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LibDSP
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Track.cpp

Track.cpp 4.1 KB
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  1. /*
    2. 

  2.  * Copyright (c) 2021, kleines Filmröllchen <filmroellchen@serenityos.org>
    3. 

  3.  *
    4. 

  4.  * SPDX-License-Identifier: BSD-2-Clause
    5. 

  5.  */
    6. 

  6. 

  7. #include <AK/FixedArray.h>
    8. 

  8. #include <AK/NoAllocationGuard.h>
    9. 

  9. #include <AK/Optional.h>
    10. 

  10. #include <AK/StdLibExtras.h>
    11. 

  11. #include <AK/TypedTransfer.h>
    12. 

  12. #include <AK/Types.h>
    13. 

  13. #include <LibDSP/Music.h>
    14. 

  14. #include <LibDSP/Processor.h>
    15. 

  15. #include <LibDSP/Track.h>
    16. 

  16. 

  17. namespace DSP {
    18. 

  18. 

  19. bool Track::add_processor(NonnullRefPtr<Processor> new_processor)
    20. 

  20. {
    21. 

  21.     m_processor_chain.append(move(new_processor));
    22. 

  22.     if (!check_processor_chain_valid()) {
    23. 

  23.         (void)m_processor_chain.take_last();
    24. 

  24.         return false;
    25. 

  25.     }
    26. 

  26.     return true;
    27. 

  27. }
    28. 

  28. 

  29. bool Track::check_processor_chain_valid_with_initial_type(SignalType initial_type) const
    30. 

  30. {
    31. 

  31.     Processor const* previous_processor = nullptr;
    32. 

  32.     for (auto& processor : m_processor_chain) {
    33. 

  33.         // The first processor must have the given initial signal type as input.
    34. 

  34.         if (previous_processor == nullptr) {
    35. 

  35.             if (processor.input_type() != initial_type)
    36. 

  36.                 return false;
    37. 

  37.         } else if (previous_processor->output_type() != processor.input_type())
    38. 

  38.             return false;
    39. 

  39.         previous_processor = &processor;
    40. 

  40.     }
    41. 

  41.     return true;
    42. 

  42. }
    43. 

  43. 

  44. bool AudioTrack::check_processor_chain_valid() const
    45. 

  45. {
    46. 

  46.     return check_processor_chain_valid_with_initial_type(SignalType::Sample);
    47. 

  47. }
    48. 

  48. 

  49. bool NoteTrack::check_processor_chain_valid() const
    50. 

  50. {
    51. 

  51.     return check_processor_chain_valid_with_initial_type(SignalType::Note);
    52. 

  52. }
    53. 

  53. 

  54. ErrorOr<void> Track::resize_internal_buffers_to(size_t buffer_size)
    55. 

  55. {
    56. 

  56.     m_secondary_sample_buffer = TRY(FixedArray<Sample>::try_create(buffer_size));
    57. 

  57.     return {};
    58. 

  58. }
    59. 

  59. 

  60. void Track::current_signal(FixedArray<Sample>& output_signal)
    61. 

  61. {
    62. 

  62.     // This is real-time code. We must NEVER EVER EVER allocate.
    63. 

  63.     NoAllocationGuard guard;
    64. 

  64.     VERIFY(output_signal.size() == m_secondary_sample_buffer.get<FixedArray<Sample>>().size());
    65. 

  65. 

  66.     compute_current_clips_signal();
    67. 

  67.     Signal* source_signal = &m_current_signal;
    68. 

  68.     // This provides an audio buffer of the right size. It is not allocated here, but whenever we are informed about a buffer size change.
    69. 

  69.     Signal* target_signal = &m_secondary_sample_buffer;
    70. 

  70. 

  71.     for (auto& processor : m_processor_chain) {
    72. 

  72.         // Depending on what the processor needs to have as output, we need to place either a pre-allocated note hash map or a pre-allocated sample buffer in the target signal.
    73. 

  73.         if (processor.output_type() == SignalType::Note)
    74. 

  74.             target_signal = &m_secondary_note_buffer;
    75. 

  75.         else
    76. 

  76.             target_signal = &m_secondary_sample_buffer;
    77. 

  77.         processor.process(*source_signal, *target_signal);
    78. 

  78.         swap(source_signal, target_signal);
    79. 

  79.     }
    80. 

  80.     VERIFY(source_signal->type() == SignalType::Sample);
    81. 

  81.     VERIFY(output_signal.size() == source_signal->get<FixedArray<Sample>>().size());
    82. 

  82.     // This is one final unavoidable memcopy. Otherwise we need to special-case the last processor or
    83. 

  83.     AK::TypedTransfer<Sample>::copy(output_signal.data(), source_signal->get<FixedArray<Sample>>().data(), output_signal.size());
    84. 

  84. }
    85. 

  85. 

  86. void NoteTrack::compute_current_clips_signal()
    87. 

  87. {
    88. 

  88.     // Consider the entire time duration.
    89. 

  89.     TODO();
    90. 

  90. 

  91.     u32 time = m_transport->time();
    92. 

  92.     // Find the currently playing clip.
    93. 

  93.     NoteClip* playing_clip = nullptr;
    94. 

  94.     for (auto& clip : m_clips) {
    95. 

  95.         if (clip.start() <= time && clip.end() >= time) {
    96. 

  96.             playing_clip = &clip;
    97. 

  97.             break;
    98. 

  98.         }
    99. 

  99.     }
    100. 

  100. 

  101.     auto& current_notes = m_current_signal.get<RollNotes>();
    102. 

  102.     m_current_signal.get<RollNotes>().clear_with_capacity();
    103. 

  103. 

  104.     if (playing_clip == nullptr)
    105. 

  105.         return;
    106. 

  106. 

  107.     // FIXME: performance?
    108. 

  108.     for (auto const& note_list : playing_clip->notes()) {
    109. 

  109.         for (auto const& note : note_list) {
    110. 

  110.             if (note.on_sample >= time && note.off_sample >= time)
    111. 

  111.                 break;
    112. 

  112.             if (note.on_sample <= time && note.off_sample >= time)
    113. 

  113.                 current_notes.set(note.pitch, note);
    114. 

  114.         }
    115. 

  115.     }
    116. 

  116. }
    117. 

  117. 

  118. void AudioTrack::compute_current_clips_signal()
    119. 

  119. {
    120. 

  120.     // This is quite involved as we need to look at multiple clips and take looping into account.
    121. 

  121.     TODO();
    122. 

  122. }
    123. 

  123. 

  124. }
    125.

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