Housekeeping of current used libraries.

Enabled compressor of dexed instances by default.
2 years ago · dcc4304c70
parent de2a893fb7
commit dcc4304c70
34 changed files with 475 additions and 490 deletions
--- a/MicroDexed.ino
+++ b/MicroDexed.ino
@ -533,7 +533,7 @@ void setup() {
    Serial.println(instance_id, DEC);
 #endif
    create_audio_dexed_chain(instance_id);
-    MicroDexed[instance_id]->setCompressor(true);  // just a test for enabling the compressor with default values
+    MicroDexed[instance_id]->setCompressor(true);
  }
 #ifdef DEBUG
  for (uint8_t instance_id = 0; instance_id < NUM_DEXED; instance_id++) {
@ -2343,7 +2343,7 @@ uint8_t drum_get_slot(uint8_t dt) {
      drum_type[i] = DRUM_NONE;
      Drum[i]->enableInterpolation(false);
      Drum[i]->setPlaybackRate(1.0);
-      drum_counter=i+1;
+      drum_counter = i + 1;
      return (i);
    }
  }
--- a/third-party/Synth_Dexed/src/PluginFx.cpp
+++ b/third-party/Synth_Dexed/src/PluginFx.cpp
@ -48,11 +48,9 @@ inline static float tptlpupw(float & state , float inp , float cutoff , float sr
 //    return (param) * (max - min) + min;
 //}
 #ifdef USE_FX
 static float logsc(float param, const float min, const float max, const float rolloff = 19.0f) {
  return ((EXP_FUNC(param * LOG_FUNC(rolloff + 1)) - 1.0f) / (rolloff)) * (max - min) + min;
 }
 #endif
 PluginFx::PluginFx() {
  Cutoff = 1.0;
--- a/third-party/Synth_Dexed/src/dexed.cpp
+++ b/third-party/Synth_Dexed/src/dexed.cpp
@ -74,10 +74,8 @@ Dexed::Dexed(uint8_t maxnotes, int rate)
  xrun = 0;
  render_time_max = 0;
 #ifdef USE_DEXED_COMPRESSOR
  compressor = new Compressor(samplerate);
  use_compressor = false;
 #endif
 }
 Dexed::~Dexed()
@ -190,10 +188,8 @@ void Dexed::getSamples(float32_t* buffer, uint16_t n_samples)
  fx.process(buffer, n_samples); // Needed for fx.Gain()!!!
 #if defined USE_DEXED_COMPRESSOR
  if (use_compressor == true)
    compressor->doCompression(buffer, n_samples);
 #endif
 }
 void Dexed::getSamples(int16_t* buffer, uint16_t n_samples)
@ -1665,7 +1661,6 @@ void Dexed::getName(char* buffer)
  buffer[10] = '\0';
 }
 #ifdef USE_DEXED_COMPRESSOR
 void Dexed::setCompressor(bool enable_compressor)
 {
  use_compressor = enable_compressor;
@ -1725,4 +1720,3 @@ float32_t Dexed::getCompressionRatio(void)
 {
  return (compressor->getCompressionRatio());
 }
 #endif
--- a/third-party/Synth_Dexed/src/dexed.h
+++ b/third-party/Synth_Dexed/src/dexed.h
@ -175,7 +175,6 @@ class Dexed
    uint16_t getRenderTimeMax(void);
    void resetRenderTimeMax(void);
    void ControllersRefresh(void);
 #ifdef USE_DEXED_COMPRESSOR
    void setCompressor(bool comp);
    bool getCompressor(void);
    void setCompressorPreGain_dB(float32_t pre_gain);
@ -188,7 +187,6 @@ class Dexed
    float32_t getCompressorRelease_sec(void);
    float32_t getCompressorThresh_dBFS(void);
    float32_t getCompressionRatio(void);
 #endif
    int16_t checkSystemExclusive(const uint8_t* sysex, const uint16_t len);
    // Sound methods
@ -353,10 +351,8 @@ class Dexed
    void getSamples(float32_t* buffer, uint16_t n_samples);
    void getSamples(int16_t* buffer, uint16_t n_samples);
    void compress(float32_t* wav_in, float32_t* wav_out, uint16_t n, float32_t threshold, float32_t slope, uint16_t sr,  float32_t tla, float32_t twnd, float32_t tatt, float32_t trel);
 #ifdef USE_DEXED_COMPRESSOR
    bool use_compressor;
    Compressor* compressor;
 #endif
 };
 #endif
--- a/third-party/TeensyVariablePlayback/CMakeLists.txt
+++ b/third-party/TeensyVariablePlayback/CMakeLists.txt
@ -15,13 +15,11 @@ if (NOT DEFINED BUILD_FOR_LINUX)
    import_arduino_library(Wire ${DEPSPATH}/Wire utility)
    import_arduino_library(arm_math ${DEPSPATH}/arm_math/src)
    import_arduino_library(Audio ${DEPSPATH}/Audio utility)
    import_arduino_library(LittleFS ${DEPSPATH}/LittleFS/src littlefs)
    add_subdirectory(src)
    add_subdirectory(examples)
 else()
    add_subdirectory(src)
    add_subdirectory(test)
    #add_subdirectory(extras/soundio/playqueue)
    add_subdirectory(extras/soundio/save_raw)
    add_subdirectory(extras/soundio/save_raw_sd)
    add_subdirectory(extras/soundio/save_wav)
--- a/third-party/TeensyVariablePlayback/README.md
+++ b/third-party/TeensyVariablePlayback/README.md
@ -9,20 +9,12 @@
 [![Commits](https://img.shields.io/github/commit-activity/m/newdigate/teensy-variable-playback)](https://github.com/newdigate/teensy-variable-playback/graphs/contributors)
 ![s](https://img.shields.io/badge/dynamic/json?color=%23e85b46&label=Patreon&query=data.attributes.patron_count&suffix=%20patrons&url=https%3A%2F%2Fwww.patreon.com%2Fapi%2Fcampaigns%2F4105381)
-play 16-bit PCM raw or wav audio samples at variable playback rates on teensy
+play 16-bit audio samples at variable playback rates on teensy
 * **Note** : this library only works with signed 16-bit integer samples. Floating point samples will not play. 
 * for best performance, use SDXC UHS 30MB/sec Application Performance Class 2 (A2) class micro sd-card. 
  * [sd classes on wikipedia](https://en.wikipedia.org/wiki/SD_card#cite_ref-93) 
 ## updates
 * 16/06/2022: v1.0.14: 
  * refactored code to generic classes
  * improve memory leaks
  * remove calls to StartUsingSPI(), StopUsingSPI(), __disable_irq(), __enable_irq()
  * intergated with SerialFlash and LittleFS 
 * 25/09/2021: v1.0.13: positionMillis() implemented for AudioPlaySdResmp
 * 25/08/2021: v1.0.12: Skip over RIFF tags in .wav header
 * 12/08/2021: v1.0.11: When playing a mono sample, transmit on both channels (credit to @atoktoto) 
 * 28/07/2021: v1.0.10: Fix issues when starting playback in reverse
 * 23/07/2021: v1.0.9: Fix issue which crashes teensy when playing multiple files from SD card using array of filenames
@ -108,11 +100,10 @@ graph G {
 <details>
  <summary>linux</summary>
  You can run and test this code on your linux computer. You can write a teensy sketch, and with a few modifications, you can redirect the audio input and output to and from your soundcard. [Soundio](https://github.com/newdigate/teensy-audio-x86-stubs/tree/main/extras/soundio) bindings are optional, you can also run sketches and tests with no audio input or output.
  You will need to install the following libraries.
