1*ec779b8eSAndroid Build Coastguard Worker /*
2*ec779b8eSAndroid Build Coastguard Worker * Copyright (C) 2013 The Android Open Source Project
3*ec779b8eSAndroid Build Coastguard Worker *
4*ec779b8eSAndroid Build Coastguard Worker * Licensed under the Apache License, Version 2.0 (the "License");
5*ec779b8eSAndroid Build Coastguard Worker * you may not use this file except in compliance with the License.
6*ec779b8eSAndroid Build Coastguard Worker * You may obtain a copy of the License at
7*ec779b8eSAndroid Build Coastguard Worker *
8*ec779b8eSAndroid Build Coastguard Worker * http://www.apache.org/licenses/LICENSE-2.0
9*ec779b8eSAndroid Build Coastguard Worker *
10*ec779b8eSAndroid Build Coastguard Worker * Unless required by applicable law or agreed to in writing, software
11*ec779b8eSAndroid Build Coastguard Worker * distributed under the License is distributed on an "AS IS" BASIS,
12*ec779b8eSAndroid Build Coastguard Worker * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13*ec779b8eSAndroid Build Coastguard Worker * See the License for the specific language governing permissions and
14*ec779b8eSAndroid Build Coastguard Worker * limitations under the License.
15*ec779b8eSAndroid Build Coastguard Worker */
16*ec779b8eSAndroid Build Coastguard Worker
17*ec779b8eSAndroid Build Coastguard Worker #ifndef ANDROID_AUDIO_RESAMPLER_FIR_PROCESS_H
18*ec779b8eSAndroid Build Coastguard Worker #define ANDROID_AUDIO_RESAMPLER_FIR_PROCESS_H
19*ec779b8eSAndroid Build Coastguard Worker
20*ec779b8eSAndroid Build Coastguard Worker namespace android {
21*ec779b8eSAndroid Build Coastguard Worker
22*ec779b8eSAndroid Build Coastguard Worker // depends on AudioResamplerFirOps.h
23*ec779b8eSAndroid Build Coastguard Worker
24*ec779b8eSAndroid Build Coastguard Worker /* variant for input type TI = int16_t input samples */
25*ec779b8eSAndroid Build Coastguard Worker template<typename TC>
26*ec779b8eSAndroid Build Coastguard Worker static inline
mac(int32_t & l,int32_t & r,TC coef,const int16_t * samples)27*ec779b8eSAndroid Build Coastguard Worker void mac(int32_t& l, int32_t& r, TC coef, const int16_t* samples)
28*ec779b8eSAndroid Build Coastguard Worker {
29*ec779b8eSAndroid Build Coastguard Worker uint32_t rl = *reinterpret_cast<const uint32_t*>(samples);
30*ec779b8eSAndroid Build Coastguard Worker l = mulAddRL(1, rl, coef, l);
31*ec779b8eSAndroid Build Coastguard Worker r = mulAddRL(0, rl, coef, r);
32*ec779b8eSAndroid Build Coastguard Worker }
33*ec779b8eSAndroid Build Coastguard Worker
34*ec779b8eSAndroid Build Coastguard Worker template<typename TC>
35*ec779b8eSAndroid Build Coastguard Worker static inline
mac(int32_t & l,TC coef,const int16_t * samples)36*ec779b8eSAndroid Build Coastguard Worker void mac(int32_t& l, TC coef, const int16_t* samples)
37*ec779b8eSAndroid Build Coastguard Worker {
38*ec779b8eSAndroid Build Coastguard Worker l = mulAdd(samples[0], coef, l);
39*ec779b8eSAndroid Build Coastguard Worker }
40*ec779b8eSAndroid Build Coastguard Worker
41*ec779b8eSAndroid Build Coastguard Worker /* variant for input type TI = float input samples */
42*ec779b8eSAndroid Build Coastguard Worker template<typename TC>
43*ec779b8eSAndroid Build Coastguard Worker static inline
mac(float & l,float & r,TC coef,const float * samples)44*ec779b8eSAndroid Build Coastguard Worker void mac(float& l, float& r, TC coef, const float* samples)
45*ec779b8eSAndroid Build Coastguard Worker {
46*ec779b8eSAndroid Build Coastguard Worker l += *samples++ * coef;
47*ec779b8eSAndroid Build Coastguard Worker r += *samples * coef;
48*ec779b8eSAndroid Build Coastguard Worker }
49*ec779b8eSAndroid Build Coastguard Worker
50*ec779b8eSAndroid Build Coastguard Worker template<typename TC>
51*ec779b8eSAndroid Build Coastguard Worker static inline
mac(float & l,TC coef,const float * samples)52*ec779b8eSAndroid Build Coastguard Worker void mac(float& l, TC coef, const float* samples)
53*ec779b8eSAndroid Build Coastguard Worker {
54*ec779b8eSAndroid Build Coastguard Worker l += *samples * coef;
55*ec779b8eSAndroid Build Coastguard Worker }
56*ec779b8eSAndroid Build Coastguard Worker
57*ec779b8eSAndroid Build Coastguard Worker /* variant for output type TO = int32_t output samples */
58*ec779b8eSAndroid Build Coastguard Worker static inline
volumeAdjust(int32_t value,int32_t volume)59*ec779b8eSAndroid Build Coastguard Worker int32_t volumeAdjust(int32_t value, int32_t volume)
60*ec779b8eSAndroid Build Coastguard Worker {
61*ec779b8eSAndroid Build Coastguard Worker return 2 * mulRL(0, value, volume); // Note: only use top 16b
62*ec779b8eSAndroid Build Coastguard Worker }
63*ec779b8eSAndroid Build Coastguard Worker
64*ec779b8eSAndroid Build Coastguard Worker /* variant for output type TO = float output samples */
65*ec779b8eSAndroid Build Coastguard Worker static inline
volumeAdjust(float value,float volume)66*ec779b8eSAndroid Build Coastguard Worker float volumeAdjust(float value, float volume)
67*ec779b8eSAndroid Build Coastguard Worker {
68*ec779b8eSAndroid Build Coastguard Worker return value * volume;
69*ec779b8eSAndroid Build Coastguard Worker }
70*ec779b8eSAndroid Build Coastguard Worker
71*ec779b8eSAndroid Build Coastguard Worker /*
72*ec779b8eSAndroid Build Coastguard Worker * Helper template functions for loop unrolling accumulator operations.
