File src/remiaudio/formats/au.cr from the latest check-in


     1
     2
     3
     4
     5
     6
     7
     8
     9
    10
    11
    12
    13
    14
    15
    16
    17
    18
    19
    20
    21
    22
    23
    24
    25
    26
    27
    28
    29
    30
    31
    32
    33
    34
    35
    36
    37
    38
    39
    40
    41
    42
    43
    44
    45
    46
    47
    48
    49
    50
    51
    52
    53
    54
    55
    56
    57
    58
    59
    60
    61
    62
    63
    64
    65
    66
    67
    68
    69
    70
    71
    72
    73
    74
    75
    76
    77
    78
    79
    80
    81
    82
    83
    84
    85
    86
    87
    88
    89
    90
    91
    92
    93
    94
    95
    96
    97
    98
    99
   100
   101
   102
   103
   104
   105
   106
   107
   108
   109
   110
   111
   112
   113
   114
   115
   116
   117
   118
   119
   120
   121
   122
   123
   124
   125
   126
   127
   128
   129
   130
   131
   132
   133
   134
   135
   136
   137
   138
   139
   140
   141
   142
   143
   144
   145
   146
   147
   148
   149
   150
   151
   152
   153
   154
   155
   156
   157
   158
   159
   160
   161
   162
   163
   164
   165
   166
   167
   168
   169
   170
   171
   172
   173
   174
   175
   176
   177
   178
   179
   180
   181
   182
   183
   184
   185
   186
   187
   188
   189
   190
   191
   192
   193
   194
   195
   196
   197
   198
   199
   200
   201
   202
   203
   204
   205
   206
   207
   208
   209
   210
   211
   212
   213
   214
   215
   216
   217
   218
   219
   220
   221
   222
   223
   224
   225
   226
   227
   228
   229
   230
   231
   232
   233
   234
   235
   236
   237
   238
   239
   240
   241
   242
   243
   244
   245
   246
   247
   248
   249
   250
   251
   252
   253
   254
   255
   256
   257
   258
   259
   260
   261
   262
   263
   264
   265
   266
   267
   268
   269
   270
   271
   272
   273
   274
   275
   276
   277
   278
   279
   280
   281
   282
   283
   284
   285
   286
   287
   288
   289
   290
   291
   292
   293
   294
   295
   296
   297
   298
   299
   300
   301
   302
   303
   304
   305
   306
   307
   308
   309
   310
   311
   312
   313
   314
   315
   316
   317
   318
   319
   320
   321
   322
   323
   324
   325
   326
   327
   328
   329
   330
   331
   332
   333
   334
   335
   336
   337
   338
   339
   340
   341
   342
   343
   344
   345
   346
   347
   348
   349
   350
   351
   352
   353
   354
   355
   356
   357
   358
   359
   360
   361
   362
   363
   364
   365
   366
   367
   368
   369
   370
   371
   372
   373
   374
   375
   376
   377
   378
   379
   380
   381
   382
   383
   384
   385
   386
   387
   388
   389
   390
   391
   392
   393
   394
   395
   396
   397
   398
   399
   400
   401
   402
   403
   404
   405
   406
   407
   408
   409
   410
   411
   412
   413
   414
   415
   416
   417
   418
   419
   420
   421
   422
   423
   424
   425
   426
   427
   428
   429
   430
   431
   432
   433
   434
   435
   436
   437
   438
   439
   440
   441
   442
   443
   444
   445
   446
   447
   448
   449
   450
   451
   452
   453
   454
   455
   456
   457
   458
   459
   460
   461
   462
   463
   464
   465
   466
   467
   468
   469
   470
   471
   472
   473
   474
   475
   476
   477
   478
   479
   480
   481
   482
   483
   484
   485
   486
   487
   488
   489
   490
   491
   492
   493
   494
   495
   496
   497
   498
   499
   500
   501
   502
   503
   504
   505
   506
   507
   508
   509
   510
   511
   512
   513
   514
   515
   516
   517
   518
   519
   520
   521
   522
   523
   524
   525
   526
   527
   528
   529
   530
   531
   532
   533
   534
   535
   536
   537
   538
   539
   540
   541
   542
   543
   544
   545
   546
   547
   548
   549
   550
   551
   552
   553
   554
   555
   556
   557
   558
   559
   560
   561
   562
   563
   564
   565
   566
   567
   568
   569
   570
   571
   572
   573
   574
   575
   576
   577
   578
   579
   580
   581
   582
   583
   584
   585
   586
   587
   588
   589
   590
   591
   592
   593
   594
   595
   596
   597
   598
   599
   600
   601
   602
   603
   604
   605
   606
   607
   608
   609
   610
   611
   612
   613
   614
   615
   616
   617
   618
   619
   620
   621
   622
   623
   624
   625
   626
   627
   628
#### RemiAudio
#### Copyright (C) 2022-2024 Remilia Scarlet <remilia@posteo.jp>
####
#### This program is free software: you can redistribute it and/or modify it
#### under the terms of the GNU Affero General Public License as published by
#### the Free Software Foundation, either version 3 of the License, or (at your
#### option) any later version.
####
#### This program is distributed in the hope that it will be useful, but WITHOUT
#### ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
#### FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Affero General Public
#### License for more details.
####
#### You should have received a copy of the GNU Affero General Public License
#### along with this program.  If not, see <https://www.gnu.org/licenses/>.
require "./audiofile"