 ```cmake``` ```gcc or llvm``` ```teensy-x86-stubs```[^](https://github.com/newdigate/teensy-x86-stubs) ```teensy-audio-x86-stubs```[^](https://github.com/newdigate/teensy-audio-x86-stubs) ```teensy-x86-sd-stubs```[^](https://github.com/newdigate/teensy-x86-sd-stubs) ```boost-test``` 
 By using stub libraries, we can compile teensy code to native device architecture. To a certain extent, this allows sketches and libraries to be developed, emulated, debugged and unit-tested using linux, on your local device or a build server. In this case I have a few basic tests for the ResamplingSdReader class.
  * install boost unit-test library: 
    * linux: ```sudo apt-get install -yq libboost-test-dev```
    * macos: ```brew install boost```
--- a/third-party/TeensyVariablePlayback/examples/CMakeLists.txt
+++ b/third-party/TeensyVariablePlayback/examples/CMakeLists.txt
@ -1,8 +1,6 @@
 cmake_minimum_required(VERSION 3.5)
 add_subdirectory(array)
 add_subdirectory(LittleFS)
 add_subdirectory(sampleloader)
 add_subdirectory(sd_play_all)
 add_subdirectory(sd_raw)
 add_subdirectory(sd_wav)
 add_subdirectory(SerialFlash)
--- a/third-party/TeensyVariablePlayback/examples/sd_play_all/sd_play_all.ino
+++ b/third-party/TeensyVariablePlayback/examples/sd_play_all/sd_play_all.ino
@ -133,7 +133,6 @@ void populateFilenames(char *directory, char **filenames) {
    if ((m > 0 || a > 0) && (underscore != 0)) {  
        filenames[index] = new char[curfile.length()+1] {0};
        memcpy(filenames[index], curfile.c_str(), curfile.length());
        index++;
    } 
    files.close();
  }
--- a/third-party/TeensyVariablePlayback/library.json
+++ b/third-party/TeensyVariablePlayback/library.json
@ -5,7 +5,7 @@
    "keywords": "sound, audio, sample, resample, pitch, interpolation, legrange, sampler, playback, speed",
    "description": "Teensy Variable Playback",
    "url": "https://github.com/newdigate/teensy-variable-playback",
-    "version": "1.0.14",
+    "version": "1.0.11",
    "export": {
      "exclude": [
        ".vscode",
@ -26,10 +26,11 @@
      "type": "git",
      "url": "https://github.com/newdigate/teensy-variable-playback"
    },
-    "dependencies":[{
+    "dependencies":
-        "name": "Audio",
+    {
-        "frameworks": "arduino"
+      "name": "Audio",
-    }],
+      "frameworks": "arduino"
    },
    "examples": [
      "examples/*/*.ino",
      "examples/*/*/*.ino"
--- a/third-party/TeensyVariablePlayback/library.properties
+++ b/third-party/TeensyVariablePlayback/library.properties
@ -1,5 +1,5 @@
 name=TeensyVariablePlayback
-version=1.0.14
+version=1.0.11
 author=Nic Newdigate
 maintainer=Nic Newdigate
 sentence=Play samples at variable pitch using Teensy Audio Library
--- a/third-party/TeensyVariablePlayback/src/CMakeLists.txt
+++ b/third-party/TeensyVariablePlayback/src/CMakeLists.txt
@ -3,8 +3,12 @@ project(teensy_variable_playback C CXX)
 set(teensy_variable_playback_VERSION 1.0.0)
 set(CMAKE_CXX_STANDARD 11)
 set(SOURCE_FILES
        playsdresmp.cpp
        ResamplingSdReader.cpp
        ResamplingArrayReader.cpp
        playarrayresmp.cpp
        interpolation.cpp
-        )
+        IndexableFile.cpp)
 set(HEADER_FILES
        loop_type.h
@ -13,19 +17,10 @@ set(HEADER_FILES
        ResamplingSdReader.h
        waveheaderparser.h
        ResamplingArrayReader.h
        ResamplingReader.h
        playarrayresmp.h
        interpolation.h
        TeensyVariablePlayback.h
-        IndexableFile.h
+        IndexableFile.h)
        IndexableSerialFlashFile.h
        IndexableLittleFSFile.h
        IndexableSDFile.h
        ResamplingLfsReader.h
        ResamplingSerialFlashReader.h
        playlfsresmp.h
        playserialflashresmp.h
        )
 #set(CMAKE_VERBOSE_MAKEFILE 1)
 if (NOT DEFINED TEENSY_VERSION)
--- a/third-party/TeensyVariablePlayback/src/IndexableFile.h
+++ b/third-party/TeensyVariablePlayback/src/IndexableFile.h
@ -18,24 +18,19 @@ constexpr bool isPowerOf2(size_t value){
    return !(value == 0) && !(value & (value - 1));
 }
-template<size_t BUFFER_SIZE, size_t MAX_NUM_BUFFERS, class TFile> // BUFFER_SIZE needs to be a power of two
+template<size_t BUFFER_SIZE, size_t MAX_NUM_BUFFERS> // BUFFER_SIZE needs to be a power of two
 class IndexableFile {
 public:
    static_assert(isPowerOf2(BUFFER_SIZE), "BUFFER_SIZE must be a power of 2");
    virtual TFile open(const char *filename) = 0;
    static constexpr size_t element_size = sizeof(int16_t);
    size_t buffer_to_index_shift;
-    IndexableFile(const char *filename) : 
+    IndexableFile(File file) : 
        _buffers(),
-        buffer_to_index_shift(log2(BUFFER_SIZE)) 
+        buffer_to_index_shift(log2(BUFFER_SIZE)) {
-    {
+    	    _file = file;
            _filename = new char[strlen(filename)+1] {0};
            memcpy(_filename, filename, strlen(filename));
    }
-    
+    ~IndexableFile() {
    virtual ~IndexableFile() {
        close();
    }
@ -54,14 +49,12 @@ public:
            next->buffer = new int16_t[BUFFER_SIZE];
            size_t basePos = indexFor_i << buffer_to_index_shift;
            size_t seekPos = basePos * element_size;
            __disable_irq();
            _file.seek(seekPos);
            int16_t bytesRead = _file.read(next->buffer, BUFFER_SIZE * element_size);
-            #ifndef TEENSYDUINO
+            __enable_irq();
-            if (!_file.available()){  
+            
                _file.close();
                _file = open(_filename);
            }
            #endif
            next->buffer_size = bytesRead;
            _buffers.push_back(next);
            match = next;
@ -70,25 +63,20 @@ public:
    }
    void close() {
-        if (_file.available()) {
+	    if (_file.available()) {
            __disable_irq();
            _file.close();
            __enable_irq();
        }
-       for (auto && x : _buffers){
+        for (auto && x : _buffers){
            delete [] x->buffer;
            delete x;
        }
        _buffers.clear();
        if (_filename != nullptr) {
            delete [] _filename;
            _filename = nullptr;
        }    
    }
-
+private:
-protected:
+    File _file;
    TFile _file;
    char *_filename;
    std::vector<indexedbuffer*> _buffers;
    indexedbuffer* find_with_index(uint32_t i) {
@ -103,6 +91,4 @@ protected:
 }
 #endif 
--- a/third-party/TeensyVariablePlayback/src/ResamplingArrayReader.cpp
+++ b/third-party/TeensyVariablePlayback/src/ResamplingArrayReader.cpp
@ -264,14 +264,14 @@ bool ResamplingArrayReader::playWav(int16_t *array, uint32_t length)
    WaveHeaderParser wavHeaderParser;
    wavHeaderParser.readWaveHeaderFromBuffer((const char *) array, wav_header);
    if (wav_header.bit_depth != 16) {
-        // Serial.printf("Needs 16 bit audio! Aborting.... (got %d)", wav_header.bit_depth);
+        Serial.printf("Needs 16 bit audio! Aborting.... (got %d)", wav_header.bit_depth);
        return false;
    }
    setNumChannels(wav_header.num_channels);
    _header_offset = 22;
    _file_size = wav_header.data_bytes + 44; //2 bytes per sample
    if (_file_size > length * 2){
-        // Serial.printf("TeensyVariablePlayback: warning: length of array in bytes (%d) is smaller than the file data size in bytes (%d) according to the header - defaulting length to filesize...", length * 2, _file_size);
+        Serial.printf("TeensyVariablePlayback: warning: length of array in bytes (%d) is smaller than the file data size in bytes (%d) according to the header - defaulting length to filesize...", length * 2, _file_size);
