2022-03-08 05:51:38 +11:00
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// Puberty Simulator: the next generation in voice change simulation technology
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// Copyright (C) 2022 Robbert van der Helm
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program. If not, see <https://www.gnu.org/licenses/>.
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use fftw::array::AlignedVec;
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use fftw::plan::{C2RPlan, C2RPlan32, R2CPlan, R2CPlan32};
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use fftw::types::{c32, Flag};
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use nih_plug::prelude::*;
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use std::f32;
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use std::pin::Pin;
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use std::sync::Arc;
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const MIN_WINDOW_SIZE: usize = 64;
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const DEFAULT_WINDOW_SIZE: usize = 1024;
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const MAX_WINDOW_SIZE: usize = 32768;
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const OVERLAP_TIMES: usize = 4;
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struct PubertySimulator {
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params: Pin<Box<PubertySimulatorParams>>,
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/// An adapter that performs most of the overlap-add algorithm for us.
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stft: util::StftHelper,
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/// Contains a Hann window function of the current window length, passed to the overlap-add
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/// helper. Allocated with a `MAX_WINDOW_SIZE` initial capacity.
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window_function: Vec<f32>,
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/// The algorithms for the FFT and IFFT operations.
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plan: Plan,
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/// Scratch buffers for computing our FFT. The [`StftHelper`] already contains a buffer for the
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/// real values. This type cannot be resized, so we'll simply take a slice of it with the
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/// correct length instead.
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complex_fft_scratch_buffer: AlignedVec<c32>,
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}
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/// FFTW uses raw pointers which aren't Send+Sync, so we'll wrap this in a separate struct.
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struct Plan {
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r2c_plan: R2CPlan32,
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c2r_plan: C2RPlan32,
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}
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unsafe impl Send for Plan {}
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unsafe impl Sync for Plan {}
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#[derive(Params)]
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struct PubertySimulatorParams {
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/// The pitch change in octaves.
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#[id = "pitch"]
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pitch_octaves: FloatParam,
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/// The size of the FFT window as a power of two (to prevent invalid inputs).
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#[id = "wndsz"]
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window_size_order: IntParam,
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}
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impl Default for PubertySimulator {
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fn default() -> Self {
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Self {
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params: Box::pin(PubertySimulatorParams::default()),
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stft: util::StftHelper::new(2, MAX_WINDOW_SIZE),
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window_function: Vec::with_capacity(MAX_WINDOW_SIZE),
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plan: Plan {
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// These will be initialized with proper values during the initialization
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r2c_plan: R2CPlan32::aligned(&[1], Flag::MEASURE).unwrap(),
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c2r_plan: C2RPlan32::aligned(&[1], Flag::MEASURE).unwrap(),
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},
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complex_fft_scratch_buffer: AlignedVec::new(MAX_WINDOW_SIZE / 2 + 1),
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}
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}
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}
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impl Default for PubertySimulatorParams {
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fn default() -> Self {
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Self {
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pitch_octaves: FloatParam::new(
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"Pitch",
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-1.0,
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FloatRange::SymmetricalSkewed {
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min: -5.0,
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max: 5.0,
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factor: FloatRange::skew_factor(-1.0),
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center: 0.0,
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},
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)
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// This doesn't need smoothing to prevent zippers because we're already going
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// overlap-add, but sounds kind of slick
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.with_smoother(SmoothingStyle::Linear(100.0))
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.with_unit(" Octaves")
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.with_value_to_string(formatters::f32_rounded(2)),
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window_size_order: IntParam::new(
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"Window Size",
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(DEFAULT_WINDOW_SIZE as f32).log2() as i32,
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IntRange::Linear {
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min: (MIN_WINDOW_SIZE as f32).log2() as i32,
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max: (MAX_WINDOW_SIZE as f32).log2() as i32,
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},
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)
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.with_value_to_string(Arc::new(|value| format!("{}", 1 << value)))
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.with_string_to_value(Arc::new(|string| {
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string.parse().ok().map(|n: i32| (n as f32).log2() as i32)
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})),
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}
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}
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}
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impl Plugin for PubertySimulator {
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const NAME: &'static str = "Puberty Simulator";
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const VENDOR: &'static str = "Robbert van der Helm";
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const URL: &'static str = "https://github.com/robbert-vdh/nih-plug";
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const EMAIL: &'static str = "mail@robbertvanderhelm.nl";
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const VERSION: &'static str = "0.1.0";
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const DEFAULT_NUM_INPUTS: u32 = 2;
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const DEFAULT_NUM_OUTPUTS: u32 = 2;
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const ACCEPTS_MIDI: bool = false;
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fn params(&self) -> Pin<&dyn Params> {
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self.params.as_ref()
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}
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fn accepts_bus_config(&self, config: &BusConfig) -> bool {
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// We'll only do stereo for simplicity's sake
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config.num_input_channels == config.num_output_channels && config.num_input_channels == 2
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}
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fn initialize(
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&mut self,
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_bus_config: &BusConfig,
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_buffer_config: &BufferConfig,
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context: &mut impl ProcessContext,
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) -> bool {
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// Normally we'd also initialize the STFT helper for the correct channel count here, but we
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// only do stereo so that's not necessary
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let window_size = self.window_size();
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if self.window_function.len() != window_size {
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self.resize_for_window(window_size);
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context.set_latency_samples(self.stft.latency_samples());
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}
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true
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}
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fn process(&mut self, buffer: &mut Buffer, context: &mut impl ProcessContext) -> ProcessStatus {
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// Compensate for the window function, the overlap, and the extra gain introduced by the
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// IDFT operation
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let window_size = self.window_size();
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let sample_rate = context.transport().sample_rate;
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let gain_compensation: f32 = 2.0 / OVERLAP_TIMES as f32 / window_size as f32;
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// If the window size has changed since the last process call, reset the buffers and chance
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// our latency. All of these buffers already have enough capacity
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if self.window_function.len() != window_size {
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self.resize_for_window(window_size);
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context.set_latency_samples(self.stft.latency_samples());
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}
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// Since this type cannot be resized, we'll simply slice the full buffer instead
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let complex_fft_scratch_buffer =
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&mut self.complex_fft_scratch_buffer.as_slice_mut()[..window_size / 2 + 1];
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let mut smoothed_pitch_value = 0.0;
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self.stft.process_overlap_add(
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buffer,
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&self.window_function,
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OVERLAP_TIMES,
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|channel_idx, real_fft_scratch_buffer| {
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// This loop runs whenever there's a block ready, so we can't easily do any post- or
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// pre-processing without muddying up the interface. But if this is channel 0, then
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// we're dealing with a new block. We'll use this for our parameter smoothing.
