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The Android Open Source Project9066cfe2009-03-03 19:31:44 -08001/*
2 * Copyright (C) 2007 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
Glenn Kasten8d67e532011-07-08 09:32:50 -070017#define LOG_TAG "AudioSRC"
18
The Android Open Source Project9066cfe2009-03-03 19:31:44 -080019#include <stdint.h>
20#include <string.h>
21#include <sys/types.h>
22#include <cutils/log.h>
23
24#include "AudioResampler.h"
25#include "AudioResamplerCubic.h"
26
The Android Open Source Project9066cfe2009-03-03 19:31:44 -080027namespace android {
28// ----------------------------------------------------------------------------
29
30void AudioResamplerCubic::init() {
31 memset(&left, 0, sizeof(state));
32 memset(&right, 0, sizeof(state));
33}
34
35void AudioResamplerCubic::resample(int32_t* out, size_t outFrameCount,
36 AudioBufferProvider* provider) {
37
38 // should never happen, but we overflow if it does
39 // LOG_ASSERT(outFrameCount < 32767);
40
41 // select the appropriate resampler
42 switch (mChannelCount) {
43 case 1:
44 resampleMono16(out, outFrameCount, provider);
45 break;
46 case 2:
47 resampleStereo16(out, outFrameCount, provider);
48 break;
49 }
50}
51
52void AudioResamplerCubic::resampleStereo16(int32_t* out, size_t outFrameCount,
53 AudioBufferProvider* provider) {
54
55 int32_t vl = mVolume[0];
56 int32_t vr = mVolume[1];
57
58 size_t inputIndex = mInputIndex;
59 uint32_t phaseFraction = mPhaseFraction;
60 uint32_t phaseIncrement = mPhaseIncrement;
61 size_t outputIndex = 0;
62 size_t outputSampleCount = outFrameCount * 2;
63 size_t inFrameCount = (outFrameCount*mInSampleRate)/mSampleRate;
64
65 // fetch first buffer
66 if (mBuffer.frameCount == 0) {
67 mBuffer.frameCount = inFrameCount;
68 provider->getNextBuffer(&mBuffer);
69 if (mBuffer.raw == NULL)
70 return;
71 // LOGW("New buffer: offset=%p, frames=%dn", mBuffer.raw, mBuffer.frameCount);
72 }
73 int16_t *in = mBuffer.i16;
74
75 while (outputIndex < outputSampleCount) {
76 int32_t sample;
77 int32_t x;
78
79 // calculate output sample
80 x = phaseFraction >> kPreInterpShift;
81 out[outputIndex++] += vl * interp(&left, x);
82 out[outputIndex++] += vr * interp(&right, x);
83 // out[outputIndex++] += vr * in[inputIndex*2];
84
85 // increment phase
86 phaseFraction += phaseIncrement;
87 uint32_t indexIncrement = (phaseFraction >> kNumPhaseBits);
88 phaseFraction &= kPhaseMask;
89
90 // time to fetch another sample
91 while (indexIncrement--) {
92
93 inputIndex++;
94 if (inputIndex == mBuffer.frameCount) {
95 inputIndex = 0;
96 provider->releaseBuffer(&mBuffer);
97 mBuffer.frameCount = inFrameCount;
98 provider->getNextBuffer(&mBuffer);
99 if (mBuffer.raw == NULL)
100 goto save_state; // ugly, but efficient
101 in = mBuffer.i16;
102 // LOGW("New buffer: offset=%p, frames=%d\n", mBuffer.raw, mBuffer.frameCount);
103 }
104
105 // advance sample state
106 advance(&left, in[inputIndex*2]);
107 advance(&right, in[inputIndex*2+1]);
108 }
109 }
110
111save_state:
112 // LOGW("Done: index=%d, fraction=%u", inputIndex, phaseFraction);
113 mInputIndex = inputIndex;
114 mPhaseFraction = phaseFraction;
115}
116
117void AudioResamplerCubic::resampleMono16(int32_t* out, size_t outFrameCount,
118 AudioBufferProvider* provider) {
119
120 int32_t vl = mVolume[0];
121 int32_t vr = mVolume[1];
122
123 size_t inputIndex = mInputIndex;
124 uint32_t phaseFraction = mPhaseFraction;
125 uint32_t phaseIncrement = mPhaseIncrement;
126 size_t outputIndex = 0;
127 size_t outputSampleCount = outFrameCount * 2;
128 size_t inFrameCount = (outFrameCount*mInSampleRate)/mSampleRate;
129
130 // fetch first buffer
131 if (mBuffer.frameCount == 0) {
132 mBuffer.frameCount = inFrameCount;
133 provider->getNextBuffer(&mBuffer);
134 if (mBuffer.raw == NULL)
135 return;
136 // LOGW("New buffer: offset=%p, frames=%d\n", mBuffer.raw, mBuffer.frameCount);
137 }
138 int16_t *in = mBuffer.i16;
139
140 while (outputIndex < outputSampleCount) {
141 int32_t sample;
142 int32_t x;
143
144 // calculate output sample
145 x = phaseFraction >> kPreInterpShift;
146 sample = interp(&left, x);
147 out[outputIndex++] += vl * sample;
148 out[outputIndex++] += vr * sample;
149
150 // increment phase
151 phaseFraction += phaseIncrement;
152 uint32_t indexIncrement = (phaseFraction >> kNumPhaseBits);
153 phaseFraction &= kPhaseMask;
154
155 // time to fetch another sample
156 while (indexIncrement--) {
157
158 inputIndex++;
159 if (inputIndex == mBuffer.frameCount) {
160 inputIndex = 0;
161 provider->releaseBuffer(&mBuffer);
162 mBuffer.frameCount = inFrameCount;
163 provider->getNextBuffer(&mBuffer);
164 if (mBuffer.raw == NULL)
165 goto save_state; // ugly, but efficient
166 // LOGW("New buffer: offset=%p, frames=%dn", mBuffer.raw, mBuffer.frameCount);
167 in = mBuffer.i16;
168 }
169
170 // advance sample state
171 advance(&left, in[inputIndex]);
172 }
173 }
174
175save_state:
176 // LOGW("Done: index=%d, fraction=%u", inputIndex, phaseFraction);
177 mInputIndex = inputIndex;
178 mPhaseFraction = phaseFraction;
179}
180
181// ----------------------------------------------------------------------------
182}
183; // namespace android
184