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view DPF-Prymula-audioplugins/dpf/distrho/src/travesty/audio_processor.h @ 10:4dc186728822
immposiblerush-0.230919-2
author | prymula <prymula76@outlook.com> |
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date | Sun, 04 Feb 2024 23:27:00 +0100 |
parents | 84e66ea83026 |
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/* * travesty, pure C VST3-compatible interface * Copyright (C) 2021-2022 Filipe Coelho <falktx@falktx.com> * * Permission to use, copy, modify, and/or distribute this software for any purpose with * or without fee is hereby granted, provided that the above copyright notice and this * permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD * TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN * NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #pragma once #include "base.h" #include "events.h" #include "align_push.h" /** * speakers */ typedef uint64_t v3_speaker_arrangement; enum { V3_SPEAKER_L = 1 << 0, V3_SPEAKER_R = 1 << 1, V3_SPEAKER_C = 1 << 2, V3_SPEAKER_LFE = 1 << 3, V3_SPEAKER_LS = 1 << 4, V3_SPEAKER_RS = 1 << 5, V3_SPEAKER_LC = 1 << 6, V3_SPEAKER_RC = 1 << 7, V3_SPEAKER_S = 1 << 8, V3_SPEAKER_SL = 1 << 9, V3_SPEAKER_SR = 1 << 10, V3_SPEAKER_TC = 1 << 11, V3_SPEAKER_TFL = 1 << 12, V3_SPEAKER_TFC = 1 << 13, V3_SPEAKER_TFR = 1 << 14, V3_SPEAKER_TRL = 1 << 15, V3_SPEAKER_TRC = 1 << 16, V3_SPEAKER_TRR = 1 << 17, V3_SPEAKER_LFE2 = 1 << 18, V3_SPEAKER_M = 1 << 19 }; /** * process setup */ enum v3_process_mode { V3_REALTIME, V3_PREFETCH, V3_OFFLINE }; static inline const char* v3_process_mode_str(int32_t d) { switch (d) { case V3_REALTIME: return "V3_REALTIME"; case V3_PREFETCH: return "V3_PREFETCH"; case V3_OFFLINE: return "V3_OFFLINE"; default: return "[unknown]"; } } enum { V3_SAMPLE_32, V3_SAMPLE_64 }; static inline const char* v3_sample_size_str(int32_t d) { switch (d) { case V3_SAMPLE_32: return "V3_SAMPLE_32"; case V3_SAMPLE_64: return "V3_SAMPLE_64"; default: return "[unknown]"; } } struct v3_process_setup { int32_t process_mode; int32_t symbolic_sample_size; int32_t max_block_size; double sample_rate; }; /** * param changes */ struct v3_param_value_queue { #ifndef __cplusplus struct v3_funknown; #endif v3_param_id (V3_API* get_param_id)(void* self); int32_t (V3_API* get_point_count)(void* self); v3_result (V3_API* get_point)(void* self, int32_t idx, int32_t* sample_offset, double* value); v3_result (V3_API* add_point)(void* self, int32_t sample_offset, double value, int32_t* idx); }; static constexpr const v3_tuid v3_param_value_queue_iid = V3_ID(0x01263A18, 0xED074F6F, 0x98C9D356, 0x4686F9BA); struct v3_param_changes { #ifndef __cplusplus struct v3_funknown; #endif int32_t (V3_API* get_param_count)(void* self); struct v3_param_value_queue** (V3_API* get_param_data)(void* self, int32_t idx); struct v3_param_value_queue** (V3_API* add_param_data)(void* self, v3_param_id* id, int32_t* index); }; static constexpr const v3_tuid v3_param_changes_iid = V3_ID(0xA4779663, 0x0BB64A56, 0xB44384A8, 0x466FEB9D); /** * process context */ struct v3_frame_rate { uint32_t fps; uint32_t flags; }; struct v3_chord { uint8_t key_note; uint8_t root_note; int16_t chord_mask; }; enum { V3_PROCESS_CTX_PLAYING = 1 << 1, V3_PROCESS_CTX_CYCLE_ACTIVE = 1 << 2, V3_PROCESS_CTX_RECORDING = 1 << 3, V3_PROCESS_CTX_SYSTEM_TIME_VALID = 1 << 8, V3_PROCESS_CTX_PROJECT_TIME_VALID = 1 << 9, V3_PROCESS_CTX_TEMPO_VALID = 1 << 10, V3_PROCESS_CTX_BAR_POSITION_VALID = 1 << 11, V3_PROCESS_CTX_CYCLE_VALID = 1 << 12, V3_PROCESS_CTX_TIME_SIG_VALID = 1 << 13, V3_PROCESS_CTX_SMPTE_VALID = 1 << 14, V3_PROCESS_CTX_NEXT_CLOCK_VALID = 1 << 15, V3_PROCESS_CTX_CONT_TIME_VALID = 1 << 17, V3_PROCESS_CTX_CHORD_VALID = 1 << 18 }; struct v3_process_context { uint32_t state; double sample_rate; int64_t project_time_in_samples; // with loop int64_t system_time_ns; int64_t continuous_time_in_samples; // without loop double project_time_quarters; double bar_position_quarters; double cycle_start_quarters; double cycle_end_quarters; double bpm; int32_t time_sig_numerator; int32_t time_sig_denom; struct v3_chord chord; int32_t smpte_offset_subframes; struct v3_frame_rate frame_rate; int32_t samples_to_next_clock; }; /** * process context requirements */ enum { V3_PROCESS_CTX_NEED_SYSTEM_TIME = 1 << 0, V3_PROCESS_CTX_NEED_CONTINUOUS_TIME = 1 << 1, V3_PROCESS_CTX_NEED_PROJECT_TIME = 1 << 2, V3_PROCESS_CTX_NEED_BAR_POSITION = 1 << 3, V3_PROCESS_CTX_NEED_CYCLE = 1 << 4, V3_PROCESS_CTX_NEED_NEXT_CLOCK = 1 << 5, V3_PROCESS_CTX_NEED_TEMPO = 1 << 6, V3_PROCESS_CTX_NEED_TIME_SIG = 1 << 7, V3_PROCESS_CTX_NEED_CHORD = 1 << 8, V3_PROCESS_CTX_NEED_FRAME_RATE = 1 << 9, V3_PROCESS_CTX_NEED_TRANSPORT_STATE = 1 << 10 }; struct v3_process_context_requirements { #ifndef __cplusplus struct v3_funknown; #endif uint32_t (V3_API* get_process_context_requirements)(void* self); }; static constexpr const v3_tuid v3_process_context_requirements_iid = V3_ID(0x2A654303, 0xEF764E3D, 0x95B5FE83, 0x730EF6D0); /** * process data and context */ struct v3_audio_bus_buffers { int32_t num_channels; uint64_t channel_silence_bitset; union { float** channel_buffers_32; double** channel_buffers_64; }; }; struct v3_process_data { int32_t process_mode; int32_t symbolic_sample_size; int32_t nframes; int32_t num_input_buses; int32_t num_output_buses; struct v3_audio_bus_buffers* inputs; struct v3_audio_bus_buffers* outputs; struct v3_param_changes** input_params; struct v3_param_changes** output_params; struct v3_event_list** input_events; struct v3_event_list** output_events; struct v3_process_context* ctx; }; /** * audio processor */ struct v3_audio_processor { #ifndef __cplusplus struct v3_funknown; #endif v3_result (V3_API* set_bus_arrangements)(void* self, v3_speaker_arrangement* inputs, int32_t num_inputs, v3_speaker_arrangement* outputs, int32_t num_outputs); v3_result (V3_API* get_bus_arrangement)(void* self, int32_t bus_direction, int32_t idx, v3_speaker_arrangement*); v3_result (V3_API* can_process_sample_size)(void* self, int32_t symbolic_sample_size); uint32_t (V3_API* get_latency_samples)(void* self); v3_result (V3_API* setup_processing)(void* self, struct v3_process_setup* setup); v3_result (V3_API* set_processing)(void* self, v3_bool state); v3_result (V3_API* process)(void* self, struct v3_process_data* data); uint32_t (V3_API* get_tail_samples)(void* self); }; static constexpr const v3_tuid v3_audio_processor_iid = V3_ID(0x42043F99, 0xB7DA453C, 0xA569E79D, 0x9AAEC33D); #ifdef __cplusplus /** * C++ variants */ struct v3_param_value_queue_cpp : v3_funknown { v3_param_value_queue queue; }; struct v3_param_changes_cpp : v3_funknown { v3_param_changes changes; }; struct v3_process_context_requirements_cpp : v3_funknown { v3_process_context_requirements req; }; struct v3_audio_processor_cpp : v3_funknown { v3_audio_processor proc; }; #endif #include "align_pop.h"