        _loop_finish = length;
    } else
        _loop_finish = _file_size / 2;
--- a/third-party/TeensyVariablePlayback/src/ResamplingArrayReader.h
+++ b/third-party/TeensyVariablePlayback/src/ResamplingArrayReader.h
@ -6,44 +6,115 @@
 #include <cstdint>
 #include "loop_type.h"
 #include "interpolation.h"
 #include "ResamplingReader.h"
-namespace newdigate {
+class ResamplingArrayReader {
 class ResamplingArrayReader : public ResamplingReader<int16_t, File> {
 public:
-    ResamplingArrayReader() :
+    ResamplingArrayReader() {
-        ResamplingReader() {
+
    }
    void begin(void);
    bool playRaw(int16_t *array, uint32_t length, uint16_t numChannels);
    bool playWav(int16_t *array, uint32_t length);
    bool play();
    void stop(void);
    bool isPlaying(void) { return _playing; }
    unsigned int read(void **buf, uint16_t nbyte);
    bool readNextValue(int16_t *value, uint16_t channelNumber);
    void setPlaybackRate(double f) {
        _playbackRate = f;
        if (f < 0.0 && _bufferPosition == 0) {
            //_file.seek(_file_size);
            _bufferPosition = _file_size/2 - _numChannels;
        }
    }
    float playbackRate() {
        return _playbackRate;
    }
    void loop(uint32_t numSamples) {
        __disable_irq();
        _loop_start = _bufferPosition;
        _loop_finish = _bufferPosition + numSamples * _numChannels;
        _loopType = loop_type::looptype_repeat;
        __enable_irq();
    }
-    virtual ~ResamplingArrayReader() {
+    void setLoopType(loop_type loopType)
    {
        _loopType = loopType;
    }
-    int16_t getSourceBufferValue(long index) override {
+    loop_type getLoopType(){
-        return _sourceBuffer[index];
+        return _loopType;    
    }
-    int available(void) {
+    int available(void);
-        return _playing;
+    void reset(void);
    void close(void);
    void setLoopStart(uint32_t loop_start) {
        _loop_start = _header_offset + (loop_start * _numChannels);
    }
-    int16_t* createSourceBuffer() override {
+    void setLoopFinish(uint32_t loop_finish) {
-        return _sourceBuffer;
+        // sample number, (NOT byte number)
        _loop_finish = _header_offset + (loop_finish * _numChannels);
    }
-    void close(void) override {
+    void setInterpolationType(ResampleInterpolationType interpolationType) {
-        if (_playing) {
+        if (interpolationType != _interpolationType) {
-            stop();
+            _interpolationType = interpolationType;
-            deleteInterpolationPoints();
+            initializeInterpolationPoints();
        }
    }
-    File open(char *filename) override {
+    int16_t getNumChannels() {
-        return File();
+        return _numChannels;
    }
    void setNumChannels(uint16_t numChannels) {
        if (numChannels != _numChannels) {
            _numChannels = numChannels;
            initializeInterpolationPoints();
        }
    }
-protected:
+
    void setHeaderSizeInBytes(uint32_t headerSizeInBytes) {
        _header_offset = headerSizeInBytes / 2;
        if (_bufferPosition < _header_offset) {
            if (_playbackRate >= 0) {
                _bufferPosition = _header_offset;
            } else
                _bufferPosition = _loop_finish - _numChannels;
        }
    }
 private:
    volatile bool _playing = false;
    int32_t _file_size;
    int32_t _header_offset = 0; // == (header size in bytes ) / 2
    double _playbackRate = 1.0;
    double _remainder = 0.0;
    loop_type _loopType = looptype_none;
    int _bufferPosition = 0;
    int32_t _loop_start = 0;
    int32_t _loop_finish = 0;
    int16_t _numChannels = -1;
    uint16_t _numInterpolationPointsChannels = 0;
    int16_t *_sourceBuffer = nullptr;
    ResampleInterpolationType _interpolationType = ResampleInterpolationType::resampleinterpolation_none;
    unsigned int _numInterpolationPoints = 0;
    InterpolationData **_interpolationPoints = nullptr;
    void initializeInterpolationPoints(void);
    void deleteInterpolationPoints(void);
 };
 }
 #endif //TEENSYAUDIOLIBRARY_RESAMPLINGARRAYREADER_H
--- a/third-party/TeensyVariablePlayback/src/ResamplingSdReader.cpp
+++ b/third-party/TeensyVariablePlayback/src/ResamplingSdReader.cpp
@ -262,8 +262,8 @@ bool ResamplingSdReader::play(const char *filename, bool isWave, uint16_t numCha
    if (!file) {
 //        StopUsingSPI();
-        // Serial.print(F("Not able to open file: "));
+        Serial.print(F("Not able to open file: "));
-        // Serial.println(filename);
+        Serial.println(filename);
        return false;
    }
@ -276,9 +276,9 @@ bool ResamplingSdReader::play(const char *filename, bool isWave, uint16_t numCha
    wavHeaderParser.readWaveHeader(wav_header, file);		
    if (wav_header.bit_depth != 16) {
-        // Serial.print(F("Needs 16 bit audio! Aborting.... (got "));
+        Serial.print(F("Needs 16 bit audio! Aborting.... (got "));
-        // Serial.print(wav_header.bit_depth);
+        Serial.print(wav_header.bit_depth);
-        // Serial.println(F(")"));
+        Serial.println(F(")"));
        __disable_irq();
        file.close();
        __enable_irq();
@ -290,8 +290,8 @@ bool ResamplingSdReader::play(const char *filename, bool isWave, uint16_t numCha
    if (_file_size <= _header_offset * newdigate::IndexableFile<128, 2>::element_size) {
        _playing = false;
-        // Serial.print(F("Wave file contains no samples: "));
+        Serial.print(F("Wave file contains no samples: "));
-        // Serial.println(filename);
+        Serial.println(filename);
 //        StopUsingSPI();
        __disable_irq();
        file.close();
@ -339,7 +339,7 @@ int ResamplingSdReader::available(void) {
 void ResamplingSdReader::close(void) {
-    // Serial.printf("sdreader close\n");
+    Serial.printf("sdreader close\n");
    if (_playing)
        stop();
--- a/third-party/TeensyVariablePlayback/src/ResamplingSdReader.h
+++ b/third-party/TeensyVariablePlayback/src/ResamplingSdReader.h
@ -10,72 +10,143 @@
 #include "spi_interrupt.h"
 #include "loop_type.h"
 #include "interpolation.h"
-#include "IndexableSDFile.h"
+#include "IndexableFile.h"
 #include "ResamplingReader.h"
 #define RESAMPLE_BUFFER_SAMPLE_SIZE 128
 #define B2M (uint32_t)((double)4294967296000.0 / AUDIO_SAMPLE_RATE_EXACT / 2.0) // 97352592
-namespace newdigate {
+class ResamplingSdReader {
 class ResamplingSdReader : public ResamplingReader< IndexableSDFile<128, 2>, File > {
 public:
-    ResamplingSdReader() : 
+    ResamplingSdReader() {
        ResamplingReader() 
    {
    }
-    virtual ~ResamplingSdReader() {
+    void begin(void);
    bool playRaw(const char *filename, uint16_t numChannels);
    bool playWav(const char *filename);
    bool play();
    void stop(void);
    bool isPlaying(void) { return _playing; }
    unsigned int read(int16_t **buf);
    bool readNextValue(int16_t *value, uint16_t channelNumber);
    void setPlaybackRate(double f) {
        _playbackRate = f;
        if (f < 0.0 && _bufferPosition == 0) {
            //_file.seek(_file_size);
            _bufferPosition = _file_size / 2 - _numChannels;
        }
    }
-    int16_t getSourceBufferValue(long index) override {
+    double playbackRate() {
-        return (*_sourceBuffer)[index];
+        return _playbackRate;
    }
-    int available(void)
+    void setLoopType(loop_type loopType)
    {
-        return _playing;
+        _loopType = loopType;
    }
-    File open(char *filename) override {
+    loop_type getLoopType(){
