInfo(AudioInfo from) override
Update actual WAVAudioInfo.
Definition CodecWAV.h:608

audio_tools::WAVEncoder::p_print
Print * p_print
Definition CodecWAV.h:736

audio_tools::WAVEncoder::setEncoder
void setEncoder(AudioEncoderExt &enc, AudioFormat fmt)
Associates an external encoder for non-PCM formats.
Definition CodecWAV.h:578

audio_tools::WAVEncoder::setDataLength
void setDataLength(uint32_t data_length)
Defines the WAV payload length in bytes (without header)
Definition CodecWAV.h:717

audio_tools::WAVHeader
Parser for Wav header data for details see https://de.wikipedia.org/wiki/RIFF_WAVE.
Definition CodecWAV.h:65

audio_tools::WAVHeader::WAVHeader
WAVHeader()=default

audio_tools::WAVHeader::writeDataHeader
void writeDataHeader(BaseBuffer< uint8_t > &buffer, const WAVAudioInfo &info)
Definition CodecWAV.h:272

audio_tools::WAVHeader::logInfo
void logInfo()
Definition CodecWAV.h:242

audio_tools::WAVHeader::write16
void write16(BaseBuffer< uint8_t > &buffer, uint16_t value)
Definition CodecWAV.h:295

audio_tools::WAVHeader::parse
bool parse()
Call when header data write is complete to parse the data.
Definition CodecWAV.h:76

audio_tools::WAVHeader::isDataComplete
bool isDataComplete()
Returns true if the header is complete (containd data tag)
Definition CodecWAV.h:106

audio_tools::WAVHeader::skip
void skip(int n)
Definition CodecWAV.h:218

audio_tools::WAVHeader::seek
void seek(long int offset, int origin)
Definition CodecWAV.h:230

audio_tools::WAVHeader::setAudioInfo
void setAudioInfo(WAVAudioInfo info)
Sets the info in the header.
Definition CodecWAV.h:126

audio_tools::WAVHeader::eof
bool eof()
Definition CodecWAV.h:240

audio_tools::WAVHeader::writeFMT
void writeFMT(BaseBuffer< uint8_t > &buffer, const WAVAudioInfo &info)
Definition CodecWAV.h:260

audio_tools::WAVHeader::writeHeader
bool writeHeader(Print *out, const WAVAudioInfo &info)
Just write a wav header with explicit info to the indicated output.
Definition CodecWAV.h:134

audio_tools::WAVHeader::available
size_t available()
number of bytes available in the header buffer
Definition CodecWAV.h:112

audio_tools::WAVHeader::writeHeader
bool writeHeader(Print *out)
Just write a wav header to the indicated outputbu.
Definition CodecWAV.h:129

audio_tools::WAVHeader::getChar
int getChar()
Definition CodecWAV.h:223

audio_tools::WAVHeader::getDataPos
int getDataPos()
Determines the data start position using the data tag.
Definition CodecWAV.h:115

audio_tools::WAVHeader::buffer
SingleBuffer< uint8_t > buffer
Definition CodecWAV.h:174

audio_tools::WAVHeader::audioInfo
WAVAudioInfo & audioInfo()
provides the info from the header
Definition CodecWAV.h:123

audio_tools::WAVHeader::write
int write(uint8_t *data, size_t data_len)
Definition CodecWAV.h:71

audio_tools::WAVHeader::clear
void clear()
Reset internal stored header information and buffer.
Definition CodecWAV.h:147

audio_tools::WAVHeader::read_tag
uint32_t read_tag()
Definition CodecWAV.h:191

audio_tools::WAVHeader::writeRiffHeader
void writeRiffHeader(BaseBuffer< uint8_t > &buffer, const WAVAudioInfo &info)
Definition CodecWAV.h:250

audio_tools::WAVHeader::headerInfo
WAVAudioInfo headerInfo
Definition CodecWAV.h:173

audio_tools::WAVHeader::read_int16
uint16_t read_int16()
Definition CodecWAV.h:211

audio_tools::WAVHeader::setPos
bool setPos(const char *id)
Definition CodecWAV.h:177

audio_tools::WAVHeader::read_int32
uint32_t read_int32()
Definition CodecWAV.h:202

audio_tools::WAVHeader::indexOf
int indexOf(const char *str)
Definition CodecWAV.h:185

audio_tools::WAVHeader::data_pos
size_t data_pos
Definition CodecWAV.h:175

audio_tools::WAVHeader::write32
void write32(BaseBuffer< uint8_t > &buffer, uint64_t value)
Definition CodecWAV.h:291

audio_tools::WAVHeader::dumpHeader
void dumpHeader()
Debug helper: dumps header bytes as printable characters.
Definition CodecWAV.h:159

audio_tools::WAVHeader::tell
size_t tell()
Definition CodecWAV.h:238

audio_tools::WAVHeader::getChar32
uint32_t getChar32()
Definition CodecWAV.h:200

audio_tools::int24_3bytes_t
24bit integer which is used for I2S sound processing. The values are really using 3 bytes....
Definition Int24_3bytes_t.h:16

audio_tools::int24_4bytes_t
24bit integer which is used for I2S sound processing. The values are represented as int32_t,...
Definition Int24_4bytes_t.h:16

audio_tools::AudioFormat
AudioFormat
Audio format codes used by Microsoft e.g. in avi or wav files.
Definition AudioFormat.h:19

audio_tools::AudioFormat::PCM
@ PCM

audio_tools
Generic Implementation of sound input and output for desktop environments using portaudio.
Definition AudioCodecsBase.h:10

audio_tools::wav_mime
static const char * wav_mime
Definition CodecWAV.h:37

audio_tools::writeData
size_t writeData(Print *p_out, T *data, int samples, int maxSamples=512)
Definition AudioTypes.h:512

audio_tools::AudioInfo
Basic Audio information which drives e.g. I2S.
Definition AudioTypes.h:55

audio_tools::AudioInfo::sample_rate
sample_rate_t sample_rate
Sample Rate: e.g 44100.
Definition AudioTypes.h:57

audio_tools::AudioInfo::channels
uint16_t channels
Number of channels: 2=stereo, 1=mono.
Definition AudioTypes.h:59

audio_tools::AudioInfo::bits_per_sample
uint8_t bits_per_sample
Number of bits per sample (int16_t = 16 bits)
Definition AudioTypes.h:61

audio_tools::WAVAudioInfo
Sound information which is available in the WAV header.
Definition CodecWAV.h:19

audio_tools::WAVAudioInfo::format
AudioFormat format
Definition CodecWAV.h:27

audio_tools::WAVAudioInfo::is_streamed
bool is_streamed
Definition CodecWAV.h:30

audio_tools::WAVAudioInfo::WAVAudioInfo
WAVAudioInfo()=default

audio_tools::WAVAudioInfo::is_valid
bool is_valid
Definition CodecWAV.h:31

audio_tools::WAVAudioInfo::block_align
int block_align
Definition CodecWAV.h:29

audio_tools::WAVAudioInfo::WAVAudioInfo
WAVAudioInfo(const AudioInfo &from)
Definition CodecWAV.h:21

audio_tools::WAVAudioInfo::file_size
uint32_t file_size
Definition CodecWAV.h:33

audio_tools::WAVAudioInfo::offset
int offset
Definition CodecWAV.h:34

audio_tools::WAVAudioInfo::byte_rate
int byte_rate
Definition CodecWAV.h:28

audio_tools::WAVAudioInfo::data_length
uint32_t data_length
Definition CodecWAV.h:32