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300 lines
11 KiB
300 lines
11 KiB
/*
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* Copyright 2014 Pascal Gauthier.
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* Copyright 2012 Google Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "EngineMkI.h"
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#include <math.h>
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#include <cstdlib>
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#include "msfa/sin.h"
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#include "msfa/exp2.h"
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const FmAlgorithm EngineMkI::algo2[32] = {
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{ { 0xc1, 0x11, 0x11, 0x14, 0x01, 0x14 } }, // 1
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{ { 0x01, 0x11, 0x11, 0x14, 0xc1, 0x14 } }, // 2
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{ { 0xc1, 0x11, 0x14, 0x01, 0x11, 0x14 } }, // 3
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{ { 0xc4, 0x00, 0x00, 0x01, 0x11, 0x14 } }, // 4 ** EXCEPTION VIA CODE
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{ { 0xc1, 0x14, 0x01, 0x14, 0x01, 0x14 } }, // 5
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{ { 0xc4, 0x00, 0x01, 0x14, 0x01, 0x14 } }, // 6 ** EXCEPTION VIA CODE
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{ { 0xc1, 0x11, 0x05, 0x14, 0x01, 0x14 } }, // 7
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{ { 0x01, 0x11, 0xc5, 0x14, 0x01, 0x14 } }, // 8
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{ { 0x01, 0x11, 0x05, 0x14, 0xc1, 0x14 } }, // 9
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{ { 0x01, 0x05, 0x14, 0xc1, 0x11, 0x14 } }, // 10
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{ { 0xc1, 0x05, 0x14, 0x01, 0x11, 0x14 } }, // 11
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{ { 0x01, 0x05, 0x05, 0x14, 0xc1, 0x14 } }, // 12
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{ { 0xc1, 0x05, 0x05, 0x14, 0x01, 0x14 } }, // 13
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{ { 0xc1, 0x05, 0x11, 0x14, 0x01, 0x14 } }, // 14
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{ { 0x01, 0x05, 0x11, 0x14, 0xc1, 0x14 } }, // 15
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{ { 0xc1, 0x11, 0x02, 0x25, 0x05, 0x14 } }, // 16
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{ { 0x01, 0x11, 0x02, 0x25, 0xc5, 0x14 } }, // 17
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{ { 0x01, 0x11, 0x11, 0xc5, 0x05, 0x14 } }, // 18
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{ { 0xc1, 0x14, 0x14, 0x01, 0x11, 0x14 } }, // 19
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{ { 0x01, 0x05, 0x14, 0xc1, 0x14, 0x14 } }, // 20
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{ { 0x01, 0x14, 0x14, 0xc1, 0x14, 0x14 } }, // 21
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{ { 0xc1, 0x14, 0x14, 0x14, 0x01, 0x14 } }, // 22
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{ { 0xc1, 0x14, 0x14, 0x01, 0x14, 0x04 } }, // 23
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{ { 0xc1, 0x14, 0x14, 0x14, 0x04, 0x04 } }, // 24
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{ { 0xc1, 0x14, 0x14, 0x04, 0x04, 0x04 } }, // 25
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{ { 0xc1, 0x05, 0x14, 0x01, 0x14, 0x04 } }, // 26
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{ { 0x01, 0x05, 0x14, 0xc1, 0x14, 0x04 } }, // 27
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{ { 0x04, 0xc1, 0x11, 0x14, 0x01, 0x14 } }, // 28
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{ { 0xc1, 0x14, 0x01, 0x14, 0x04, 0x04 } }, // 29
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{ { 0x04, 0xc1, 0x11, 0x14, 0x04, 0x04 } }, // 30
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{ { 0xc1, 0x14, 0x04, 0x04, 0x04, 0x04 } }, // 31
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{ { 0xc4, 0x04, 0x04, 0x04, 0x04, 0x04 } }, // 32
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};
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void EngineMkI::compute(int32_t *output, const int32_t *input,
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int32_t phase0, int32_t freq,
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int32_t gain1, int32_t gain2, bool add, const Controllers *controllers) {
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int32_t dgain = (gain2 - gain1 + (N >> 1)) >> LG_N;
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int32_t gain = gain1;
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int32_t phase = phase0;
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if (add) {
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for (int i = 0; i < N; i++) {
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gain += dgain;
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int32_t y = Sin::lookup(phase + input[i]);
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int32_t y1 = ((int64_t)y * (int64_t)gain) >> 24;
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output[i] += y1;
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phase += freq;
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}
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} else {
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for (int i = 0; i < N; i++) {
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gain += dgain;
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int32_t y = Sin::lookup(phase + input[i]);
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int32_t y1 = ((int64_t)y * (int64_t)gain) >> 24;
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output[i] = y1;
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phase += freq;
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}
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}
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}
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void EngineMkI::compute_pure(int32_t *output, int32_t phase0, int32_t freq,
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int32_t gain1, int32_t gain2, bool add, const Controllers *controllers) {
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int32_t dgain = (gain2 - gain1 + (N >> 1)) >> LG_N;
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int32_t gain = gain1;
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int32_t phase = phase0;
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if (add) {
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for (int i = 0; i < N; i++) {
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gain += dgain;
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int32_t y = Sin::lookup(phase);
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int32_t y1 = ((int64_t)y * (int64_t)gain) >> 24;
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output[i] += y1;
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phase += freq;
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}
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} else {
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for (int i = 0; i < N; i++) {
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gain += dgain;
