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@ -34,12 +34,12 @@ |
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#include "utility/dspinst.h" |
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#include "utility/dspinst.h" |
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#include "synth_waveform.h" |
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#include "synth_waveform.h" |
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#define INP_ALLP_COEFF (0.65) |
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#define INP_ALLP_COEFF (0.65f) |
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#define LOOP_ALLOP_COEFF (0.65) |
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#define LOOP_ALLOP_COEFF (0.65f) |
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#define HI_LOSS_FREQ (0.3) |
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#define HI_LOSS_FREQ (0.3f) |
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#define HI_LOSS_FREQ_MAX (0.08) |
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#define HI_LOSS_FREQ_MAX (0.08f) |
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#define LO_LOSS_FREQ (0.06) |
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#define LO_LOSS_FREQ (0.06f) |
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#define LFO_AMPL_BITS (5) // 2^LFO_AMPL_BITS will be the LFO amplitude
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#define LFO_AMPL_BITS (5) // 2^LFO_AMPL_BITS will be the LFO amplitude
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#define LFO_AMPL ((1<<LFO_AMPL_BITS) + 1) // lfo amplitude
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#define LFO_AMPL ((1<<LFO_AMPL_BITS) + 1) // lfo amplitude
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@ -47,10 +47,10 @@ |
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#define LFO_FRAC_BITS (16 - LFO_AMPL_BITS) // fractional part used for linear interpolation
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#define LFO_FRAC_BITS (16 - LFO_AMPL_BITS) // fractional part used for linear interpolation
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#define LFO_FRAC_MASK ((1<<LFO_FRAC_BITS)-1) // mask for the above
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#define LFO_FRAC_MASK ((1<<LFO_FRAC_BITS)-1) // mask for the above
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#define LFO1_FREQ_HZ (1.37) // LFO1 frequency in Hz
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#define LFO1_FREQ_HZ (1.37f) // LFO1 frequency in Hz
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#define LFO2_FREQ_HZ (1.52) // LFO2 frequency in Hz
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#define LFO2_FREQ_HZ (1.52f) // LFO2 frequency in Hz
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#define RV_MASTER_LOWPASS_F (0.6) // master lowpass scaled frequency coeff.
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#define RV_MASTER_LOWPASS_F (0.6f) // master lowpass scaled frequency coeff.
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extern "C" { |
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extern "C" { |
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extern const int16_t AudioWaveformSine[257]; |
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extern const int16_t AudioWaveformSine[257]; |
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@ -71,20 +71,20 @@ float32_t DMAMEM in_allp2_bufR[520]; |
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float32_t DMAMEM in_allp3_bufR[956]; |
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float32_t DMAMEM in_allp3_bufR[956]; |
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float32_t DMAMEM in_allp4_bufR[1289]; |
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float32_t DMAMEM in_allp4_bufR[1289]; |
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float32_t DMAMEM lp_allp1_buf[1303]; // loop allpass buffers
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float32_t DMAMEM lp_allp1_buf[2303]; // loop allpass buffers
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float32_t DMAMEM lp_allp2_buf[905]; |
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float32_t DMAMEM lp_allp2_buf[2905]; |
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float32_t DMAMEM lp_allp3_buf[1175]; |
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float32_t DMAMEM lp_allp3_buf[3175]; |
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float32_t DMAMEM lp_allp4_buf[1398]; |
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float32_t DMAMEM lp_allp4_buf[2398]; |
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float32_t DMAMEM lp_dly1_buf[1423]; |
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float32_t DMAMEM lp_dly1_buf[3423]; |
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float32_t DMAMEM lp_dly2_buf[1589]; |
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float32_t DMAMEM lp_dly2_buf[4589]; |
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float32_t DMAMEM lp_dly3_buf[1365]; |
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float32_t DMAMEM lp_dly3_buf[4365]; |
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float32_t DMAMEM lp_dly4_buf[1698]; |
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float32_t DMAMEM lp_dly4_buf[3698]; |
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#endif |
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#endif |
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AudioEffectPlateReverb::AudioEffectPlateReverb() : AudioStream(2, inputQueueArray) |
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AudioEffectPlateReverb::AudioEffectPlateReverb() : AudioStream(2, inputQueueArray) |
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{ |
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{ |
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input_attn = 0.5; |
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input_attn = 0.5f; |
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in_allp_k = INP_ALLP_COEFF; |
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in_allp_k = INP_ALLP_COEFF; |
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memset(in_allp1_bufL, 0, sizeof(in_allp1_bufL)); |
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memset(in_allp1_bufL, 0, sizeof(in_allp1_bufL)); |