73*ec779b8eSAndroid Build Coastguard Worker *
74*ec779b8eSAndroid Build Coastguard Worker * Unrolling the loops achieves about 2x gain.
75*ec779b8eSAndroid Build Coastguard Worker * Using a recursive template rather than an array of TO[] for the accumulator
76*ec779b8eSAndroid Build Coastguard Worker * values is an additional 10-20% gain.
77*ec779b8eSAndroid Build Coastguard Worker */
78*ec779b8eSAndroid Build Coastguard Worker
79*ec779b8eSAndroid Build Coastguard Worker template<int CHANNELS, typename TO>
80*ec779b8eSAndroid Build Coastguard Worker class Accumulator : public Accumulator<CHANNELS-1, TO> // recursive
81*ec779b8eSAndroid Build Coastguard Worker {
82*ec779b8eSAndroid Build Coastguard Worker public:
clear()83*ec779b8eSAndroid Build Coastguard Worker inline void clear() {
84*ec779b8eSAndroid Build Coastguard Worker value = 0;
85*ec779b8eSAndroid Build Coastguard Worker Accumulator<CHANNELS-1, TO>::clear();
86*ec779b8eSAndroid Build Coastguard Worker }
87*ec779b8eSAndroid Build Coastguard Worker template<typename TC, typename TI>
acc(TC coef,const TI * & data)88*ec779b8eSAndroid Build Coastguard Worker inline void acc(TC coef, const TI*& data) {
89*ec779b8eSAndroid Build Coastguard Worker mac(value, coef, data++);
90*ec779b8eSAndroid Build Coastguard Worker Accumulator<CHANNELS-1, TO>::acc(coef, data);
91*ec779b8eSAndroid Build Coastguard Worker }
volume(TO * & out,TO gain)92*ec779b8eSAndroid Build Coastguard Worker inline void volume(TO*& out, TO gain) {
93*ec779b8eSAndroid Build Coastguard Worker *out++ += volumeAdjust(value, gain);
94*ec779b8eSAndroid Build Coastguard Worker Accumulator<CHANNELS-1, TO>::volume(out, gain);
95*ec779b8eSAndroid Build Coastguard Worker }
96*ec779b8eSAndroid Build Coastguard Worker
97*ec779b8eSAndroid Build Coastguard Worker TO value; // one per recursive inherited base class
98*ec779b8eSAndroid Build Coastguard Worker };
99*ec779b8eSAndroid Build Coastguard Worker
100*ec779b8eSAndroid Build Coastguard Worker template<typename TO>
101*ec779b8eSAndroid Build Coastguard Worker class Accumulator<0, TO> {
102*ec779b8eSAndroid Build Coastguard Worker public:
clear()103*ec779b8eSAndroid Build Coastguard Worker inline void clear() {
104*ec779b8eSAndroid Build Coastguard Worker }
105*ec779b8eSAndroid Build Coastguard Worker template<typename TC, typename TI>
acc(TC coef __unused,const TI * & data __unused)106*ec779b8eSAndroid Build Coastguard Worker inline void acc(TC coef __unused, const TI*& data __unused) {
107*ec779b8eSAndroid Build Coastguard Worker }
volume(TO * & out __unused,TO gain __unused)108*ec779b8eSAndroid Build Coastguard Worker inline void volume(TO*& out __unused, TO gain __unused) {
109*ec779b8eSAndroid Build Coastguard Worker }
110*ec779b8eSAndroid Build Coastguard Worker };
111*ec779b8eSAndroid Build Coastguard Worker
112*ec779b8eSAndroid Build Coastguard Worker template<typename TC, typename TINTERP>
113*ec779b8eSAndroid Build Coastguard Worker inline
interpolate(TC coef_0,TC coef_1,TINTERP lerp)114*ec779b8eSAndroid Build Coastguard Worker TC interpolate(TC coef_0, TC coef_1, TINTERP lerp)
115*ec779b8eSAndroid Build Coastguard Worker {
116*ec779b8eSAndroid Build Coastguard Worker return lerp * (coef_1 - coef_0) + coef_0;
117*ec779b8eSAndroid Build Coastguard Worker }
118*ec779b8eSAndroid Build Coastguard Worker
119*ec779b8eSAndroid Build Coastguard Worker template<>
120*ec779b8eSAndroid Build Coastguard Worker inline
121*ec779b8eSAndroid Build Coastguard Worker int16_t interpolate<int16_t, uint32_t>(int16_t coef_0, int16_t coef_1, uint32_t lerp)
122*ec779b8eSAndroid Build Coastguard Worker { // in some CPU architectures 16b x 16b multiplies are faster.