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int32_t y = Sin::lookup(phase);
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int32_t y1 = ((int64_t)y * (int64_t)gain) >> 24;
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output[i] = y1;
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phase += freq;
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}
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}
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}
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void EngineMkI::compute_fb(int32_t *output, int32_t phase0, int32_t freq,
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int32_t gain1, int32_t gain2,
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int32_t *fb_buf, int fb_shift, bool add, const Controllers *controllers) {
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int32_t dgain = (gain2 - gain1 + (N >> 1)) >> LG_N;
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int32_t gain = gain1;
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int32_t phase = phase0;
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int32_t y0 = fb_buf[0];
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int32_t y = fb_buf[1];
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if (add) {
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for (int i = 0; i < N; i++) {
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gain += dgain;
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int32_t scaled_fb = (y0 + y) >> (fb_shift + 1);
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y0 = y;
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y = Sin::lookup(phase + scaled_fb);
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y = ((int64_t)y * (int64_t)gain) >> 24;
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output[i] += y;
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phase += freq;
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}
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} else {
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for (int i = 0; i < N; i++) {
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gain += dgain;
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int32_t scaled_fb = (y0 + y) >> (fb_shift + 1);
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y0 = y;
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y = Sin::lookup(phase + scaled_fb);
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y = ((int64_t)y * (int64_t)gain) >> 24;
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output[i] = y;
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phase += freq;
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}
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}
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fb_buf[0] = y0;
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fb_buf[1] = y;
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}
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// exclusively used for ALGO 6 with feedback
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void EngineMkI::compute_fb2(int32_t *output, FmOpParams *parms, int32_t gain01, int32_t gain02, int32_t *fb_buf, int fb_shift, const Controllers *cont) {
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int32_t dgain[2];
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int32_t gain[2];
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int32_t phase[2];
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int32_t y0 = fb_buf[0];
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int32_t y = fb_buf[1];
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phase[0] = parms[0].phase;
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phase[1] = parms[1].phase;
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gain[0] = gain01;
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gain[1] = parms[1].gain_out;
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dgain[0] = (gain02 - gain01 + (N >> 1)) >> LG_N;
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parms[1].gain_out = Exp2::lookup(parms[1].level_in - (14 * (1 << 24)));
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dgain[1] = (parms[1].gain_out - gain[1] + (N >> 1)) >> LG_N;
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for (int i = 0; i < N; i++) {
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// op 0
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gain[0] += dgain[0];
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int32_t scaled_fb = (y0 + y) >> (fb_shift + 2); // tsk tsk tsk: this needs some tuning
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y0 = y;
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y = Sin::lookup(phase[0] + scaled_fb);
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y = ((int64_t)y * (int64_t)gain[0]) >> 24;
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phase[0] += parms[0].freq;
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// op 1
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gain[1] += dgain[1];
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y = Sin::lookup(phase[1] + y);
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y = ((int64_t)y * (int64_t)gain[1]) >> 24;
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output[i] = y;
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phase[1] += parms[1].freq;
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}
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fb_buf[0] = y0;
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fb_buf[1] = y;
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}
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// exclusively used for ALGO 4 with feedback
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void EngineMkI::compute_fb3(int32_t *output, FmOpParams *parms, int32_t gain01, int32_t gain02, int32_t *fb_buf, int fb_shift, const Controllers *cont) {
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int32_t dgain[3];
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int32_t gain[3];
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int32_t phase[3];
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int32_t y0 = fb_buf[0];
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int32_t y = fb_buf[1];
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phase[0] = parms[0].phase;
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phase[1] = parms[1].phase;
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phase[2] = parms[2].phase;
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gain[0] = gain01;
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gain[1] = parms[1].gain_out;
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gain[2] = parms[2].gain_out;
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dgain[0] = (gain02 - gain01 + (N >> 1)) >> LG_N;
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parms[1].gain_out = Exp2::lookup(parms[1].level_in - (14 * (1 << 24)));
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dgain[1] = (parms[1].gain_out - gain[1] + (N >> 1)) >> LG_N;
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parms[2].gain_out = Exp2::lookup(parms[2].level_in - (14 * (1 << 24)));
