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- #pragma once
- #include <pffft.h>
-
- #include <dsp/common.hpp>
-
-
- namespace rack {
- namespace dsp {
-
-
- /** Performs a direct sum convolution */
- inline float convolveNaive(const float* in, const float* kernel, int len) {
- float y = 0.f;
- for (int i = 0; i < len; i++) {
- y += in[len - 1 - i] * kernel[i];
- }
- return y;
- }
-
- /** Computes the impulse response of a boxcar lowpass filter */
- inline void boxcarLowpassIR(float* out, int len, float cutoff = 0.5f) {
- for (int i = 0; i < len; i++) {
- float t = i - (len - 1) / 2.f;
- out[i] = 2 * cutoff * sinc(2 * cutoff * t);
- }
- }
-
-
- struct RealTimeConvolver {
- // `kernelBlocks` number of contiguous FFT blocks of size `blockSize`
- // indexed by [i * blockSize*2 + j]
- float* kernelFfts = NULL;
- float* inputFfts = NULL;
- float* outputTail = NULL;
- float* tmpBlock = NULL;
- size_t blockSize;
- size_t kernelBlocks = 0;
- size_t inputPos = 0;
- PFFFT_Setup* pffft;
-
- /** `blockSize` is the size of each FFT block. It should be >=32 and a power of 2. */
- RealTimeConvolver(size_t blockSize) {
- this->blockSize = blockSize;
- pffft = pffft_new_setup(blockSize * 2, PFFFT_REAL);
- outputTail = new float[blockSize];
- std::memset(outputTail, 0, blockSize * sizeof(float));
- tmpBlock = new float[blockSize * 2];
- std::memset(tmpBlock, 0, blockSize * 2 * sizeof(float));
- }
-
- ~RealTimeConvolver() {
- setKernel(NULL, 0);
- delete[] outputTail;
- delete[] tmpBlock;
- pffft_destroy_setup(pffft);
- }
-
- void setKernel(const float* kernel, size_t length) {
- // Clear existing kernel
- if (kernelFfts) {
- pffft_aligned_free(kernelFfts);
- kernelFfts = NULL;
- }
- if (inputFfts) {
- pffft_aligned_free(inputFfts);
- inputFfts = NULL;
- }
- kernelBlocks = 0;
- inputPos = 0;
-
- if (kernel && length > 0) {
- // Round up to the nearest factor of `blockSize`
- kernelBlocks = (length - 1) / blockSize + 1;
-
- // Allocate blocks
- kernelFfts = (float*) pffft_aligned_malloc(sizeof(float) * blockSize * 2 * kernelBlocks);
- inputFfts = (float*) pffft_aligned_malloc(sizeof(float) * blockSize * 2 * kernelBlocks);
- std::memset(inputFfts, 0, sizeof(float) * blockSize * 2 * kernelBlocks);
-
- for (size_t i = 0; i < kernelBlocks; i++) {
- // Pad each block with zeros
- std::memset(tmpBlock, 0, sizeof(float) * blockSize * 2);
- size_t len = std::min((int) blockSize, (int)(length - i * blockSize));
- std::memcpy(tmpBlock, &kernel[i * blockSize], sizeof(float)*len);
- // Compute fft
- pffft_transform(pffft, tmpBlock, &kernelFfts[blockSize * 2 * i], NULL, PFFFT_FORWARD);
- }
- }
- }
-
- /** Applies reverb to input
- input and output must be of size `blockSize`
- */
- void processBlock(const float* input, float* output) {
- if (kernelBlocks == 0) {
- std::memset(output, 0, sizeof(float) * blockSize);
- return;
- }
-
- // Step input position
- inputPos = (inputPos + 1) % kernelBlocks;
- // Pad block with zeros
- std::memset(tmpBlock, 0, sizeof(float) * blockSize * 2);
- std::memcpy(tmpBlock, input, sizeof(float) * blockSize);
- // Compute input fft
- pffft_transform(pffft, tmpBlock, &inputFfts[blockSize * 2 * inputPos], NULL, PFFFT_FORWARD);
- // Create output fft
- std::memset(tmpBlock, 0, sizeof(float) * blockSize * 2);
- // convolve input fft by kernel fft
- // Note: This is the CPU bottleneck loop
- for (size_t i = 0; i < kernelBlocks; i++) {
- size_t pos = (inputPos - i + kernelBlocks) % kernelBlocks;
- pffft_zconvolve_accumulate(pffft, &kernelFfts[blockSize * 2 * i], &inputFfts[blockSize * 2 * pos], tmpBlock, 1.f);
- }
- // Compute output
- pffft_transform(pffft, tmpBlock, tmpBlock, NULL, PFFFT_BACKWARD);
- // Add block tail from last output block
- for (size_t i = 0; i < blockSize; i++) {
- tmpBlock[i] += outputTail[i];
- }
- // Copy output block to output
- float scale = 1.f / (blockSize * 2);
- for (size_t i = 0; i < blockSize; i++) {
- // Scale based on FFT
- output[i] = tmpBlock[i] * scale;
- }
- // Set tail
- for (size_t i = 0; i < blockSize; i++) {
- outputTail[i] = tmpBlock[i + blockSize];
- }
- }
- };
-
-
- } // namespace dsp
- } // namespace rack
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