123*ec779b8eSAndroid Build Coastguard Worker return (static_cast<int16_t>(lerp) * static_cast<int16_t>(coef_1 - coef_0) >> 15) + coef_0;
124*ec779b8eSAndroid Build Coastguard Worker }
125*ec779b8eSAndroid Build Coastguard Worker
126*ec779b8eSAndroid Build Coastguard Worker template<>
127*ec779b8eSAndroid Build Coastguard Worker inline
128*ec779b8eSAndroid Build Coastguard Worker int32_t interpolate<int32_t, uint32_t>(int32_t coef_0, int32_t coef_1, uint32_t lerp)
129*ec779b8eSAndroid Build Coastguard Worker {
130*ec779b8eSAndroid Build Coastguard Worker return (lerp * static_cast<int64_t>(coef_1 - coef_0) >> 31) + coef_0;
131*ec779b8eSAndroid Build Coastguard Worker }
132*ec779b8eSAndroid Build Coastguard Worker
133*ec779b8eSAndroid Build Coastguard Worker /* class scope for passing in functions into templates */
134*ec779b8eSAndroid Build Coastguard Worker struct InterpCompute {
135*ec779b8eSAndroid Build Coastguard Worker template<typename TC, typename TINTERP>
136*ec779b8eSAndroid Build Coastguard Worker static inline
interpolatepInterpCompute137*ec779b8eSAndroid Build Coastguard Worker TC interpolatep(TC coef_0, TC coef_1, TINTERP lerp) {
138*ec779b8eSAndroid Build Coastguard Worker return interpolate(coef_0, coef_1, lerp);
139*ec779b8eSAndroid Build Coastguard Worker }
140*ec779b8eSAndroid Build Coastguard Worker
141*ec779b8eSAndroid Build Coastguard Worker template<typename TC, typename TINTERP>
142*ec779b8eSAndroid Build Coastguard Worker static inline
interpolatenInterpCompute143*ec779b8eSAndroid Build Coastguard Worker TC interpolaten(TC coef_0, TC coef_1, TINTERP lerp) {
144*ec779b8eSAndroid Build Coastguard Worker return interpolate(coef_0, coef_1, lerp);
145*ec779b8eSAndroid Build Coastguard Worker }
146*ec779b8eSAndroid Build Coastguard Worker };
147*ec779b8eSAndroid Build Coastguard Worker
148*ec779b8eSAndroid Build Coastguard Worker struct InterpNull {
149*ec779b8eSAndroid Build Coastguard Worker template<typename TC, typename TINTERP>
150*ec779b8eSAndroid Build Coastguard Worker static inline
interpolatepInterpNull151*ec779b8eSAndroid Build Coastguard Worker TC interpolatep(TC coef_0, TC coef_1 __unused, TINTERP lerp __unused) {
152*ec779b8eSAndroid Build Coastguard Worker return coef_0;
153*ec779b8eSAndroid Build Coastguard Worker }
154*ec779b8eSAndroid Build Coastguard Worker
155*ec779b8eSAndroid Build Coastguard Worker template<typename TC, typename TINTERP>
156*ec779b8eSAndroid Build Coastguard Worker static inline
interpolatenInterpNull157*ec779b8eSAndroid Build Coastguard Worker TC interpolaten(TC coef_0 __unused, TC coef_1, TINTERP lerp __unused) {
158*ec779b8eSAndroid Build Coastguard Worker return coef_1;
159*ec779b8eSAndroid Build Coastguard Worker }
160*ec779b8eSAndroid Build Coastguard Worker };
161*ec779b8eSAndroid Build Coastguard Worker
162*ec779b8eSAndroid Build Coastguard Worker /*
163*ec779b8eSAndroid Build Coastguard Worker * Calculates a single output frame (two samples).
164*ec779b8eSAndroid Build Coastguard Worker *
165*ec779b8eSAndroid Build Coastguard Worker * The Process*() functions compute both the positive half FIR dot product and
166*ec779b8eSAndroid Build Coastguard Worker * the negative half FIR dot product, accumulates, and then applies the volume.
167*ec779b8eSAndroid Build Coastguard Worker *
168*ec779b8eSAndroid Build Coastguard Worker * Use fir() to compute the proper coefficient pointers for a polyphase
169*ec779b8eSAndroid Build Coastguard Worker * filter bank.
170*ec779b8eSAndroid Build Coastguard Worker *
171*ec779b8eSAndroid Build Coastguard Worker * ProcessBase() is the fundamental processing template function.
172*ec779b8eSAndroid Build Coastguard Worker *
173*ec779b8eSAndroid Build Coastguard Worker * ProcessL() calls ProcessBase() with TFUNC = InterpNull, for fixed/locked phase.
174*ec779b8eSAndroid Build Coastguard Worker * Process() calls ProcessBase() with TFUNC = InterpCompute, for interpolated phase.