module RemiAudio::Formats
  ###
  ### Constants
  ###

  # :nodoc:
  AU_MAGIC = ".snd"

  # The minimum supported sample rate for Au files.
  AU_MIN_SAMPLE_RATE = 8000

  # The maximum supported sample rate for Au files.
  AU_MAX_SAMPLE_RATE = 352800

  # The minimum supported number of channels for Au files.
  AU_MIN_CHANNELS = 1

  # The maximum supported number of channels for Au files.
  AU_MAX_CHANNELS = 2

  # An array of all the bit depths in Au files that are supported by this
  # library for integer samples.
  AU_SUPPORTED_INT_BIT_DEPTHS = [8, 16, 24, 32, 64]

  # An array of all the bit depths in Au files that are supported by this
  # library for float samples.
  AU_SUPPORTED_FLOAT_BIT_DEPTHS = [32, 64]

  ###
  ### Enumerations
  ###

  # The supported encodings for an Au file.
  enum AuEncoding

    # µLaw encoded samples.
    MuLaw = 1

    # 8-bit signed linear PCM samples
    Lpcm8bit

    # 16-bit signed linear PCM samples
    Lpcm16bit

    # 24-bit signed linear PCM samples
    Lpcm24bit

    # 32-bit signed linear PCM samples
    Lpcm32bit

    # 32-bit IEEE Float samples
    Float32

    # 64-bit IEEE Float samples
    Float64

    # ALaw encoded samples.
    ALaw = 27

    def self.from_value(value : Int) : self
      from_value?(value) || raise UnsupportedEncodingError.new("Unsupported Au encoding")
    end

    # Gets the `SampleFormat` that describes this encoding.  If this is an
    # encoding that does not describe a PCM/Float encoding, or an encoding not
    # directly supported by RemiAudio, this raises an
    # `UnsupportedEncodingError`.
    @[AlwaysInline]
    def toSampleFormat : SampleFormat
      self.toSampleFormat? || raise UnsupportedEncodingError.new("Cannot represents #{self} as a SampleFormat")
    end

    # Attempts to get the `SampleFormat` that describes this encoding, or
    # `nil` if it's a non PCM/Float encoding, or an encoding not directly
    # supported by RemiAudio.
    @[AlwaysInline]
    def toSampleFormat? : SampleFormat?
      case self
      when .lpcm8bit?  then SampleFormat::I8
      when .lpcm16bit? then SampleFormat::I16
      when .lpcm24bit? then SampleFormat::I24
      when .lpcm32bit? then SampleFormat::I32
      when .float32?   then SampleFormat::F32
      when .float64?   then SampleFormat::F64
      else nil
      end
    end

    # Returns the bit depth for a single sample using this encoding.
    @[AlwaysInline]
    def getBitDepth : UInt8
      case self
      in .lpcm8bit?, .mu_law?, .a_law? then 8u8
      in .lpcm16bit? then 16u8
      in .lpcm24bit? then 24u8
      in .lpcm32bit?, .float32? then 32u8
      in .float64? then 64u8
      end
    end