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@ -105,7 +105,7 @@ AudioEffectPlateReverb::AudioEffectPlateReverb() : AudioStream(2, inputQueueArra |
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in_allp3_idxR = 0; |
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in_allp3_idxR = 0; |
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in_allp4_idxR = 0; |
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in_allp4_idxR = 0; |
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in_allp_out_R = 0; |
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in_allp_out_R = 0.0f; |
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memset(lp_allp1_buf, 0, sizeof(lp_allp1_buf)); |
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memset(lp_allp1_buf, 0, sizeof(lp_allp1_buf)); |
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memset(lp_allp2_buf, 0, sizeof(lp_allp2_buf)); |
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memset(lp_allp2_buf, 0, sizeof(lp_allp2_buf)); |
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@ -116,7 +116,7 @@ AudioEffectPlateReverb::AudioEffectPlateReverb() : AudioStream(2, inputQueueArra |
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lp_allp3_idx = 0; |
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lp_allp3_idx = 0; |
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lp_allp4_idx = 0; |
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lp_allp4_idx = 0; |
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loop_allp_k = LOOP_ALLOP_COEFF; |
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loop_allp_k = LOOP_ALLOP_COEFF; |
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lp_allp_out = 0; |
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lp_allp_out = 0.0f; |
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memset(lp_dly1_buf, 0, sizeof(lp_dly1_buf)); |
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memset(lp_dly1_buf, 0, sizeof(lp_dly1_buf)); |
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memset(lp_dly2_buf, 0, sizeof(lp_dly2_buf)); |
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memset(lp_dly2_buf, 0, sizeof(lp_dly2_buf)); |
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@ -127,25 +127,25 @@ AudioEffectPlateReverb::AudioEffectPlateReverb() : AudioStream(2, inputQueueArra |
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lp_dly3_idx = 0; |
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lp_dly3_idx = 0; |
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lp_dly4_idx = 0; |
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lp_dly4_idx = 0; |
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lp_hidamp_k = 1.0; |
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lp_hidamp_k = 1.0f; |
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lp_lodamp_k = 0.0; |
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lp_lodamp_k = 0.0f; |
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lp_lowpass_f = HI_LOSS_FREQ; |
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lp_lowpass_f = HI_LOSS_FREQ; |
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lp_hipass_f = LO_LOSS_FREQ; |
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lp_hipass_f = LO_LOSS_FREQ; |
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lpf1 = 0; |
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lpf1 = 0.0f; |
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lpf2 = 0; |
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lpf2 = 0.0f; |
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lpf3 = 0; |
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lpf3 = 0.0f; |
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lpf4 = 0; |
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lpf4 = 0.0f; |
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hpf1 = 0; |
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hpf1 = 0.0f; |
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hpf2 = 0; |
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hpf2 = 0.0f; |
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hpf3 = 0; |
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hpf3 = 0.0f; |
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hpf4 = 0; |
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hpf4 = 0.0f; |
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master_lowpass_f = RV_MASTER_LOWPASS_F; |
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master_lowpass_f = RV_MASTER_LOWPASS_F; |
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master_lowpass_l = 0; |
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master_lowpass_l = 0.0f; |
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master_lowpass_r = 0; |
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master_lowpass_r = 0.0f; |
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lfo1_phase_acc = 0; |
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lfo1_phase_acc = 0; |
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lfo1_adder = (UINT32_MAX + 1)/(AUDIO_SAMPLE_RATE_EXACT * LFO1_FREQ_HZ); |
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lfo1_adder = (UINT32_MAX + 1)/(AUDIO_SAMPLE_RATE_EXACT * LFO1_FREQ_HZ); |
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@ -153,7 +153,7 @@ AudioEffectPlateReverb::AudioEffectPlateReverb() : AudioStream(2, inputQueueArra |
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lfo2_adder = (UINT32_MAX + 1)/(AUDIO_SAMPLE_RATE_EXACT * LFO2_FREQ_HZ);
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lfo2_adder = (UINT32_MAX + 1)/(AUDIO_SAMPLE_RATE_EXACT * LFO2_FREQ_HZ);
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} |
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} |
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#define sat16(n, rshift) signed_saturate_rshift((n), 16, (rshift)) |
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// #define sat16(n, rshift) signed_saturate_rshift((n), 16, (rshift))
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// TODO: move this to one of the data files, use in output_adat.cpp, output_tdm.cpp, etc
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// TODO: move this to one of the data files, use in output_adat.cpp, output_tdm.cpp, etc
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static const audio_block_t zeroblock = { |