175*ec779b8eSAndroid Build Coastguard Worker */
176*ec779b8eSAndroid Build Coastguard Worker
177*ec779b8eSAndroid Build Coastguard Worker template <int CHANNELS, int STRIDE, typename TFUNC, typename TC, typename TI, typename TO,
178*ec779b8eSAndroid Build Coastguard Worker typename TINTERP>
179*ec779b8eSAndroid Build Coastguard Worker static inline
ProcessBase(TO * const out,size_t count,const TC * coefsP,const TC * coefsN,const TI * sP,const TI * sN,TINTERP lerpP,const TO * const volumeLR)180*ec779b8eSAndroid Build Coastguard Worker void ProcessBase(TO* const out,
181*ec779b8eSAndroid Build Coastguard Worker size_t count,
182*ec779b8eSAndroid Build Coastguard Worker const TC* coefsP,
183*ec779b8eSAndroid Build Coastguard Worker const TC* coefsN,
184*ec779b8eSAndroid Build Coastguard Worker const TI* sP,
185*ec779b8eSAndroid Build Coastguard Worker const TI* sN,
186*ec779b8eSAndroid Build Coastguard Worker TINTERP lerpP,
187*ec779b8eSAndroid Build Coastguard Worker const TO* const volumeLR)
188*ec779b8eSAndroid Build Coastguard Worker {
189*ec779b8eSAndroid Build Coastguard Worker static_assert(CHANNELS > 0, "CHANNELS must be > 0");
190*ec779b8eSAndroid Build Coastguard Worker
191*ec779b8eSAndroid Build Coastguard Worker if (CHANNELS > 2) {
192*ec779b8eSAndroid Build Coastguard Worker // TO accum[CHANNELS];
193*ec779b8eSAndroid Build Coastguard Worker Accumulator<CHANNELS, TO> accum;
194*ec779b8eSAndroid Build Coastguard Worker
195*ec779b8eSAndroid Build Coastguard Worker // for (int j = 0; j < CHANNELS; ++j) accum[j] = 0;
196*ec779b8eSAndroid Build Coastguard Worker accum.clear();
197*ec779b8eSAndroid Build Coastguard Worker for (size_t i = 0; i < count; ++i) {
198*ec779b8eSAndroid Build Coastguard Worker TC c = TFUNC::interpolatep(coefsP[0], coefsP[count], lerpP);
199*ec779b8eSAndroid Build Coastguard Worker
200*ec779b8eSAndroid Build Coastguard Worker // for (int j = 0; j < CHANNELS; ++j) mac(accum[j], c, sP + j);
201*ec779b8eSAndroid Build Coastguard Worker const TI *tmp_data = sP; // tmp_ptr seems to work better
202*ec779b8eSAndroid Build Coastguard Worker accum.acc(c, tmp_data);
203*ec779b8eSAndroid Build Coastguard Worker
204*ec779b8eSAndroid Build Coastguard Worker coefsP++;
205*ec779b8eSAndroid Build Coastguard Worker sP -= CHANNELS;
206*ec779b8eSAndroid Build Coastguard Worker c = TFUNC::interpolaten(coefsN[count], coefsN[0], lerpP);
207*ec779b8eSAndroid Build Coastguard Worker
208*ec779b8eSAndroid Build Coastguard Worker // for (int j = 0; j < CHANNELS; ++j) mac(accum[j], c, sN + j);
209*ec779b8eSAndroid Build Coastguard Worker tmp_data = sN; // tmp_ptr seems faster than directly using sN
210*ec779b8eSAndroid Build Coastguard Worker accum.acc(c, tmp_data);
211*ec779b8eSAndroid Build Coastguard Worker
212*ec779b8eSAndroid Build Coastguard Worker coefsN++;
213*ec779b8eSAndroid Build Coastguard Worker sN += CHANNELS;
214*ec779b8eSAndroid Build Coastguard Worker }
215*ec779b8eSAndroid Build Coastguard Worker // for (int j = 0; j < CHANNELS; ++j) out[j] += volumeAdjust(accum[j], volumeLR[0]);
216*ec779b8eSAndroid Build Coastguard Worker TO *tmp_out = out; // may remove if const out definition changes.
217*ec779b8eSAndroid Build Coastguard Worker accum.volume(tmp_out, volumeLR[0]);
218*ec779b8eSAndroid Build Coastguard Worker } else if (CHANNELS == 2) {
219*ec779b8eSAndroid Build Coastguard Worker TO l = 0;
220*ec779b8eSAndroid Build Coastguard Worker TO r = 0;
221*ec779b8eSAndroid Build Coastguard Worker for (size_t i = 0; i < count; ++i) {
222*ec779b8eSAndroid Build Coastguard Worker mac(l, r, TFUNC::interpolatep(coefsP[0], coefsP[count], lerpP), sP);
223*ec779b8eSAndroid Build Coastguard Worker coefsP++;
224*ec779b8eSAndroid Build Coastguard Worker sP -= CHANNELS;
225*ec779b8eSAndroid Build Coastguard Worker mac(l, r, TFUNC::interpolaten(coefsN[count], coefsN[0], lerpP), sN);
226*ec779b8eSAndroid Build Coastguard Worker coefsN++;
227*ec779b8eSAndroid Build Coastguard Worker sN += CHANNELS;
228*ec779b8eSAndroid Build Coastguard Worker }
229*ec779b8eSAndroid Build Coastguard Worker out[0] += volumeAdjust(l, volumeLR[0]);
230*ec779b8eSAndroid Build Coastguard Worker out[1] += volumeAdjust(r, volumeLR[1]);
231*ec779b8eSAndroid Build Coastguard Worker } else { /* CHANNELS == 1 */
232*ec779b8eSAndroid Build Coastguard Worker TO l = 0;
233*ec779b8eSAndroid Build Coastguard Worker for (size_t i = 0; i < count; ++i) {
234*ec779b8eSAndroid Build Coastguard Worker mac(l, TFUNC::interpolatep(coefsP[0], coefsP[count], lerpP), sP);
235*ec779b8eSAndroid Build Coastguard Worker coefsP++;
236*ec779b8eSAndroid Build Coastguard Worker sP -= CHANNELS;
237*ec779b8eSAndroid Build Coastguard Worker mac(l, TFUNC::interpolaten(coefsN[count], coefsN[0], lerpP), sN);
238*ec779b8eSAndroid Build Coastguard Worker coefsN++;
239*ec779b8eSAndroid Build Coastguard Worker sN += CHANNELS;
240*ec779b8eSAndroid Build Coastguard Worker }
241*ec779b8eSAndroid Build Coastguard Worker out[0] += volumeAdjust(l, volumeLR[0]);
242*ec779b8eSAndroid Build Coastguard Worker out[1] += volumeAdjust(l, volumeLR[1]);
243*ec779b8eSAndroid Build Coastguard Worker }
244*ec779b8eSAndroid Build Coastguard Worker }
245*ec779b8eSAndroid Build Coastguard Worker
246*ec779b8eSAndroid Build Coastguard Worker /* Calculates a single output frame from a polyphase resampling filter.