-        return SD.open(filename);
+        return _loopType;    
    }
-    void close(void) override
+    int available(void);
-    {
+    void reset(void);
-        if (_playing)
+    void close(void);
-            stop();
+
-        if (_sourceBuffer != nullptr) {
+    void setLoopStart(uint32_t loop_start) {
-            _sourceBuffer->close();
+        _loop_start = _header_offset + (loop_start * _numChannels);
-            delete _sourceBuffer;
+    }
-            _sourceBuffer = nullptr;
+
    void setLoopFinish(uint32_t loop_finish) {
        // sample number, (NOT byte number)
        _loop_finish = _header_offset + (loop_finish * _numChannels);
    }
    void setInterpolationType(ResampleInterpolationType interpolationType) {        
        if (interpolationType != _interpolationType) {            
            _interpolationType = interpolationType;
            initializeInterpolationPoints();
        }
-        if (_filename != nullptr) {
+    }
-            delete [] _filename;
+
-            _filename = nullptr;
+    int16_t getNumChannels() {
        return _numChannels;
    }
    void setNumChannels(uint16_t numChannels) {
        if (numChannels != _numChannels) {   
            _numChannels = numChannels;
            initializeInterpolationPoints();
        }
        deleteInterpolationPoints();
    }
-    IndexableSDFile<128, 2>* createSourceBuffer() override {
+    void setHeaderSize(uint32_t headerSizeInBytes) {
-        return new IndexableSDFile<128, 2>(_filename);
+        _header_offset = headerSizeInBytes / 2;
        if (_bufferPosition < _header_offset) {
            if (_playbackRate >= 0) {
                _bufferPosition = _header_offset;
            }
        }
    }
    uint32_t positionMillis(void) {
-        if (_file_size == 0) return 0;
+        return ((uint64_t) _file_size * B2M) >> 32;
        return (uint32_t) (( (double)_bufferPosition * lengthMillis() ) / (double)(_file_size/2));
    }
    uint32_t lengthMillis(void) {
-        return ((uint64_t)_file_size * B2M) >> 32;
+        return ((uint64_t) _file_size * B2M) >> 32;
    }
 private:
    volatile bool _playing = false;
    uint32_t _file_size;
    uint32_t _header_offset = 0; // == (header size in bytes ) / 2
    double _playbackRate = 1.0;
    double _remainder = 0.0;
    loop_type _loopType = looptype_none;
    unsigned int _bufferPosition = 0;
    uint32_t _loop_start = 0;
    uint32_t _loop_finish = 0;
    int16_t _numChannels = -1;
    uint16_t _numInterpolationPointsChannels = 0;
    newdigate::IndexableFile<128, 2> *_sourceBuffer = nullptr;
    ResampleInterpolationType _interpolationType = ResampleInterpolationType::resampleinterpolation_none;
    unsigned int _numInterpolationPoints = 0;
    InterpolationData **_interpolationPoints = nullptr;
    static bool isUsingSPI;
    void StartUsingSPI(){
        if (!isUsingSPI) {
            isUsingSPI = true;
 #if defined(HAS_KINETIS_SDHC)
            if (!(SIM_SCGC3 & SIM_SCGC3_SDHC)) AudioStartUsingSPI();
 #else
            AudioStartUsingSPI();
 #endif
        }
    }
-protected:    
+    void StopUsingSPI() {
        if (isUsingSPI) {
            isUsingSPI = false;
 #if defined(HAS_KINETIS_SDHC)
            if (!(SIM_SCGC3 & SIM_SCGC3_SDHC)) AudioStopUsingSPI();
 #else
            AudioStopUsingSPI();
 #endif
        }
    }
    bool play(const char *filename, bool isWave, uint16_t numChannelsIfRaw = 0);
    void initializeInterpolationPoints(void);
    void deleteInterpolationPoints(void);
 };
 }
 #endif //TEENSYAUDIOLIBRARY_RESAMPLINGSDREADER_H
--- a/third-party/TeensyVariablePlayback/src/TeensyVariablePlayback.h
+++ b/third-party/TeensyVariablePlayback/src/TeensyVariablePlayback.h
@ -8,10 +8,7 @@
 #include "waveheaderparser.h"
 #include "ResamplingSdReader.h"
 #include "ResamplingArrayReader.h"
 #include "ResamplingLfsReader.h"
 #include "ResamplingSerialFlashReader.h"
 #include "playsdresmp.h"
 #include "playarrayresmp.h"
-#include "playlfsresmp.h"
+
 #include "playserialflashresmp.h"
 #endif //TEENSY_RESAMPLING_ARDUINO_SAMPLER_H
--- a/third-party/TeensyVariablePlayback/src/playarrayresmp.h
+++ b/third-party/TeensyVariablePlayback/src/playarrayresmp.h
@ -11,19 +11,61 @@
 #include "ResamplingArrayReader.h"
 #include "playresmp.h"
-class AudioPlayArrayResmp : public AudioPlayResmp<newdigate::ResamplingArrayReader>
+class AudioPlayArrayResmp : public AudioPlayResmp
 {
 public:
    AudioPlayArrayResmp(void) :
-            AudioPlayResmp<newdigate::ResamplingArrayReader>()
+            AudioPlayResmp(),
            arrayReader()
    {
        reader = new newdigate::ResamplingArrayReader();
        begin();
    }
-    virtual ~AudioPlayArrayResmp() {
+    void begin(void);
-        delete reader;
+    bool playRaw(int16_t *data, uint32_t numSamples, uint16_t numChannels);
    bool playRaw(const unsigned int *data, uint32_t numSamples, uint16_t numChannels);
    bool playWav(int16_t *data, uint32_t fileSize);
    bool playWav(const unsigned int *data, uint32_t fileSize);
    void stop(void);
    void close(void);
    bool isPlaying(void) { return arrayReader.isPlaying(); }
    uint32_t positionMillis(void);
    uint32_t lengthMillis(void);
    virtual void update(void);
    void setPlaybackRate(float f) {
        arrayReader.setPlaybackRate(f);
    }
    void setLoopType(loop_type t) {
        arrayReader.setLoopType(t);
    }
    void startLoop(uint32_t samples) {
        arrayReader.loop(samples);
    }
    void setLoopStart(uint32_t loop_start) {
        arrayReader.setLoopStart(loop_start);
    }
    void setLoopFinish(uint32_t loop_finish) {
        arrayReader.setLoopFinish(loop_finish);
    }
    void enableInterpolation(bool enable) {
        if (enable)
            arrayReader.setInterpolationType(ResampleInterpolationType::resampleinterpolation_quadratic);
        else 
            arrayReader.setInterpolationType(ResampleInterpolationType::resampleinterpolation_none);
    }
 private:
    uint32_t file_size;
    ResamplingArrayReader arrayReader;
 };
--- a/third-party/TeensyVariablePlayback/src/playresmp.h
+++ b/third-party/TeensyVariablePlayback/src/playresmp.h
@ -5,135 +5,20 @@
 #include "Audio.h"
 #include "loop_type.h"
 template <class TResamplingReader>
 class AudioPlayResmp : public AudioStream
 {
    public:
-        AudioPlayResmp(): AudioStream(0, NULL), reader(nullptr)
+        AudioPlayResmp(void): AudioStream(0, NULL) {}
-        {
+        virtual ~AudioPlayResmp() {}
-        }
+
-
+        virtual void setPlaybackRate(float f) = 0;
-        virtual ~AudioPlayResmp() {
+        virtual void setLoopType(loop_type t) = 0;
-        }
+        virtual void setLoopStart(uint32_t loop_start) = 0;
-
+        virtual void setLoopFinish(uint32_t loop_finish) = 0;
-        void begin(void)
+        virtual void begin() = 0;
-        {
+        virtual void enableInterpolation(bool enable) = 0;
-            reader->begin();
+        virtual bool isPlaying(void) = 0;
-        }
+        virtual void stop() = 0;
        bool playRaw(const char *filename, uint16_t numChannels)
        {
            stop();
            return reader->play(filename, false, numChannels);
        }
        bool playWav(const char *filename)
        {
            stop();
            return reader->play(filename, true, 0);
        }
        bool playRaw(int16_t *data, uint32_t numSamples, uint16_t numChannels)
        {
            stop();
            return reader->playRaw(data, numSamples, numChannels);
        }