    # Returns the size in bytes for a single sample using this encoding.
    @[AlwaysInline]
    def getByteSize : Int32
      case self
      in .lpcm8bit?, .mu_law?, .a_law? then 1
      in .lpcm16bit? then 2
      in .lpcm24bit?, .lpcm32bit?, .float32? then 4
      in .float64? then 8
      end
    end

    # Returns the value to use when converting a value in this encoding to a
    # `::Float64`, or `nil` if converting from this encoding is not supported.
    def getFloat64Div? : Float64?
      {% begin %}
        case self
        when .lpcm8bit?  then ::Int8::MAX.to_f64!
        when .lpcm16bit? then ::Int16::MAX.to_f64!
        when .lpcm24bit? then ({{ (2.0 ** 23) - 1 }}).to_f64!
        when .lpcm32bit? then ::Int32::MAX.to_f64!
        when .float32?   then 1.0
        when .float64?   then 1.0
        else nil
        end
      {% end %}
    end

    # Returns the value to use when converting a value in this encoding to a
    # `::Float32`, or `nil` if converting from this encoding is not supported.
    def getFloat32Div? : Float32?
      {% begin %}
        case self
        when .lpcm8bit?  then ::Int8::MAX.to_f32!
        when .lpcm16bit? then ::Int16::MAX.to_f32!
        when .lpcm24bit? then ({{ (2.0 ** 23) - 1 }}).to_f32!
        when .lpcm32bit? then ::Int32::MAX.to_f32!
        when .float32?   then 1.0f32
        when .float64?   then 1.0f32
        else nil
        end
      {% end %}
    end

    # Returns the value to use when converting a value in this encoding to a
    # `::Float64`.  This will raise an `UnsupportedEncodingError` if converting
    # from this encoding is not supported.
    @[AlwaysInline]
    def getFloat64Div : Float64
      getFloat64Div? ||
        raise UnsupportedEncodingError.new("This Au encoding is currently unsupported by this library: #{self}")
    end

    # Returns the value to use when converting a value in this encoding to a
    # `::Float32`.  This will raise an `UnsupportedEncodingError` if converting
    # from this encoding is not supported.
    @[AlwaysInline]
    def getFloat32Div : Float32
      getFloat32Div? ||
        raise UnsupportedEncodingError.new("This Au encoding is currently unsupported by this library: #{self}")
    end

    # Checks that *array* is the correct type for this encoding.  If it is, this
    # returns `true`, otherwise it returns `false`.
    @[AlwaysInline]
    def checkArray(array : SampleData) : Bool
      case self
      in .mu_law?, .a_law? then array.is_a?(Array(::Int8))
      in .lpcm8bit? then array.is_a?(Array(::Int8))
      in .lpcm16bit? then array.is_a?(Array(::Int16))
      in .lpcm24bit? then array.is_a?(Array(::Int32))
      in .lpcm32bit? then array.is_a?(Array(::Int32))
      in .float32? then array.is_a?(Array(::Float32))
      in .float64? then array.is_a?(Array(::Float64))
      end
    end

    # Creates a new array of the given size that is appropriate for this
    # encoding.
    @[AlwaysInline]
    def makeArray(size : Int32) : SampleData
      case self
      in .mu_law?, .a_law? then Array(UInt8).new(size, 0u8).as(SampleData)
      in .lpcm8bit? then  Array(Int8).new(size, 0i8).as(SampleData)
      in .lpcm16bit? then Array(Int16).new(size, 0i16).as(SampleData)
      in .lpcm24bit?, .lpcm32bit? then Array(Int32).new(size, 0i32).as(SampleData)
      in .float32? then Array(::Float32).new(size, 0.0f32).as(SampleData)
      in .float64? then Array(::Float64).new(size, 0.0f64).as(SampleData)
      end
    end
  end

  ##############################################################################
  ###
  ### AuFile Class
  ###

  # A virtual representation of an Au file (.au/.snd).
  #
  # Au files originated from Sun and store data in liner PCM, IEEE Float, µLaw,
  # or ALaw format.  Their data is stored in big endian format.
  #
  # The official specification supports more encodings, some of which are
  # specific to certain platforms.  This library does not support these.  See
  # `AuEncoding` for a list of supported encodings.
  class AuFile < AudioFile
    # The `AuEncoding` that the samples in this instance uses.
    getter encoding : AuEncoding = AuEncoding::Lpcm16bit