247*ec779b8eSAndroid Build Coastguard Worker * See Process() for parameter details.
248*ec779b8eSAndroid Build Coastguard Worker */
249*ec779b8eSAndroid Build Coastguard Worker template <int CHANNELS, int STRIDE, typename TC, typename TI, typename TO>
250*ec779b8eSAndroid Build Coastguard Worker static inline
ProcessL(TO * const out,int count,const TC * coefsP,const TC * coefsN,const TI * sP,const TI * sN,const TO * const volumeLR)251*ec779b8eSAndroid Build Coastguard Worker void ProcessL(TO* const out,
252*ec779b8eSAndroid Build Coastguard Worker int count,
253*ec779b8eSAndroid Build Coastguard Worker const TC* coefsP,
254*ec779b8eSAndroid Build Coastguard Worker const TC* coefsN,
255*ec779b8eSAndroid Build Coastguard Worker const TI* sP,
256*ec779b8eSAndroid Build Coastguard Worker const TI* sN,
257*ec779b8eSAndroid Build Coastguard Worker const TO* const volumeLR)
258*ec779b8eSAndroid Build Coastguard Worker {
259*ec779b8eSAndroid Build Coastguard Worker ProcessBase<CHANNELS, STRIDE, InterpNull>(out, count, coefsP, coefsN, sP, sN, 0, volumeLR);
260*ec779b8eSAndroid Build Coastguard Worker }
261*ec779b8eSAndroid Build Coastguard Worker
262*ec779b8eSAndroid Build Coastguard Worker /*
263*ec779b8eSAndroid Build Coastguard Worker * Calculates a single output frame from a polyphase resampling filter,
264*ec779b8eSAndroid Build Coastguard Worker * with filter phase interpolation.
265*ec779b8eSAndroid Build Coastguard Worker *
266*ec779b8eSAndroid Build Coastguard Worker * @param out should point to the output buffer with space for at least one output frame.
267*ec779b8eSAndroid Build Coastguard Worker *
268*ec779b8eSAndroid Build Coastguard Worker * @param count should be half the size of the total filter length (halfNumCoefs), as we
269*ec779b8eSAndroid Build Coastguard Worker * use symmetry in filter coefficients to evaluate two dot products.
270*ec779b8eSAndroid Build Coastguard Worker *
271*ec779b8eSAndroid Build Coastguard Worker * @param coefsP is one phase of the polyphase filter bank of size halfNumCoefs, corresponding
272*ec779b8eSAndroid Build Coastguard Worker * to the positive sP.
273*ec779b8eSAndroid Build Coastguard Worker *
274*ec779b8eSAndroid Build Coastguard Worker * @param coefsN is one phase of the polyphase filter bank of size halfNumCoefs, corresponding
275*ec779b8eSAndroid Build Coastguard Worker * to the negative sN.
276*ec779b8eSAndroid Build Coastguard Worker *
277*ec779b8eSAndroid Build Coastguard Worker * @param coefsP1 is the next phase of coefsP (used for interpolation).
278*ec779b8eSAndroid Build Coastguard Worker *
279*ec779b8eSAndroid Build Coastguard Worker * @param coefsN1 is the next phase of coefsN (used for interpolation).
280*ec779b8eSAndroid Build Coastguard Worker *
281*ec779b8eSAndroid Build Coastguard Worker * @param sP is the positive half of the coefficients (as viewed by a convolution),
282*ec779b8eSAndroid Build Coastguard Worker * starting at the original samples pointer and decrementing (by CHANNELS).
283*ec779b8eSAndroid Build Coastguard Worker *
284*ec779b8eSAndroid Build Coastguard Worker * @param sN is the negative half of the samples (as viewed by a convolution),
285*ec779b8eSAndroid Build Coastguard Worker * starting at the original samples pointer + CHANNELS and incrementing (by CHANNELS).
286*ec779b8eSAndroid Build Coastguard Worker *
287*ec779b8eSAndroid Build Coastguard Worker * @param lerpP The fractional siting between the polyphase indices is given by the bits
288*ec779b8eSAndroid Build Coastguard Worker * below coefShift. See fir() for details.