        bool playRaw(const unsigned int *data, uint32_t numSamples, uint16_t numChannels) 
        {
            return playRaw((int16_t *) data, numSamples, numChannels);
        }
        bool playWav(int16_t *data, uint32_t fileSize)
        {
            stop();
            return reader->playWav(data, fileSize);
        }
        bool playWav(const unsigned int *data, uint32_t fileSize) {
            return playWav((int16_t *) data, fileSize);
        }
        void setPlaybackRate(float f) {
            reader->setPlaybackRate(f);
        }
        void setLoopType(loop_type t) {
            reader->setLoopType(t);
        }
        void setLoopStart(uint32_t loop_start) {
            reader->setLoopStart(loop_start);
        }
        void setLoopFinish(uint32_t loop_finish) {
            reader->setLoopFinish(loop_finish);
        }
        void enableInterpolation(bool enable) {
            if (enable)
                reader->setInterpolationType(ResampleInterpolationType::resampleinterpolation_quadratic);
            else 
                reader->setInterpolationType(ResampleInterpolationType::resampleinterpolation_none);
        }
        bool isPlaying(void) {
            return reader->isPlaying();
        };
        void stop() {
            reader->stop();
        }
        void update()
        {
            int _numChannels = reader->getNumChannels();
            if (_numChannels == -1)
                return;
            unsigned int n;
            audio_block_t *blocks[_numChannels];
            int16_t *data[_numChannels];
            // only update if we're playing
            if (!reader->isPlaying()) return;
            // allocate the audio blocks to transmit
            for (int i=0; i < _numChannels; i++) {
                blocks[i] = allocate();
                if (blocks[i] == nullptr) return;
                data[i] = blocks[i]->data;
            }
            if (reader->available()) {
                // we can read more data from the file...
                n = reader->read((void**)data, AUDIO_BLOCK_SAMPLES);
                for (int channel=0; channel < _numChannels; channel++) {
                    memset( &blocks[channel]->data[n], 0, (AUDIO_BLOCK_SAMPLES - n) * 2);
                    transmit(blocks[channel], channel);
                }
                if(_numChannels == 1) {
                    transmit(blocks[0], 1);
                }
            } else {
                reader->close();
            }
            for (int channel=0; channel < _numChannels; channel++) {
                release(blocks[channel]);
            }
        }
        uint32_t positionMillis()
        {
            return reader->positionMillis();
        }
        uint32_t lengthMillis()
        {
            return reader->lengthMillis();
        }
    protected:
        TResamplingReader *reader;
 };
 #endif // TEENSY_RESAMPLING_SDREADER_PLAYRESMP_H
--- a/third-party/TeensyVariablePlayback/src/playsdresmp.h
+++ b/third-party/TeensyVariablePlayback/src/playsdresmp.h
@ -8,24 +8,56 @@
 #include "Arduino.h"
 #include "AudioStream.h"
 #include "SD.h"
 #include "stdint.h"
 #include "ResamplingSdReader.h"
 #include "playresmp.h"
-class AudioPlaySdResmp : public AudioPlayResmp<newdigate::ResamplingSdReader>
+class AudioPlaySdResmp : public AudioPlayResmp
 {
 public:
    AudioPlaySdResmp(void) :
-        AudioPlayResmp<newdigate::ResamplingSdReader>()
+            AudioPlayResmp(),
            sdReader()
    {
        reader = new newdigate::ResamplingSdReader();
        begin();
    }
-    virtual ~AudioPlaySdResmp() {
+    void begin(void);
-        delete reader;
+    bool playRaw(const char *filename, uint16_t numChannels);
    bool playWav(const char *filename);
    void stop(void);
    bool isPlaying(void) { return sdReader.isPlaying(); }
    uint32_t positionMillis(void);
    uint32_t lengthMillis(void);
    virtual void update(void);
    void setPlaybackRate(float f) {
        sdReader.setPlaybackRate(f);
    }
    void setLoopType(loop_type t) {
        sdReader.setLoopType(t);
    }
    void setLoopStart(uint32_t loop_start) {
        sdReader.setLoopStart(loop_start);
    }
    void setLoopFinish(uint32_t loop_finish) {
        sdReader.setLoopFinish(loop_finish);
    }
    void enableInterpolation(bool enable) {
        if (enable)
            sdReader.setInterpolationType(ResampleInterpolationType::resampleinterpolation_quadratic);
        else 
            sdReader.setInterpolationType(ResampleInterpolationType::resampleinterpolation_none);
    }
 private:
    uint32_t file_size;
    ResamplingSdReader sdReader;
 };
--- a/third-party/TeensyVariablePlayback/src/waveheaderparser.h
+++ b/third-party/TeensyVariablePlayback/src/waveheaderparser.h
@ -14,70 +14,47 @@ using namespace std;
 // from https://gist.github.com/Jon-Schneider/8b7c53d27a7a13346a643dac9c19d34f
 struct wav_header {
    // RIFF Header
-    char riff_header[4] = {0,0,0,0};    // 00 - 03 - Contains "RIFF"
+    char riff_header[4];    // 00 - 03 - Contains "RIFF"
-    int header_chunk_size = 0;  // 04 - 07 - Size of the wav portion of the file, which follows the first 8 bytes. File size - 8
+    int header_chunk_size;  // 04 - 07 - Size of the wav portion of the file, which follows the first 8 bytes. File size - 8
-    char wave_header[4] = {0,0,0,0};    // 08 - 11 - Contains "WAVE"
+    char wave_header[4];    // 08 - 11 - Contains "WAVE"
    // Format Header
-    char fmt_header[4] = {0,0,0,0};     // 12 - 15 - Contains "fmt " (includes trailing space)
+    char fmt_header[4];     // 12 - 15 - Contains "fmt " (includes trailing space)
-    int fmt_chunk_size = 0;     // 16 - 19 - Should be 16 for PCM
+    int fmt_chunk_size;     // 16 - 19 - Should be 16 for PCM
-    short audio_format = 0;     // 20 - 21 - Should be 1 for PCM. 3 for IEEE Float
+    short audio_format;     // 20 - 21 - Should be 1 for PCM. 3 for IEEE Float
-    short num_channels = 0;     // 22 - 23
+    short num_channels;     // 22 - 23
-    int sample_rate = 0;        // 24 - 27
+    int sample_rate;        // 24 - 27
-    int byte_rate = 0;          // 28 - 31
+    int byte_rate;          // 28 - 31
-    short sample_alignment = 0; // 32 - 33
+    short sample_alignment; // 32 - 33
-    short bit_depth  = 0;        // 34 - 35
+    short bit_depth;        // 34 - 35
 };
 struct wav_data_header {
    // Data
-    char data_header[4] = {0,0,0,0};    // 36 - 39
+    char data_header[4];    // 36 - 39
-    unsigned int data_bytes = 0;// 40 - 43
+    unsigned int data_bytes;// 40 - 43
 };
 class WaveHeaderParser {
 public:
-    bool readWaveHeader(const char *filename, wav_header &header, wav_data_header &wav_data_header) {
+    bool readWaveHeader(const char *filename, wav_header &header, wav_header &wav_header) {
        __disable_irq();
        File wavFile = SD.open(filename);
        __enable_irq();
        if (!wavFile) {
            Serial.printf("Not able to open wave file... %s\n", filename);
            return false;
        }
-        bool result = readWaveHeader(filename, header, wavFile);
+        bool result = readWaveHeader(header, wavFile);
        if (result) {
            wavFile.seek(36);
            unsigned char buffer[8];
            size_t bytesRead = wavFile.read(buffer, 8);
            if (bytesRead != 8) {
                Serial.printf("Not able to read header... %s\n", filename);
                result = false;
            }
            if (result) {
                unsigned infoTagsSize;