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static const audio_block_t zeroblock = { |
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@ -199,6 +199,35 @@ void AudioEffectPlateReverb::update() |
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int32_t y0, y1; |
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int32_t y0, y1; |
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int64_t y; |
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int64_t y; |
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uint32_t idx; |
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uint32_t idx; |
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static bool cleanup_done = false; |
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// handle bypass, 1st call will clean the buffers to avoid continuing the previous reverb tail
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if (bypass) |
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{ |
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if (!cleanup_done) |
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{ |
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memset(in_allp1_bufL, 0, sizeof(in_allp1_bufL)); |
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memset(in_allp2_bufL, 0, sizeof(in_allp2_bufL)); |
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memset(in_allp3_bufL, 0, sizeof(in_allp3_bufL)); |
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memset(in_allp4_bufL, 0, sizeof(in_allp4_bufL)); |
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memset(in_allp1_bufR, 0, sizeof(in_allp1_bufR)); |
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memset(in_allp2_bufR, 0, sizeof(in_allp2_bufR)); |
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memset(in_allp3_bufR, 0, sizeof(in_allp3_bufR)); |
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memset(in_allp4_bufR, 0, sizeof(in_allp4_bufR)); |
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memset(lp_allp1_buf, 0, sizeof(lp_allp1_buf)); |
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memset(lp_allp2_buf, 0, sizeof(lp_allp2_buf)); |
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memset(lp_allp3_buf, 0, sizeof(lp_allp3_buf)); |
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memset(lp_allp4_buf, 0, sizeof(lp_allp4_buf)); |
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memset(lp_dly1_buf, 0, sizeof(lp_dly1_buf)); |
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memset(lp_dly2_buf, 0, sizeof(lp_dly2_buf)); |
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memset(lp_dly3_buf, 0, sizeof(lp_dly3_buf)); |
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memset(lp_dly4_buf, 0, sizeof(lp_dly4_buf)); |
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cleanup_done = true; |
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} |
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return; |
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} |
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cleanup_done = false; |
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blockL = receiveReadOnly(0); |
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blockL = receiveReadOnly(0); |
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blockR = receiveReadOnly(1); |
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blockR = receiveReadOnly(1); |
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@ -214,6 +243,7 @@ void AudioEffectPlateReverb::update() |
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if (!blockL) blockL = &zeroblock; |
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if (!blockL) blockL = &zeroblock; |
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if (!blockR) blockR = &zeroblock; |
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if (!blockR) blockR = &zeroblock; |
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// convert data to float32
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// convert data to float32
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arm_q15_to_float((q15_t *)blockL->data, input_blockL, AUDIO_BLOCK_SAMPLES); |
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arm_q15_to_float((q15_t *)blockL->data, input_blockL, AUDIO_BLOCK_SAMPLES); |
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arm_q15_to_float((q15_t *)blockR->data, input_blockR, AUDIO_BLOCK_SAMPLES); |
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arm_q15_to_float((q15_t *)blockR->data, input_blockR, AUDIO_BLOCK_SAMPLES); |
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@ -385,10 +415,10 @@ void AudioEffectPlateReverb::update() |
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if (temp16 >= sizeof(lp_dly1_buf)/sizeof(float32_t)) temp16 = 0; |
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if (temp16 >= sizeof(lp_dly1_buf)/sizeof(float32_t)) temp16 = 0; |
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temp2 = lp_dly1_buf[temp16]; // sample next
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temp2 = lp_dly1_buf[temp16]; // sample next
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input = (float32_t)(lfo1_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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input = (float32_t)(lfo1_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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acc = (temp1*(1.0-input) + temp2*input)* 0.8; |
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acc = (temp1*(1.0f-input) + temp2*input)* 0.8f; |
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#else |
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#else |
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temp16 = (lp_dly1_idx + lp_dly1_offset_L) % (sizeof(lp_dly1_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly1_idx + lp_dly1_offset_L) % (sizeof(lp_dly1_buf)/sizeof(float32_t)); |
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acc = lp_dly1_buf[temp16]* 0.8; |
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acc = lp_dly1_buf[temp16]* 0.8f; |
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#endif |
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#endif |
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@ -398,10 +428,10 @@ void AudioEffectPlateReverb::update() |