289*ec779b8eSAndroid Build Coastguard Worker *
290*ec779b8eSAndroid Build Coastguard Worker * @param volumeLR is a pointer to an array of two 32 bit volume values, one per stereo channel,
291*ec779b8eSAndroid Build Coastguard Worker * expressed as a S32 integer or float. A negative value inverts the channel 180 degrees.
292*ec779b8eSAndroid Build Coastguard Worker * The pointer volumeLR should be aligned to a minimum of 8 bytes.
293*ec779b8eSAndroid Build Coastguard Worker * A typical value for volume is 0x1000 to align to a unity gain output of 20.12.
294*ec779b8eSAndroid Build Coastguard Worker */
295*ec779b8eSAndroid Build Coastguard Worker template <int CHANNELS, int STRIDE, typename TC, typename TI, typename TO, typename TINTERP>
296*ec779b8eSAndroid Build Coastguard Worker static inline
Process(TO * const out,int count,const TC * coefsP,const TC * coefsN,const TC * coefsP1 __unused,const TC * coefsN1 __unused,const TI * sP,const TI * sN,TINTERP lerpP,const TO * const volumeLR)297*ec779b8eSAndroid Build Coastguard Worker void Process(TO* const out,
298*ec779b8eSAndroid Build Coastguard Worker int count,
299*ec779b8eSAndroid Build Coastguard Worker const TC* coefsP,
300*ec779b8eSAndroid Build Coastguard Worker const TC* coefsN,
301*ec779b8eSAndroid Build Coastguard Worker const TC* coefsP1 __unused,
302*ec779b8eSAndroid Build Coastguard Worker const TC* coefsN1 __unused,
303*ec779b8eSAndroid Build Coastguard Worker const TI* sP,
304*ec779b8eSAndroid Build Coastguard Worker const TI* sN,
305*ec779b8eSAndroid Build Coastguard Worker TINTERP lerpP,
306*ec779b8eSAndroid Build Coastguard Worker const TO* const volumeLR)
307*ec779b8eSAndroid Build Coastguard Worker {
308*ec779b8eSAndroid Build Coastguard Worker ProcessBase<CHANNELS, STRIDE, InterpCompute>(out, count, coefsP, coefsN, sP, sN, lerpP,
309*ec779b8eSAndroid Build Coastguard Worker volumeLR);
310*ec779b8eSAndroid Build Coastguard Worker }
311*ec779b8eSAndroid Build Coastguard Worker
312*ec779b8eSAndroid Build Coastguard Worker /*
313*ec779b8eSAndroid Build Coastguard Worker * Calculates a single output frame from input sample pointer.
314*ec779b8eSAndroid Build Coastguard Worker *
315*ec779b8eSAndroid Build Coastguard Worker * This sets up the params for the accelerated Process() and ProcessL()
316*ec779b8eSAndroid Build Coastguard Worker * functions to do the appropriate dot products.
317*ec779b8eSAndroid Build Coastguard Worker *
318*ec779b8eSAndroid Build Coastguard Worker * @param out should point to the output buffer with space for at least one output frame.
319*ec779b8eSAndroid Build Coastguard Worker *
320*ec779b8eSAndroid Build Coastguard Worker * @param phase is the fractional distance between input frames for interpolation:
321*ec779b8eSAndroid Build Coastguard Worker * phase >= 0 && phase < phaseWrapLimit. It can be thought of as a rational fraction
322*ec779b8eSAndroid Build Coastguard Worker * of phase/phaseWrapLimit.
323*ec779b8eSAndroid Build Coastguard Worker *
324*ec779b8eSAndroid Build Coastguard Worker * @param phaseWrapLimit is #polyphases<<coefShift, where #polyphases is the number of polyphases
325*ec779b8eSAndroid Build Coastguard Worker * in the polyphase filter. Likewise, #polyphases can be obtained as (phaseWrapLimit>>coefShift).
326*ec779b8eSAndroid Build Coastguard Worker *
327*ec779b8eSAndroid Build Coastguard Worker * @param coefShift gives the bit alignment of the polyphase index in the phase parameter.
328*ec779b8eSAndroid Build Coastguard Worker *
329*ec779b8eSAndroid Build Coastguard Worker * @param halfNumCoefs is the half the number of coefficients per polyphase filter. Since the
330*ec779b8eSAndroid Build Coastguard Worker * overall filterbank is odd-length symmetric, only halfNumCoefs need be stored.
331*ec779b8eSAndroid Build Coastguard Worker *
332*ec779b8eSAndroid Build Coastguard Worker * @param coefs is the polyphase filter bank, starting at from polyphase index 0, and ranging to
333*ec779b8eSAndroid Build Coastguard Worker * and including the #polyphases. Each polyphase of the filter has half-length halfNumCoefs
334*ec779b8eSAndroid Build Coastguard Worker * (due to symmetry). The total size of the filter bank in coefficients is
335*ec779b8eSAndroid Build Coastguard Worker * (#polyphases+1)*halfNumCoefs.
336*ec779b8eSAndroid Build Coastguard Worker *
337*ec779b8eSAndroid Build Coastguard Worker * The filter bank coefs should be aligned to a minimum of 16 bytes (preferrably to cache line).