                result = readInfoTags(buffer, 0, infoTagsSize);
                if (result) {
                    wavFile.seek(36 + infoTagsSize);
                    bytesRead = wavFile.read(buffer, 8);
                    if (bytesRead != 8) {
                        Serial.printf("Not able to read header... %s\n", filename);
                        return false;
                    }
                    result = readDataHeader(buffer, 0, wav_data_header);
                }
            }
        }
        wavFile.close();
        return result;
    }
-    bool readWaveHeader(const char *filename, wav_header &header, File &wavFile) {
+    bool readWaveHeader(wav_header &header, File wavFile) {
-        char buffer[36];
+        char buffer[44];
-        int bytesRead = wavFile.read(buffer, 36);
+        __disable_irq();
-        if (bytesRead != 36) {
+        int bytesRead = wavFile.read(buffer, 44);
-            Serial.printf("expected 36 bytes (was %d)\n", bytesRead);
+        __enable_irq();
        if (bytesRead != 44) {
            Serial.printf("expected 44 bytes (was %d)\n", bytesRead);
            return false;
        }
        return readWaveHeaderFromBuffer(buffer, header);
@ -135,45 +112,18 @@ public:
        auto bit_depth = static_cast<unsigned long>(b[35] << 8 | b[34]);
        header.bit_depth = bit_depth;
-        return true;
+        for (int i=0; i < 4; i++)
-    }
+            header.data_header[i] = buffer[i+36];
-
+        if (buffer[36] != 'd' || buffer[37] != 'a' || buffer[38] != 't' || buffer[39] != 'a') {
    bool readInfoTags(unsigned char *buffer, size_t offset, unsigned &infoTagsSize) {
        if (    buffer[offset+0] == 'L' 
             && buffer[offset+1] == 'I' 
             && buffer[offset+2] == 'S' 
             && buffer[offset+3] == 'T') {
            infoTagsSize = static_cast<uint32_t>(buffer[offset+7] << 24 | buffer[offset+6] << 16 | buffer[offset+5] << 8 | buffer[offset+4]);    
            infoTagsSize += 8;
            return true;
        }
        if (    buffer[offset+0] == 'd' 
             && buffer[offset+1] == 'a' 
             && buffer[offset+2] == 't' 
             && buffer[offset+3] == 'a') {
            infoTagsSize = 0;
            return true;
        }
        Serial.println("expected 'data' or 'LIST'...");
        return false;
    }
    bool readDataHeader(unsigned char *buffer, size_t offset, wav_data_header &data_header) {
      for (int i=0; i < 4; i++)
            data_header.data_header[i] = buffer[i+offset];
        if (buffer[offset+0] != 'd' || buffer[offset+1] != 'a' || buffer[offset+2] != 't' || buffer[offset+3] != 'a') {
            Serial.printf("expected data... (was %d)\n", buffer);
            return false;
        }
-        auto data_bytes = static_cast<unsigned long>(buffer[offset+7] << 24 | buffer[offset+6] << 16 | buffer[offset+5] << 8 | buffer[offset+4]);
+        auto data_bytes = static_cast<unsigned long>(b[43] << 24 | b[42] << 16 | b[41] << 8 | b[40]);
-        data_header.data_bytes = data_bytes;
+        header.data_bytes = data_bytes;
        return true;
    }
 private:
 };
--- a/third-party/TeensyVariablePlayback/test/CMakeLists.txt
+++ b/third-party/TeensyVariablePlayback/test/CMakeLists.txt
@ -57,7 +57,6 @@ if (DEFINED BUILD_FOR_LINUX)
            audio/wav/AudioWavFixture.h
            audio/wav/test_wav_mono_loop_forward_playback.cpp
            audio/wav/test_wav_stereo_loop_forward_playback.cpp
            audio/wav/test_wav_tags.cpp
            low_level/sd/ResamplingReaderFixture.h
            low_level/sd/test_raw_mono_noloop_forward_playback.cpp
--- a/third-party/TeensyVariablePlayback/test/audio/array/test_array_mono_loop_forward_playback.cpp
+++ b/third-party/TeensyVariablePlayback/test/audio/array/test_array_mono_loop_forward_playback.cpp
@ -14,11 +14,6 @@ extern unsigned int kick_raw_len; // in bytes, divide by 2 to get samples
 BOOST_AUTO_TEST_SUITE(test_audio_array_mono_loop_forward_playback)
    const uint16_t numberOfChannels = 1;
    const std::string referencePath = "test/resources/reference/";
    const std::string inputPath = "test/resources/input/";
    const std::string outputPath = "output/";
    BOOST_FIXTURE_TEST_CASE(Array_fwd_1_0000_quadratic_mono_noloop, AudioArrayFixture) {
        // GUItool: begin automatically generated code
@ -30,10 +25,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_mono_loop_forward_playback)
        const double playbackRate = 1.0;
        const std::string testName = "Array_fwd_1_0000_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -64,10 +59,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_mono_loop_forward_playback)
        const double playbackRate = 0.5;
        const std::string testName = "Array_fwd_0_5000_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -99,10 +94,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_mono_loop_forward_playback)
        const double playbackRate = 2.0;
        const std::string testName = "Array_fwd_2_0000_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());     
+        testout.saveOutputFile(outputFile.c_str());     
        memory.begin();           
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -134,10 +129,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_mono_loop_forward_playback)
        const double playbackRate = 0.7437;
        const std::string testName = "Array_fwd_0_7437_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -170,10 +165,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_mono_loop_forward_playback)
        const double playbackRate = 1.7437;
        const std::string testName = "Array_fwd_1_7437_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -205,10 +200,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_mono_loop_forward_playback)
        const double playbackRate = 8.7437;
        const std::string testName = "Array_fwd_8_7437_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();        
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
--- a/third-party/TeensyVariablePlayback/test/audio/array/test_array_stereo_loop_forward_playback.cpp
+++ b/third-party/TeensyVariablePlayback/test/audio/array/test_array_stereo_loop_forward_playback.cpp
@ -14,10 +14,6 @@ extern unsigned int stereo_souljah_raw_len;
 BOOST_AUTO_TEST_SUITE(test_audio_array_stereo_loop_forward_playback)
    const uint16_t numberOfChannels = 2;
    const std::string referencePath = "test/resources/reference/";
    const std::string inputPath = "test/resources/input/";
    const std::string outputPath = "output/";
    BOOST_FIXTURE_TEST_CASE(Array_fwd_1_0000_quadratic_stereo_noloop, AudioArrayFixture) {
        // GUItool: begin automatically generated code
@ -30,10 +26,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_stereo_loop_forward_playback)
        const double playbackRate = 1.0;
        const std::string testName = "Array_fwd_1_0000_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -65,10 +61,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_stereo_loop_forward_playback)
        const double playbackRate = 0.5;
        const std::string testName = "Array_fwd_0_5000_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -101,10 +97,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_stereo_loop_forward_playback)
        const double playbackRate = 2.0;
        const std::string testName = "Array_fwd_2_0000_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());     
+        testout.saveOutputFile(outputFile.c_str());     