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if (temp16 >= sizeof(lp_dly2_buf)/sizeof(float32_t)) temp16 = 0; |
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if (temp16 >= sizeof(lp_dly2_buf)/sizeof(float32_t)) temp16 = 0; |
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temp2 = lp_dly2_buf[temp16];
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temp2 = lp_dly2_buf[temp16];
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input = (float32_t)(lfo1_out_sin & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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input = (float32_t)(lfo1_out_sin & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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acc += (temp1*(1.0-input) + temp2*input)* 0.7; |
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acc += (temp1*(1.0f-input) + temp2*input)* 0.7f; |
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#else |
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#else |
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temp16 = (lp_dly2_idx + lp_dly2_offset_L) % (sizeof(lp_dly2_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly2_idx + lp_dly2_offset_L) % (sizeof(lp_dly2_buf)/sizeof(float32_t)); |
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acc += (temp1*(1.0-input) + temp2*input)* 0.6; |
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acc += (temp1*(1.0f-input) + temp2*input)* 0.6f; |
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#endif |
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#endif |
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temp16 = (lp_dly3_idx + lp_dly3_offset_L + (lfo2_out_cos>>LFO_FRAC_BITS)) % (sizeof(lp_dly3_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly3_idx + lp_dly3_offset_L + (lfo2_out_cos>>LFO_FRAC_BITS)) % (sizeof(lp_dly3_buf)/sizeof(float32_t)); |
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@ -409,20 +439,20 @@ void AudioEffectPlateReverb::update() |
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if (temp16 >= sizeof(lp_dly3_buf)/sizeof(float32_t)) temp16 = 0; |
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if (temp16 >= sizeof(lp_dly3_buf)/sizeof(float32_t)) temp16 = 0; |
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temp2 = lp_dly3_buf[temp16];
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temp2 = lp_dly3_buf[temp16];
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input = (float32_t)(lfo2_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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input = (float32_t)(lfo2_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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acc += (temp1*(1.0-input) + temp2*input)* 0.6; |
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acc += (temp1*(1.0f-input) + temp2*input)* 0.6f; |
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temp16 = (lp_dly4_idx + lp_dly4_offset_L + (lfo2_out_sin>>LFO_FRAC_BITS)) % (sizeof(lp_dly4_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly4_idx + lp_dly4_offset_L + (lfo2_out_sin>>LFO_FRAC_BITS)) % (sizeof(lp_dly4_buf)/sizeof(float32_t)); |
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temp1 = lp_dly4_buf[temp16++]; |
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temp1 = lp_dly4_buf[temp16++]; |
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if (temp16 >= sizeof(lp_dly4_buf)/sizeof(float32_t)) temp16 = 0; |
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if (temp16 >= sizeof(lp_dly4_buf)/sizeof(float32_t)) temp16 = 0; |
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temp2 = lp_dly4_buf[temp16];
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temp2 = lp_dly4_buf[temp16];
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input = (float32_t)(lfo2_out_sin & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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input = (float32_t)(lfo2_out_sin & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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acc += (temp1*(1.0-input) + temp2*input)* 0.5; |
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acc += (temp1*(1.0f-input) + temp2*input)* 0.5f; |
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// Master lowpass filter
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// Master lowpass filter
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temp1 = acc - master_lowpass_l; |
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temp1 = acc - master_lowpass_l; |
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master_lowpass_l += temp1 * master_lowpass_f; |
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master_lowpass_l += temp1 * master_lowpass_f; |
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outblockL->data[i] =(int16_t)(master_lowpass_l * 32767.0); //sat16(output * 30, 0);
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outblockL->data[i] =(int16_t)(master_lowpass_l * 32767.0f); //sat16(output * 30, 0);
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// Channel R
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// Channel R
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#ifdef TAP1_MODULATED |
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#ifdef TAP1_MODULATED |
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@ -432,10 +462,10 @@ void AudioEffectPlateReverb::update() |
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temp2 = lp_dly1_buf[temp16]; // sample next
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temp2 = lp_dly1_buf[temp16]; // sample next
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input = (float32_t)(lfo2_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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input = (float32_t)(lfo2_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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acc = (temp1*(1.0-input) + temp2*input)* 0.8; |
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acc = (temp1*(1.0f-input) + temp2*input)* 0.8f; |
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#else |
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#else |
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temp16 = (lp_dly1_idx + lp_dly1_offset_R) % (sizeof(lp_dly1_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly1_idx + lp_dly1_offset_R) % (sizeof(lp_dly1_buf)/sizeof(float32_t)); |