338*ec779b8eSAndroid Build Coastguard Worker *
339*ec779b8eSAndroid Build Coastguard Worker * The coefs should be attenuated (to compensate for passband ripple)
340*ec779b8eSAndroid Build Coastguard Worker * if storing back into the native format.
341*ec779b8eSAndroid Build Coastguard Worker *
342*ec779b8eSAndroid Build Coastguard Worker * @param samples are unaligned input samples. The position is in the "middle" of the
343*ec779b8eSAndroid Build Coastguard Worker * sample array with respect to the FIR filter:
344*ec779b8eSAndroid Build Coastguard Worker * the negative half of the filter is dot product from samples+1 to samples+halfNumCoefs;
345*ec779b8eSAndroid Build Coastguard Worker * the positive half of the filter is dot product from samples to samples-halfNumCoefs+1.
346*ec779b8eSAndroid Build Coastguard Worker *
347*ec779b8eSAndroid Build Coastguard Worker * @param volumeLR is a pointer to an array of two 32 bit volume values, one per stereo channel,
348*ec779b8eSAndroid Build Coastguard Worker * expressed as a S32 integer or float. A negative value inverts the channel 180 degrees.
349*ec779b8eSAndroid Build Coastguard Worker * The pointer volumeLR should be aligned to a minimum of 8 bytes.
350*ec779b8eSAndroid Build Coastguard Worker * A typical value for volume is 0x1000 to align to a unity gain output of 20.12.
351*ec779b8eSAndroid Build Coastguard Worker *
352*ec779b8eSAndroid Build Coastguard Worker * In between calls to filterCoefficient, the phase is incremented by phaseIncrement, where
353*ec779b8eSAndroid Build Coastguard Worker * phaseIncrement is calculated as inputSampling * phaseWrapLimit / outputSampling.
354*ec779b8eSAndroid Build Coastguard Worker *
355*ec779b8eSAndroid Build Coastguard Worker * The filter polyphase index is given by indexP = phase >> coefShift. Due to
356*ec779b8eSAndroid Build Coastguard Worker * odd length symmetric filter, the polyphase index of the negative half depends on
357*ec779b8eSAndroid Build Coastguard Worker * whether interpolation is used.
358*ec779b8eSAndroid Build Coastguard Worker *
359*ec779b8eSAndroid Build Coastguard Worker * The fractional siting between the polyphase indices is given by the bits below coefShift:
360*ec779b8eSAndroid Build Coastguard Worker *
361*ec779b8eSAndroid Build Coastguard Worker * lerpP = phase << 32 - coefShift >> 1; // for 32 bit unsigned phase multiply
362*ec779b8eSAndroid Build Coastguard Worker * lerpP = phase << 32 - coefShift >> 17; // for 16 bit unsigned phase multiply
363*ec779b8eSAndroid Build Coastguard Worker *
364*ec779b8eSAndroid Build Coastguard Worker * For integer types, this is expressed as:
365*ec779b8eSAndroid Build Coastguard Worker *
366*ec779b8eSAndroid Build Coastguard Worker * lerpP = phase << sizeof(phase)*8 - coefShift
367*ec779b8eSAndroid Build Coastguard Worker * >> (sizeof(phase)-sizeof(*coefs))*8 + 1;
368*ec779b8eSAndroid Build Coastguard Worker *
369*ec779b8eSAndroid Build Coastguard Worker * For floating point, lerpP is the fractional phase scaled to [0.0, 1.0):
370*ec779b8eSAndroid Build Coastguard Worker *
371*ec779b8eSAndroid Build Coastguard Worker * lerpP = (phase << 32 - coefShift) / (1 << 32); // floating point equivalent
372*ec779b8eSAndroid Build Coastguard Worker */
373*ec779b8eSAndroid Build Coastguard Worker
374*ec779b8eSAndroid Build Coastguard Worker template<int CHANNELS, bool LOCKED, int STRIDE, typename TC, typename TI, typename TO>
375*ec779b8eSAndroid Build Coastguard Worker static inline
fir(TO * const out,const uint32_t phase,const uint32_t phaseWrapLimit,const int coefShift,const int halfNumCoefs,const TC * const coefs,const TI * const samples,const TO * const volumeLR)376*ec779b8eSAndroid Build Coastguard Worker void fir(TO* const out,
377*ec779b8eSAndroid Build Coastguard Worker const uint32_t phase, const uint32_t phaseWrapLimit,
378*ec779b8eSAndroid Build Coastguard Worker const int coefShift, const int halfNumCoefs, const TC* const coefs,
379*ec779b8eSAndroid Build Coastguard Worker const TI* const samples, const TO* const volumeLR)
380*ec779b8eSAndroid Build Coastguard Worker {
381*ec779b8eSAndroid Build Coastguard Worker // NOTE: be very careful when modifying the code here. register
382*ec779b8eSAndroid Build Coastguard Worker // pressure is very high and a small change might cause the compiler
383*ec779b8eSAndroid Build Coastguard Worker // to generate far less efficient code.
384*ec779b8eSAndroid Build Coastguard Worker // Always validate the result with objdump or test-resample.
385*ec779b8eSAndroid Build Coastguard Worker
386*ec779b8eSAndroid Build Coastguard Worker if (LOCKED) {
387*ec779b8eSAndroid Build Coastguard Worker // locked polyphase (no interpolation)
388*ec779b8eSAndroid Build Coastguard Worker // Compute the polyphase filter index on the positive and negative side.