        memory.begin();           
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -137,10 +133,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_stereo_loop_forward_playback)
        const double playbackRate = 0.7437;
        const std::string testName = "Array_fwd_0_7437_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -174,10 +170,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_stereo_loop_forward_playback)
        const double playbackRate = 1.7437;
        const std::string testName = "Array_fwd_1_7437_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
@ -210,10 +206,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_array_stereo_loop_forward_playback)
        const double playbackRate = 8.7437;
        const std::string testName = "Array_fwd_8_7437_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath+testName+".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        memory.begin();        
        memory.enableInterpolation(true);
        memory.setPlaybackRate(playbackRate);
--- a/third-party/TeensyVariablePlayback/test/audio/output_test.h
+++ b/third-party/TeensyVariablePlayback/test/audio/output_test.h
@ -21,34 +21,33 @@ public:
 	virtual void update(void);
 	void begin(void);
 	static void isr(void);
-	bool saveOutputFile(const char * path, const char* filename){
+	void saveOutputFile(const char* filename){
-		if (num_inputs == 0) return false;
+		if (num_inputs == 0) return;
 		char cwd[500];
 		if (getcwd(cwd, sizeof(cwd)) != NULL) {
 			printf("Current working dir: %s\n", cwd);
 		} else {
 			perror("getcwd() error");
 		}
-		string outputPath = string(cwd) + "/" + string(path);
+		string outputPath = string(cwd) + "/output/";
 		__filesystem::path p(outputPath);
 		if (! __filesystem::exists(p) )
 			__filesystem::create_directories(outputPath);
-		_filePath = outputPath + string(filename);
+		string filePath =  outputPath +  string(filename);
-		std::cout << "saving output audio .wav file to " << _filePath << std::endl;
+		std::cout << "saving output audio .wav file to " << filePath << std::endl;
-		_outputFile.open(_filePath, ios_base::trunc | ios_base::out);
+		_outputFile.open(filePath);
 		if (!_outputFile.is_open()) {
-        	Serial.printf("couldn't open file for recording...%s\n", _filePath.c_str());
+        	Serial.println("couldn't open file for recording...");			
 			return false;	
        } else {
 			_filename = filename;
 			_outputFile.write((char*)test_output_wav_header, 44);
 			_saveToFile = true;			
 			return true;		
 		}
    }
 	void closeOutputfile(uint16_t numChannels) {
 		if (!_saveToFile) return;
 		if (_outputFile.is_open()) {
 			_saveToFile = false;
 			char buf[4];
@ -83,7 +82,6 @@ public:
 	}
 protected:
 	std::ofstream _outputFile;
 	std::string _filePath;
 	static audio_block_t *block_left_1st;
 	static audio_block_t *block_right_1st;
 	static bool update_responsibility;
--- a/third-party/TeensyVariablePlayback/test/audio/wav/test_wav_mono_loop_forward_playback.cpp
+++ b/third-party/TeensyVariablePlayback/test/audio/wav/test_wav_mono_loop_forward_playback.cpp
@ -11,11 +11,6 @@
 BOOST_AUTO_TEST_SUITE(test_audio_wav_mono_loop_forward_playback)
    const uint16_t numberOfChannels = 1;
    const std::string referencePath = "test/resources/reference/";
    const std::string inputPath = "test/resources/input/";
    const std::string outputPath = "output/";
    BOOST_FIXTURE_TEST_CASE(Wav_fwd_1_0000_quadratic_mono_noloop, AudioWavFixture) {
        // GUItool: begin automatically generated code
@ -27,11 +22,11 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_mono_loop_forward_playback)
        const double playbackRate = 1.0;
        const std::string testName = "Wav_fwd_1_0000_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referencePath = "test/resources/reference/";
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-
+        testout.saveOutputFile(outputFile.c_str());
        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
        wave.begin();
        wave.enableInterpolation(true);
@ -63,11 +58,12 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_mono_loop_forward_playback)
        const double playbackRate = 0.5;
        const std::string testName = "Wav_fwd_0_5000_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referencePath = "test/resources/reference/";
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
@ -99,11 +95,12 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_mono_loop_forward_playback)
        const double playbackRate = 2.0;
        const std::string testName = "Wav_fwd_2_0000_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referencePath = "test/resources/reference/";
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());     
+        testout.saveOutputFile(outputFile.c_str());     
        wave.begin();           
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
@ -135,11 +132,12 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_mono_loop_forward_playback)
        const double playbackRate = 0.7437;
        const std::string testName = "Wav_fwd_0_7437_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referencePath = "test/resources/reference/";
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
@ -172,11 +170,12 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_mono_loop_forward_playback)
        const double playbackRate = 1.7437;
        const std::string testName = "Wav_fwd_1_7437_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referencePath = "test/resources/reference/";
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
@ -208,11 +207,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_mono_loop_forward_playback)
        const double playbackRate = 8.7437;
        const std::string testName = "Wav_fwd_8_7437_quadratic_mono_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath + testName + ".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
        SD.setSDCardFolderPath(inputPath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();        
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
--- a/third-party/TeensyVariablePlayback/test/audio/wav/test_wav_stereo_loop_forward_playback.cpp
+++ b/third-party/TeensyVariablePlayback/test/audio/wav/test_wav_stereo_loop_forward_playback.cpp
@ -10,12 +10,9 @@
 BOOST_AUTO_TEST_SUITE(test_audio_wav_stereo_loop_forward_playback)
    const uint16_t numberOfChannels = 2;
    const std::string referencePath = "test/resources/reference/";
    const std::string inputPath = "test/resources/input/";
    const std::string outputPath = "output/";
    const uint16_t numberOfChannels = 2;
    BOOST_FIXTURE_TEST_CASE(Wav_fwd_1_0000_quadratic_stereo_noloop, AudioWavFixture) {
        // GUItool: begin automatically generated code
@ -28,11 +25,11 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_stereo_loop_forward_playback)
        const double playbackRate = 1.0;
        const std::string testName = "Wav_fwd_1_0000_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
@ -64,11 +61,11 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_stereo_loop_forward_playback)
        const double playbackRate = 0.5;
        const std::string testName = "Wav_fwd_0_5000_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();
        wave.enableInterpolation(true);
@ -102,11 +99,10 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_stereo_loop_forward_playback)
        const double playbackRate = 2.0;
        const std::string testName = "Wav_fwd_2_0000_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