    # The annotation string for this instance, or `nil` if there is none.
    getter note : String?

    # Creates a new, blank `AuFile` that is backed by a fresh `::IO::Memory`.
    # This will immediately write a skeleton Au header into `#io`
    def initialize(*, @sampleRate : UInt32 = 44100u32, @channels : UInt32 = 2u32,
                   @encoding : AuEncoding = AuEncoding::Lpcm16bit, @note : String? = nil)
      @bitDepth = @encoding.getBitDepth
      @blockSize = @encoding.getByteSize.to_u16
      checkInternalValues
      assignFuncs

      @io = IO::Memory.new(0)
      @origIoPos = 0

      # Write the header
      writeHeader
    end

    # Creates a new, blank `AuFile` that is backed by the given `::IO`.  This
    # will immediately write a skeleton Au header into *io*.
    def initialize(@io : IO, *, @sampleRate : UInt32 = 44100u32, @channels : UInt32 = 2u32,
                   @encoding : AuEncoding = AuEncoding::Lpcm16bit, @note : String? = nil)
      @bitDepth = @encoding.getBitDepth
      @blockSize = @encoding.getByteSize.to_u16
      checkInternalValues
      assignFuncs

      @origIoPos = @io.pos.to_u64!

      # Write the header
      writeHeader
    end

    protected def initialize(*, _fromIo : IO)
      @io = _fromIo
      @origIoPos = @io.pos.to_u64
      readHeader
      checkInternalValues
      assignFuncs
      @io.pos = @dataStartsAt
    end

    # Creates a new `AuFile` by reading the existing Au data from *io*.  Samples
    # will be streamed from *io* as needed.
    def self.open(io : IO) : AuFile
      AuFile.new(_fromIo: io)
    end

    # Creates a new `AuFile` by reading the existing Au data from *io*, then
    # yields it to the block.  Samples will be streamed from *io* as needed.
    # This will **NOT** automatically close the `AuFile` before returning in
    # case you have passed an *io* that cannot does not support writing.
    def self.open(io : IO, &)
      au = AuFile.open(io)
      yield au
    end

    # Creates a new `AuFile` by reading the existing Au data from the given
    # file.  The file is always opened with the mode `"r+b"`.  Samples will be
    # streamed from the file as needed.
    def self.open(filename : Path|String) : AuFile
      AuFile.new(_fromIo: File.open(filename, "r+b"))
    end

    # Creates a new `AuFile` by reading the existing Au data from the file, then
    # yields it to the block.  The file is always opened with the mode `"r+b"`.
    # Samples will be streamed from *io* as needed.  This **will** automatically
    # close the `AuFile` and underlying `::IO` before returning.
    def self.open(filename : Path|String, &)
      au = AuFile.open(filename)
      yield au
    ensure
      au.try &.close
    end

    # Creates a new `AuFile` that that is backed by *io* and returns the new
    # instance.  A skeleton Au header data is immediately written into *io*.
    def self.create(io : IO, *, sampleRate : Int = 44100, channels : Int = 2,
                    encoding : AuEncoding = AuEncoding::Lpcm16bit, note : String? = nil) : AuFile
      AuFile.new(io, sampleRate: sampleRate.to_u32, channels: channels.to_u32, encoding: encoding, note: note)
    end

    # Creates a new `AuFile` that that is backed by *io* and yields the new
    # instance to the block.  A skeleton Au header data is immediately written
    # into *io*.  The `AuFile` instance will be flushed and closed once the
    # block exits.
    def self.create(io : IO, *, sampleRate : Int = 44100, channels : Int = 2,
                    encoding : AuEncoding = AuEncoding::Lpcm16bit, note : String? = nil, &) : AuFile
      au = AuFile.new(io, sampleRate: sampleRate.to_u32, channels: channels.to_u32, encoding: encoding, note: note)
      yield au
    ensure
      au.try &.flush
      au.try &.close
    end

    # Creates a new `AuFile` that is backed by a new file on disk.
    #
    # This always opens the file with the mode `"w+b"` (i.e. existing files are
    # overwritten/truncated).  A skeleton Au header data is immediately written
    # into the file.
    def self.create(filename : Path|String, *, sampleRate : Int = 44100, channels : Int = 2,
                    encoding : AuEncoding = AuEncoding::Lpcm16bit, note : String? = nil) : AuFile
      file = File.open(filename, "w+b")
      begin
        AuFile.new(file, sampleRate: sampleRate.to_u32, channels: channels.to_u32, encoding: encoding, note: note)
      rescue err : Exception
        file.try &.close
        raise err
      end
    end