389*ec779b8eSAndroid Build Coastguard Worker uint32_t indexP = phase >> coefShift;
390*ec779b8eSAndroid Build Coastguard Worker uint32_t indexN = (phaseWrapLimit - phase) >> coefShift;
391*ec779b8eSAndroid Build Coastguard Worker const TC* coefsP = coefs + indexP*halfNumCoefs;
392*ec779b8eSAndroid Build Coastguard Worker const TC* coefsN = coefs + indexN*halfNumCoefs;
393*ec779b8eSAndroid Build Coastguard Worker const TI* sP = samples;
394*ec779b8eSAndroid Build Coastguard Worker const TI* sN = samples + CHANNELS;
395*ec779b8eSAndroid Build Coastguard Worker
396*ec779b8eSAndroid Build Coastguard Worker // dot product filter.
397*ec779b8eSAndroid Build Coastguard Worker ProcessL<CHANNELS, STRIDE>(out,
398*ec779b8eSAndroid Build Coastguard Worker halfNumCoefs, coefsP, coefsN, sP, sN, volumeLR);
399*ec779b8eSAndroid Build Coastguard Worker } else {
400*ec779b8eSAndroid Build Coastguard Worker // interpolated polyphase
401*ec779b8eSAndroid Build Coastguard Worker // Compute the polyphase filter index on the positive and negative side.
402*ec779b8eSAndroid Build Coastguard Worker uint32_t indexP = phase >> coefShift;
403*ec779b8eSAndroid Build Coastguard Worker uint32_t indexN = (phaseWrapLimit - phase - 1) >> coefShift; // one's complement.
404*ec779b8eSAndroid Build Coastguard Worker const TC* coefsP = coefs + indexP*halfNumCoefs;
405*ec779b8eSAndroid Build Coastguard Worker const TC* coefsN = coefs + indexN*halfNumCoefs;
406*ec779b8eSAndroid Build Coastguard Worker const TC* coefsP1 = coefsP + halfNumCoefs;
407*ec779b8eSAndroid Build Coastguard Worker const TC* coefsN1 = coefsN + halfNumCoefs;
408*ec779b8eSAndroid Build Coastguard Worker const TI* sP = samples;
409*ec779b8eSAndroid Build Coastguard Worker const TI* sN = samples + CHANNELS;
410*ec779b8eSAndroid Build Coastguard Worker
411*ec779b8eSAndroid Build Coastguard Worker // Interpolation fraction lerpP derived by shifting all the way up and down
412*ec779b8eSAndroid Build Coastguard Worker // to clear the appropriate bits and align to the appropriate level
413*ec779b8eSAndroid Build Coastguard Worker // for the integer multiply. The constants should resolve in compile time.
414*ec779b8eSAndroid Build Coastguard Worker //
415*ec779b8eSAndroid Build Coastguard Worker // The interpolated filter coefficient is derived as follows for the pos/neg half:
416*ec779b8eSAndroid Build Coastguard Worker //
417*ec779b8eSAndroid Build Coastguard Worker // interpolated[P] = index[P]*lerpP + index[P+1]*(1-lerpP)
418*ec779b8eSAndroid Build Coastguard Worker // interpolated[N] = index[N+1]*lerpP + index[N]*(1-lerpP)
419*ec779b8eSAndroid Build Coastguard Worker
420*ec779b8eSAndroid Build Coastguard Worker // on-the-fly interpolated dot product filter
421*ec779b8eSAndroid Build Coastguard Worker if (is_same<TC, float>::value || is_same<TC, double>::value) {
422*ec779b8eSAndroid Build Coastguard Worker static const TC scale = 1. / (65536. * 65536.); // scale phase bits to [0.0, 1.0)
423*ec779b8eSAndroid Build Coastguard Worker TC lerpP = TC(phase << (sizeof(phase)*8 - coefShift)) * scale;
424*ec779b8eSAndroid Build Coastguard Worker
425*ec779b8eSAndroid Build Coastguard Worker Process<CHANNELS, STRIDE>(out,
426*ec779b8eSAndroid Build Coastguard Worker halfNumCoefs, coefsP, coefsN, coefsP1, coefsN1, sP, sN, lerpP, volumeLR);
427*ec779b8eSAndroid Build Coastguard Worker } else {
428*ec779b8eSAndroid Build Coastguard Worker uint32_t lerpP = phase << (sizeof(phase)*8 - coefShift)
429*ec779b8eSAndroid Build Coastguard Worker >> ((sizeof(phase)-sizeof(*coefs))*8 + 1);
430*ec779b8eSAndroid Build Coastguard Worker
431*ec779b8eSAndroid Build Coastguard Worker Process<CHANNELS, STRIDE>(out,
432*ec779b8eSAndroid Build Coastguard Worker halfNumCoefs, coefsP, coefsN, coefsP1, coefsN1, sP, sN, lerpP, volumeLR);
433*ec779b8eSAndroid Build Coastguard Worker }
434*ec779b8eSAndroid Build Coastguard Worker }
435*ec779b8eSAndroid Build Coastguard Worker }
436*ec779b8eSAndroid Build Coastguard Worker
437*ec779b8eSAndroid Build Coastguard Worker } // namespace android
438*ec779b8eSAndroid Build Coastguard Worker
439*ec779b8eSAndroid Build Coastguard Worker #endif /*ANDROID_AUDIO_RESAMPLER_FIR_PROCESS_H*/
440