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if channel_idx == 0 {
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smoothed_pitch_value = self
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.params
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.pitch_octaves
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.smoothed
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.next_step((window_size / OVERLAP_TIMES) as u32);
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}
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// Negated because pitching down should cause us to take values from higher frequency bins
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let frequency_multiplier = 2.0f32.powf(-smoothed_pitch_value);
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// Forward FFT, the helper has already applied window function
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self.plan
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.r2c_plan
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.r2c(real_fft_scratch_buffer, complex_fft_scratch_buffer)
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.unwrap();
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// This simply interpolates between the complex sinusoids from the frequency bins
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// for this bin's frequency scaled by the octave pitch multiplies. The iteration
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// order dependson the pitch shifting direction since we're doing it in place.
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let num_bins = complex_fft_scratch_buffer.len();
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let mut process_bin = |bin_idx| {
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let frequency = bin_idx as f32 / window_size as f32 * sample_rate;
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let target_frequency = frequency * frequency_multiplier;
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// Simple linear interpolation
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let target_bin = target_frequency / sample_rate * window_size as f32;
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let target_bin_low = target_bin.floor() as usize;
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let target_bin_high = target_bin.ceil() as usize;
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let target_low_t = target_bin % 1.0;
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let target_high_t = 1.0 - target_low_t;
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let target_low = complex_fft_scratch_buffer
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.get(target_bin_low)
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.copied()
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.unwrap_or_default();
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let target_high = complex_fft_scratch_buffer
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.get(target_bin_high)
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.copied()
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.unwrap_or_default();
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complex_fft_scratch_buffer[bin_idx] = (target_low * target_low_t
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+ target_high * target_high_t)
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* 3.0 // Random extra gain, not sure
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* gain_compensation;
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};
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if frequency_multiplier >= 1.0 {
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for bin_idx in 0..num_bins {
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process_bin(bin_idx);
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}
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} else {
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for bin_idx in (0..num_bins).rev() {
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process_bin(bin_idx);
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}
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}
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// Inverse FFT back into the scratch buffer. This will be added to a ring buffer
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// which gets written back to the host at a one block delay.
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self.plan
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.c2r_plan
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.c2r(complex_fft_scratch_buffer, real_fft_scratch_buffer)
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.unwrap();
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},
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);
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ProcessStatus::Normal
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}
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}
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impl PubertySimulator {
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fn window_size(&self) -> usize {
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1 << self.params.window_size_order.value as usize
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}
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/// `window_size` should not exceed `MAX_WINDOW_SIZE` or this will allocate.
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fn resize_for_window(&mut self, window_size: usize) {
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self.stft.set_block_size(window_size);
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self.window_function.resize(window_size, 0.0);
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util::window::hann_in_place(&mut self.window_function);
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self.plan.r2c_plan = R2CPlan32::aligned(&[window_size], Flag::MEASURE).unwrap();
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self.plan.c2r_plan = C2RPlan32::aligned(&[window_size], Flag::MEASURE).unwrap();
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}
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}
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impl ClapPlugin for PubertySimulator {
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const CLAP_ID: &'static str = "nl.robbertvanderhelm.puberty-simulator";
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const CLAP_DESCRIPTION: &'static str = "Simulates a pitched down cracking voice";
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const CLAP_FEATURES: &'static [&'static str] =
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&["audio_effect", "stereo", "glitch", "pitch_shifter"];
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const CLAP_MANUAL_URL: &'static str = Self::URL;
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const CLAP_SUPPORT_URL: &'static str = Self::URL;
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}
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impl Vst3Plugin for PubertySimulator {
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const VST3_CLASS_ID: [u8; 16] = *b"PubertySim..RvdH";
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const VST3_CATEGORIES: &'static str = "Fx|Pitch Shift";
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}
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nih_export_clap!(PubertySimulator);
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nih_export_vst3!(PubertySimulator);
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