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acc = lp_dly1_buf[temp16] * 0.8; |
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acc = lp_dly1_buf[temp16] * 0.8f; |
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#endif |
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#endif |
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#ifdef TAP2_MODULATED |
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#ifdef TAP2_MODULATED |
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temp16 = (lp_dly2_idx + lp_dly2_offset_R + (lfo1_out_cos>>LFO_FRAC_BITS)) % (sizeof(lp_dly2_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly2_idx + lp_dly2_offset_R + (lfo1_out_cos>>LFO_FRAC_BITS)) % (sizeof(lp_dly2_buf)/sizeof(float32_t)); |
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@ -443,29 +473,29 @@ void AudioEffectPlateReverb::update() |
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if (temp16 >= sizeof(lp_dly2_buf)/sizeof(float32_t)) temp16 = 0; |
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if (temp16 >= sizeof(lp_dly2_buf)/sizeof(float32_t)) temp16 = 0; |
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temp2 = lp_dly2_buf[temp16];
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temp2 = lp_dly2_buf[temp16];
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input = (float32_t)(lfo1_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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input = (float32_t)(lfo1_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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acc += (temp1*(1.0-input) + temp2*input)* 0.7; |
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acc += (temp1*(1.0f-input) + temp2*input)* 0.7f; |
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#else |
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#else |
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temp16 = (lp_dly2_idx + lp_dly2_offset_R) % (sizeof(lp_dly2_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly2_idx + lp_dly2_offset_R) % (sizeof(lp_dly2_buf)/sizeof(float32_t)); |
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acc += (temp1*(1.0-input) + temp2*input)* 0.7; |
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acc += (temp1*(1.0f-input) + temp2*input)* 0.7f; |
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#endif |
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#endif |
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temp16 = (lp_dly3_idx + lp_dly3_offset_R + (lfo2_out_sin>>LFO_FRAC_BITS)) % (sizeof(lp_dly3_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly3_idx + lp_dly3_offset_R + (lfo2_out_sin>>LFO_FRAC_BITS)) % (sizeof(lp_dly3_buf)/sizeof(float32_t)); |
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temp1 = lp_dly3_buf[temp16++]; |
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temp1 = lp_dly3_buf[temp16++]; |
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if (temp16 >= sizeof(lp_dly3_buf)/sizeof(float32_t)) temp16 = 0; |
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if (temp16 >= sizeof(lp_dly3_buf)/sizeof(float32_t)) temp16 = 0; |
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temp2 = lp_dly3_buf[temp16];
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temp2 = lp_dly3_buf[temp16];
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input = (float32_t)(lfo2_out_sin & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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input = (float32_t)(lfo2_out_sin & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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acc += (temp1*(1.0-input) + temp2*input)* 0.6; |
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acc += (temp1*(1.0f-input) + temp2*input)* 0.6f; |
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temp16 = (lp_dly4_idx + lp_dly4_offset_R + (lfo1_out_sin>>LFO_FRAC_BITS)) % (sizeof(lp_dly4_buf)/sizeof(float32_t)); |
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temp16 = (lp_dly4_idx + lp_dly4_offset_R + (lfo1_out_sin>>LFO_FRAC_BITS)) % (sizeof(lp_dly4_buf)/sizeof(float32_t)); |
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temp1 = lp_dly4_buf[temp16++]; |
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temp1 = lp_dly4_buf[temp16++]; |
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if (temp16 >= sizeof(lp_dly4_buf)/sizeof(float32_t)) temp16 = 0; |
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if (temp16 >= sizeof(lp_dly4_buf)/sizeof(float32_t)) temp16 = 0; |
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temp2 = lp_dly4_buf[temp16];
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temp2 = lp_dly4_buf[temp16];
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input = (float32_t)(lfo2_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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input = (float32_t)(lfo2_out_cos & LFO_FRAC_MASK) / ((float32_t)LFO_FRAC_MASK); // interp. k
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acc += (temp1*(1.0-input) + temp2*input)* 0.5; |
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acc += (temp1*(1.0f-input) + temp2*input)* 0.5f; |
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// Master lowpass filter
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// Master lowpass filter
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temp1 = acc - master_lowpass_r; |
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temp1 = acc - master_lowpass_r; |
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master_lowpass_r += temp1 * master_lowpass_f; |
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master_lowpass_r += temp1 * master_lowpass_f; |
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outblockR->data[i] =(int16_t)(master_lowpass_r * 32767.0); |
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outblockR->data[i] =(int16_t)(master_lowpass_r * 32767.0f); |
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} |
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} |
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transmit(outblockL, 0); |
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transmit(outblockL, 0); |
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