-        const std::string referenceFileName = referencePath + testName + ".wav";
+        const std::string referenceFileName = "test/resources/reference/"+testName+".wav";
        SD.setSDCardFolderPath(inputPath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());     
+        testout.saveOutputFile(outputFile.c_str());     
        wave.begin();           
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
@ -139,11 +135,11 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_stereo_loop_forward_playback)
        const double playbackRate = 0.7437;
        const std::string testName = "Wav_fwd_0_7437_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
@ -177,11 +173,11 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_stereo_loop_forward_playback)
        const double playbackRate = 1.7437;
        const std::string testName = "Wav_fwd_1_7437_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
@ -214,11 +210,11 @@ BOOST_AUTO_TEST_SUITE(test_audio_wav_stereo_loop_forward_playback)
        const double playbackRate = 8.7437;
        const std::string testName = "Wav_fwd_8_7437_quadratic_stereo_noloop";
        const std::string outputFile = testName+".wav";
-        const std::string outputFileName = outputPath + outputFile;
+        const std::string outputFileName = "output/" + outputFile;
        const std::string referenceFileName = referencePath + testName + ".wav";
-        SD.setSDCardFolderPath(inputPath);
+        SD.setSDCardFolderPath(referencePath);
-        testout.saveOutputFile(outputPath.c_str(), outputFile.c_str());
+        testout.saveOutputFile(outputFile.c_str());
        wave.begin();        
        wave.enableInterpolation(true);
        wave.setPlaybackRate(playbackRate);
--- a/third-party/TeensyVariablePlayback/test/low_level/array/ResamplingArrayFixture.h
+++ b/third-party/TeensyVariablePlayback/test/low_level/array/ResamplingArrayFixture.h
@ -10,14 +10,14 @@
 struct ResamplingArrayFixture {
    ResamplingArrayFixture()  {
-        resamplingArrayReader = new newdigate::ResamplingArrayReader();
+        resamplingArrayReader = new ResamplingArrayReader();
    }
    ~ResamplingArrayFixture() {
        delete resamplingArrayReader;
    }
-    newdigate::ResamplingArrayReader * resamplingArrayReader;
+    ResamplingArrayReader * resamplingArrayReader;
 };
 #endif //TEENSY_RESAMPLING_SDREADER_RESAMPLINGARRAYFIXTURE_H
--- a/third-party/TeensyVariablePlayback/test/low_level/arraywav/ResamplingArrayWavFixture.h
+++ b/third-party/TeensyVariablePlayback/test/low_level/arraywav/ResamplingArrayWavFixture.h
@ -10,14 +10,14 @@
 struct ResamplingArrayWavFixture {
    ResamplingArrayWavFixture()  {
-        resamplingArrayReader = new newdigate::ResamplingArrayReader();
+        resamplingArrayReader = new ResamplingArrayReader();
    }
    ~ResamplingArrayWavFixture() {
        delete resamplingArrayReader;
    }
-    newdigate::ResamplingArrayReader * resamplingArrayReader;
+    ResamplingArrayReader * resamplingArrayReader;
 };
 #endif //TEENSY_RESAMPLING_SDREADER_RESAMPLINGARRAYWAVFIXTURE_H
--- a/third-party/TeensyVariablePlayback/test/low_level/indexedfile/test_indexablefile.cpp
+++ b/third-party/TeensyVariablePlayback/test/low_level/indexedfile/test_indexablefile.cpp
@ -2,7 +2,7 @@
 #include "IndexedFileFixture.h"
 #include <SD.h>
-#include "IndexableSDFile.h"
+#include "IndexableFile.h"
 BOOST_AUTO_TEST_SUITE(test_indexablefile)
@ -15,7 +15,7 @@ BOOST_AUTO_TEST_SUITE(test_indexablefile)
        }
        SD.setSDCardFileData((char*)file_contents, sample_size * 2);
-        newdigate::IndexableSDFile<16, 2> indexable("blah.h");               // use max 2 buffers, with 16 elements each....
+        newdigate::IndexableFile<16, 2> indexable("blah.h");               // use max 2 buffers, with 16 elements each....
        /*
        for (int i=0; i<sample_size; i++) {
--- a/third-party/TeensyVariablePlayback/test/low_level/sd/ResamplingReaderFixture.h
+++ b/third-party/TeensyVariablePlayback/test/low_level/sd/ResamplingReaderFixture.h
@ -10,14 +10,14 @@
 struct ResamplingReaderFixture {
    ResamplingReaderFixture()  {
-        resamplingSdReader = new newdigate::ResamplingSdReader();
+        resamplingSdReader = new ResamplingSdReader();
    }
    ~ResamplingReaderFixture() {
        delete resamplingSdReader;
    }
-    newdigate::ResamplingSdReader * resamplingSdReader;
+    ResamplingSdReader * resamplingSdReader;
 };
 #endif //TEENSY_RESAMPLING_SDREADER_RESAMPLINGREADERFIXTURE_H
--- a/third-party/TeensyVariablePlayback/test/low_level/sd/test_raw_mono_noloop_forward_double_rate_playback.cpp
+++ b/third-party/TeensyVariablePlayback/test/low_level/sd/test_raw_mono_noloop_forward_double_rate_playback.cpp
@ -18,7 +18,7 @@ BOOST_AUTO_TEST_SUITE(test_raw_mono_noloop_forward_double_rate_playback)
        SD.setSDCardFileData((char *) dataSource, size_of_datasource * 2);
    }
-    void testReadForwardAtDoublePlaybackRate(const uint32_t size_of_datasource, newdigate::ResamplingSdReader *resamplingSdReader) {
+    void testReadForwardAtDoublePlaybackRate(const uint32_t size_of_datasource, ResamplingSdReader *resamplingSdReader) {
        printf("test_raw_mono_noloop_forward_double_rate_playback::testReadForwardAtDoublePlaybackRate(rate:%.2f\tsamples:%d)\n", playBackRate, size_of_datasource);
        int16_t dataSource[size_of_datasource];
--- a/third-party/TeensyVariablePlayback/test/low_level/sd/test_raw_mono_noloop_forward_playback.cpp
+++ b/third-party/TeensyVariablePlayback/test/low_level/sd/test_raw_mono_noloop_forward_playback.cpp
@ -24,7 +24,7 @@ BOOST_AUTO_TEST_SUITE(test_raw_mono_noloop_forward_playback)
        resamplingSdReader->begin();
        resamplingSdReader->setPlaybackRate(1.0);
-        resamplingSdReader->play("test2.bin", false, 1);
+        resamplingSdReader->playRaw("test2.bin", 1);
        resamplingSdReader->setLoopType(looptype_none);
        resamplingSdReader->setInterpolationType(ResampleInterpolationType::resampleinterpolation_quadratic);
        int16_t actual[1024];
--- a/third-party/TeensyVariablePlayback/test/low_level/wav_header/test_parse_wave_header.cpp
+++ b/third-party/TeensyVariablePlayback/test/low_level/wav_header/test_parse_wave_header.cpp
@ -23,8 +23,7 @@ BOOST_AUTO_TEST_SUITE(WaveHeaderParsingTests)
        SD.setSDCardFileData((char*) test_sndhdrdata_sndhdr_wav, test_sndhdrdata_sndhdr_wav_len);
        wav_header header;
-        wav_data_header data_header;
+        bool success = waveHeaderParser->readWaveHeader("blah.wav", header);
        bool success = waveHeaderParser->readWaveHeader("blah.wav", header, data_header);
        BOOST_CHECK_EQUAL(success, true);
        const char expectedRIFF[5] = "RIFF";
        BOOST_CHECK_EQUAL_COLLECTIONS(&header.riff_header[0], &header.riff_header[3],&expectedRIFF[0], &expectedRIFF[3]);
@ -34,7 +33,7 @@ BOOST_AUTO_TEST_SUITE(WaveHeaderParsingTests)
        const char expectedfmt[5] = "fmt ";
        BOOST_CHECK_EQUAL_COLLECTIONS(&header.fmt_header[0], &header.fmt_header[3],&expectedfmt[0], &expectedfmt[3]);
        const char expecteddata[5] = "data";
-        BOOST_CHECK_EQUAL_COLLECTIONS(&data_header.data_header[0], &data_header.data_header[3],&expecteddata[0], &expecteddata[3]);
+        BOOST_CHECK_EQUAL_COLLECTIONS(&header.data_header[0], &header.data_header[3],&expecteddata[0], &expecteddata[3]);
        //BOOST_CHECK_EQUAL(File::numOpenFiles,0);
        //BOOST_CHECK_EQUAL(File::numInstances,0);
    }