    # Creates a new `AuFile` that is backed by a new file on disk, then yields
    # it to the block.  This automatically closes the `AuFile` and the
    # underlying file before the block returns.
    #
    # This always opens the file with the mode `"w+b"` (i.e. existing files are
    # overwritten/truncated).  A skeleton Au header data is immediately written
    # into the file.
    def self.create(filename : Path|String, *, sampleRate : Int = 44100, channels : Int = 2,
                    encoding : AuEncoding = AuEncoding::Lpcm16bit, note : String? = nil, &)
      file = File.open(filename, "w+b")
      begin
        au = AuFile.new(file, sampleRate: sampleRate.to_u32, channels: channels.to_u32, encoding: encoding, note: note)
        begin
          yield au
        ensure
          au.close
        end
      rescue err : Exception
        file.try &.close
        raise err
      end
    end

    ##############################################################################

    # Checks that the internal values are consistent.
    protected def checkInternalValues : Nil
      case @encoding
      when .mu_law?, .a_law?
        raise AudioFileError.new("Bad bit depth for µLaw/ALaw encoding") unless @bitDepth == 8
      when .lpcm8bit?
        raise AudioFileError.new("Bad bit depth for 8-bit LPCM encoding") unless @bitDepth == 8
      when .lpcm16bit?
        raise AudioFileError.new("Bad bit depth for 16-bit LPCM encoding") unless @bitDepth == 16
      when .lpcm24bit?
        raise AudioFileError.new("Bad bit depth for 24-bit LPCM encoding") unless @bitDepth == 24
      when .lpcm32bit?
        raise AudioFileError.new("Bad bit depth for 32-bit LPCM encoding") unless @bitDepth == 32
      when .float32?
        raise AudioFileError.new("Bad bit depth for 32-bit float encoding") unless @bitDepth == 32
      when .float64?
        raise AudioFileError.new("Bad bit depth for 64-bit float encoding") unless @bitDepth == 64
      else
        raise UnsupportedEncodingError.new("This Au encoding is currently unsupported by this library")
      end

      # Check some values
      unless @sampleRate >= AU_MIN_SAMPLE_RATE && @sampleRate <= AU_MAX_SAMPLE_RATE
        raise AudioFileError.new("Unsupported sample rate: #{@sampleRate}")
      end

      unless @channels >= AU_MIN_CHANNELS && @channels <= AU_MAX_CHANNELS
        raise AudioFileError.new("Unsupported number of channels: #{@channels}")
      end
    end