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dgain[2] = (parms[1].gain_out - gain[2] + (N >> 1)) >> LG_N;
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for (int i = 0; i < N; i++) {
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// op 0
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gain[0] += dgain[0];
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int32_t scaled_fb = (y0 + y) >> (fb_shift + 6); // tsk tsk tsk: this needs some tuning
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y0 = y;
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y = Sin::lookup(phase[0] + scaled_fb);
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y = ((int64_t)y * (int64_t)gain[0]) >> 24;
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phase[0] += parms[0].freq;
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// op 1
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gain[1] += dgain[1];
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y = Sin::lookup(phase[1] + y);
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y = ((int64_t)y * (int64_t)gain[1]) >> 24;
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phase[1] += parms[1].freq;
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// op 2
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gain[2] += dgain[2];
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y = Sin::lookup(phase[2] + y);
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y = ((int64_t)y * (int64_t)gain[2]) >> 24;
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output[i] = y;
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phase[2] += parms[2].freq;
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}
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fb_buf[0] = y0;
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fb_buf[1] = y;
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}
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void EngineMkI::render(int32_t *output, FmOpParams *params, int algorithm,
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int32_t *fb_buf, int feedback_shift, const Controllers *controllers) {
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const int kLevelThresh = 1120;
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const FmAlgorithm alg = algo2[algorithm];
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bool has_contents[3] = { true, false, false };
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for (int op = 0; op < 6; op++) {
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int flags = alg.ops[op];
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bool add = (flags & OUT_BUS_ADD) != 0;
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FmOpParams ¶m = params[op];
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int inbus = (flags >> 4) & 3;
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int outbus = flags & 3;
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int32_t *outptr = (outbus == 0) ? output : buf_[outbus - 1].get();
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int32_t gain1 = param.gain_out;
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int32_t gain2 = Exp2::lookup(param.level_in - (14 * (1 << 24)));
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param.gain_out = gain2;
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if (gain1 >= kLevelThresh || gain2 >= kLevelThresh) {
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if (!has_contents[outbus]) {
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add = false;
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}
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if (inbus == 0 || !has_contents[inbus]) {
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// PG: this is my 'dirty' implementation of FB for 2 and 3 operators...
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// still needs some tuning...
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if ((flags & 0xc0) == 0xc0 && feedback_shift < 16) {
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switch ( algorithm ) {
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// two operator feedback, process exception for ALGO 6
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case 5 :
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compute_fb2(outptr, params, gain1, gain2, fb_buf, feedback_shift, controllers);
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params[1].phase += params[1].freq << LG_N; // yuk, hack, we already processed op-5
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op++; // ignore next operator;
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break;
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// three operator feedback, process exception for ALGO 4
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case 3 :
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compute_fb3(outptr, params, gain1, gain2, fb_buf, feedback_shift, controllers);
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params[1].phase += params[1].freq << LG_N; // hack, we already processed op-5 - op-4
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params[2].phase += params[2].freq << LG_N; // yuk yuk
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op += 2; // ignore the 2 other operators
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break;
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default:
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// one operator feedback, normal proces
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//cout << "\t" << op << " fb " << inbus << outbus << add << endl;
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compute_fb(outptr, param.phase, param.freq,gain1, gain2, fb_buf, feedback_shift, add, controllers);
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break;
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}
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} else {
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// cout << op << " pure " << inbus << outbus << add << endl;
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compute_pure(outptr, param.phase, param.freq, gain1, gain2, add, controllers);
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}
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} else {
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// cout << op << " normal " << inbus << outbus << " " << param.freq << add << endl;
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compute(outptr, buf_[inbus - 1].get(),
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param.phase, param.freq, gain1, gain2, add, controllers);
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}
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has_contents[outbus] = true;
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} else if (!add) {
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has_contents[outbus] = false;
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}
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param.phase += param.freq << LG_N;
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}
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}
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