    # Assigns the internal functions according to our encoding.
    protected def assignFuncs : Nil
      case @encoding
      in .lpcm8bit?
        @sampleReadFn = ->fastReadSampleInt8
        @samplesReadFn = ->fastReadSamplesInt8(SampleData)
        @sampleWriteFn = ->fastWriteSampleInt8(Sample)
        @samplesWriteFn = ->fastWriteSamplesInt8(SampleData)
        @sampleToF64Fn = ->int8ToF64(Sample)
        @f64ToSampleFn = ->f64ToInt8(Float64)
        @sampleToF32Fn = ->int8ToF32(Sample)
        @f32ToSampleFn = ->f32ToInt8(Float32)
      in .lpcm16bit?
        @sampleReadFn = ->fastReadSampleInt16BE
        @samplesReadFn = ->fastReadSamplesInt16BE(SampleData)
        @sampleWriteFn = ->fastWriteSampleInt16BE(Sample)
        @samplesWriteFn = ->fastWriteSamplesInt16BE(SampleData)
        @sampleToF64Fn = ->int16ToF64(Sample)
        @f64ToSampleFn = ->f64ToInt16(Float64)
        @sampleToF32Fn = ->int16ToF32(Sample)
        @f32ToSampleFn = ->f32ToInt16(Float32)
      in .lpcm24bit?
        @sampleReadFn = ->fastReadSampleInt24BEFourByte
        @samplesReadFn = ->fastReadSamplesInt24BEFourByte(SampleData)
        @sampleWriteFn = ->fastWriteSampleInt24BEFourByte(Sample)
        @samplesWriteFn = ->fastWriteSamplesInt24BEFourByte(SampleData)
        @sampleToF64Fn = ->int24ToF64(Sample)
        @f64ToSampleFn = ->f64ToInt24(Float64)
        @sampleToF32Fn = ->int24ToF32(Sample)
        @f32ToSampleFn = ->f32ToInt24(Float32)
      in .lpcm32bit?
        @sampleReadFn = ->fastReadSampleInt32BE
        @samplesReadFn = ->fastReadSamplesInt32BE(SampleData)
        @sampleWriteFn = ->fastWriteSampleInt32BE(Sample)
        @samplesWriteFn = ->fastWriteSamplesInt32BE(SampleData)
        @sampleToF64Fn = ->int32ToF64(Sample)
        @f64ToSampleFn = ->f64ToInt32(Float64)
        @sampleToF32Fn = ->int32ToF32(Sample)
        @f32ToSampleFn = ->f32ToInt32(Float32)
      in .float32?
        @sampleReadFn = ->fastReadSampleFloat32BE
        @samplesReadFn = ->fastReadSamplesFloat32BE(SampleData)
        @sampleWriteFn = ->fastWriteSampleFloat32BE(Sample)
        @samplesWriteFn = ->fastWriteSamplesFloat32BE(SampleData)
        @sampleToF64Fn = ->float32ToF64(Sample)
        @f64ToSampleFn = ->f64ToFloat32(Float64)
        @sampleToF32Fn = ->float32ToF32(Sample)
        @f32ToSampleFn = ->f32ToFloat32(Float32)
      in .float64?
        @sampleReadFn = ->fastReadSampleFloat64BE
        @samplesReadFn = ->fastReadSamplesFloat64BE(SampleData)
        @sampleWriteFn = ->fastWriteSampleFloat64BE(Sample)
        @samplesWriteFn = ->fastWriteSamplesFloat64BE(SampleData)
        @sampleToF64Fn = ->float64ToF64(Sample)
        @f64ToSampleFn = ->f64ToFloat64(Float64)
        @sampleToF32Fn = ->float32ToF32(Sample)
        @f32ToSampleFn = ->f32ToFloat32(Float32)
      in .mu_law?, .a_law?
        @sampleReadFn = ->fastReadSampleUInt8
        @samplesReadFn = ->fastReadSamplesUInt8(SampleData)
        @sampleWriteFn = ->fastWriteSampleUInt8(Sample)
        @samplesWriteFn = ->fastWriteSamplesUInt8(SampleData)
        @sampleToF64Fn = ->AudioFile.cannotConvertToFloat64(Sample)
        @f64ToSampleFn = ->AudioFile.cannotConvertToSample(Float64)
        @sampleToF32Fn = ->AudioFile.cannotConvertToFloat32(Sample)
        @f32ToSampleFn = ->AudioFile.cannotConvertToSample(Float32)
      end
    end

    # Reads the header data.
    protected def readHeader : Nil
      # Read the magic bytes and check that it's an Au file.
      unless @io.read_string(AU_MAGIC.size) == AU_MAGIC
        raise AudioFileError.new("Not an Au file")
      end

      # Read the rest of the header information.  Note that Au files use big
      # endian throughout.
      @dataStartsAt = @io.readUInt32.byte_swap.to_u64!
      @dataSizeInBytes = @io.readUInt32.byte_swap.to_u64!
      @encoding = AuEncoding.from_value(@io.readUInt32.byte_swap)
      @sampleRate = @io.readUInt32.byte_swap
      @channels = @io.readUInt32.byte_swap

      # Set bit depth and get the block size
      @bitDepth = @encoding.getBitDepth
      @blockSize = @encoding.getByteSize.to_u16

      # Read the annotation, if any.  If there is no annotation, then this field
      # will simply be four zero bytes.
      initialChar = @io.readUInt32
      unless initialChar == 0
        # There is an annotation we need to read.  We have the first four bytes
        # already. But it may be three bytes or less.
        @note = case
                when ((initialChar & 0xFF000000) >> 24) == 0
                  # Odd case, empty string, ignore junk bytes after
                  ""

                when ((initialChar & 0x00FF0000) >> 16) == 0
                  # Single character
                  String.build { |str| str.write_byte(((initialChar & 0xFF000000) >> 24).to_u8!) }

                when ((initialChar & 0x0000FF00) >> 8) == 0
                  # Two characters
                  String.build do |str|
                    str.write_byte(((initialChar & 0xFF000000) >> 24).to_u8!)
                    str.write_byte(((initialChar & 0x00FF0000) >> 16).to_u8!)
                  end

                when (initialChar & 0x000000FF) == 0
                  # Three characters
                  String.build do |str|
                    str.write_byte(((initialChar & 0xFF000000) >> 24).to_u8!)
                    str.write_byte(((initialChar & 0x00FF0000) >> 16).to_u8!)
                    str.write_byte(((initialChar & 0x0000FF00) >> 8).to_u8!)
                  end

                else
                  # Read a full null-terminated string that is four bytes or more.
                  String.build do |str|
                    # Write the first four bytes we already have
                    str.write_byte(((initialChar & 0xFF000000) >> 24).to_u8!)
                    str.write_byte(((initialChar & 0x00FF0000) >> 16).to_u8!)
                    str.write_byte(((initialChar & 0x0000FF00) >> 8).to_u8!)
                    str.write_byte( (initialChar & 0x000000FF).to_u8!)

                    # Write more bytes until we hit null.
                    while (byte = @io.readUInt8) != 0
                      str.write_byte(byte)
                    end
                  end
                end
      end

      # Determine the number of samples we have.
      @numSamples = @dataSizeInBytes.to_u64.tdiv(@blockSize)
      raise AudioFileError.new("Bad number of samples, some are missing") unless @numSamples % @channels == 0
    end

    # Writes the header data.
    protected def writeHeader : Nil
      @io << AU_MAGIC
      @io.writeUInt32BE(69u32) # Temporary value for data offset
      @io.writeUInt32BE(0xFFFFFFFF_u32) # Temporary value for data size in bytes
      @io.writeUInt32BE(@encoding.value.to_u32)
      @io.writeUInt32BE(@sampleRate)
      @io.writeUInt32BE(@channels.to_u32!)

      if @note && !@note.not_nil!.empty?
        str = @note.not_nil!
        @io << str

        if str.size < 4
          (4 - str.size).times { |_| @io.write_byte(0) }
        else
          @io.write_byte(0)
        end
      else
        @io.writeUInt32BE(0u32)
      end

      @io.flush # Needed for the pos below to work right
      @dataStartsAt = @io.pos.to_u64
    end

    # Flushes the stream, then adjusts the header data with the correct data
    # size and offset.
    protected def finishHeader : Nil
      raise AudioFileError.new("Bad number of samples, some are missing") unless @numSamples % @channels == 0
      @io.flush
      @io.withExcursion(4) do
        @io.writeUInt32BE(@dataStartsAt.to_u32) # Data offset

        finalNumBytes : UInt32 = 0u32
        begin
          finalNumBytes = (@numSamples * @blockSize).to_u32
          @io.writeUInt32BE(finalNumBytes) # Data size in bytes
        rescue ::OverflowError
          raise AudioFileError.new("Too many samples for an Au file")
        end
      end
    end

    ##############################################################################

    # :inherited:
    def sampleFormat : SampleFormat
      @encoding.toSampleFormat || raise AudioFileError.new("Cannot represent encoding #{@encoding} as a SampleFormat")
    end

    # :inherited:
    def read(dest : Array(Float64)) : Int32
      temp : SampleData = @encoding.makeArray(dest.size)
      num : Int32 = readSamples(temp)
      num.times do |i|
        dest[i] = @sampleToF64Fn.call(temp[i])
      end
      num
    end

    # :inherited:
    def read(dest : Array(Float32)) : Int32
      temp : SampleData = @encoding.makeArray(dest.size)
      num : Int32 = readSamples(temp)
      num.times do |i|
        dest[i] = @sampleToF32Fn.call(temp[i])
      end
      num
    end

    # :inherited:
    def readSamplesToEnd : SampleData
      curSample = self.pos
      toRead : UInt64 = @numSamples - curSample
      ret : SampleData = @encoding.makeArray(toRead.to_i32)
      @samplesReadFn.call(ret)
      ret
    end

    # :inherited:
    def flush : Nil
      return unless @changed
      finishHeader
      @io.flush
    end

    def copyTo(dest : IO) : Nil
      flush
      @io.withExcursion(@origIoPos) do
        IO.copy(@io, dest)
      end
    end
  end
end