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1 /*
2  *  Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
3  *
4  *  Use of this source code is governed by a BSD-style license
5  *  that can be found in the LICENSE file in the root of the source
6  *  tree. An additional intellectual property rights grant can be found
7  *  in the file PATENTS.  All contributing project authors may
8  *  be found in the AUTHORS file in the root of the source tree.
9  */
10 
11 #include "utility.h"
12 
13 #include <assert.h>
14 #include <stdio.h>
15 #include <stdlib.h>
16 #include <string.h>
17 
18 #include "testing/gtest/include/gtest/gtest.h"
19 #include "webrtc/common.h"
20 #include "webrtc/common_types.h"
21 #include "webrtc/modules/audio_coding/include/audio_coding_module.h"
22 #include "webrtc/modules/audio_coding/acm2/acm_common_defs.h"
23 
24 #define NUM_CODECS_WITH_FIXED_PAYLOAD_TYPE 13
25 
26 namespace webrtc {
27 
ACMTestTimer()28 ACMTestTimer::ACMTestTimer()
29     : _msec(0),
30       _sec(0),
31       _min(0),
32       _hour(0) {
33   return;
34 }
35 
~ACMTestTimer()36 ACMTestTimer::~ACMTestTimer() {
37   return;
38 }
39 
Reset()40 void ACMTestTimer::Reset() {
41   _msec = 0;
42   _sec = 0;
43   _min = 0;
44   _hour = 0;
45   return;
46 }
Tick10ms()47 void ACMTestTimer::Tick10ms() {
48   _msec += 10;
49   Adjust();
50   return;
51 }
52 
Tick1ms()53 void ACMTestTimer::Tick1ms() {
54   _msec++;
55   Adjust();
56   return;
57 }
58 
Tick100ms()59 void ACMTestTimer::Tick100ms() {
60   _msec += 100;
61   Adjust();
62   return;
63 }
64 
Tick1sec()65 void ACMTestTimer::Tick1sec() {
66   _sec++;
67   Adjust();
68   return;
69 }
70 
CurrentTimeHMS(char * currTime)71 void ACMTestTimer::CurrentTimeHMS(char* currTime) {
72   sprintf(currTime, "%4lu:%02u:%06.3f", _hour, _min,
73           (double) _sec + (double) _msec / 1000.);
74   return;
75 }
76 
CurrentTime(unsigned long & h,unsigned char & m,unsigned char & s,unsigned short & ms)77 void ACMTestTimer::CurrentTime(unsigned long& h, unsigned char& m,
78                                unsigned char& s, unsigned short& ms) {
79   h = _hour;
80   m = _min;
81   s = _sec;
82   ms = _msec;
83   return;
84 }
85 
Adjust()86 void ACMTestTimer::Adjust() {
87   unsigned int n;
88   if (_msec >= 1000) {
89     n = _msec / 1000;
90     _msec -= (1000 * n);
91     _sec += n;
92   }
93   if (_sec >= 60) {
94     n = _sec / 60;
95     _sec -= (n * 60);
96     _min += n;
97   }
98   if (_min >= 60) {
99     n = _min / 60;
100     _min -= (n * 60);
101     _hour += n;
102   }
103 }
104 
ChooseCodec(CodecInst & codecInst)105 int16_t ChooseCodec(CodecInst& codecInst) {
106 
107   PrintCodecs();
108   //AudioCodingModule* tmpACM = AudioCodingModule::Create(0);
109   uint8_t noCodec = AudioCodingModule::NumberOfCodecs();
110   int8_t codecID;
111   bool outOfRange = false;
112   char myStr[15] = "";
113   do {
114     printf("\nChoose a codec [0]: ");
115     EXPECT_TRUE(fgets(myStr, 10, stdin) != NULL);
116     codecID = atoi(myStr);
117     if ((codecID < 0) || (codecID >= noCodec)) {
118       printf("\nOut of range.\n");
119       outOfRange = true;
120     }
121   } while (outOfRange);
122 
123   CHECK_ERROR(AudioCodingModule::Codec((uint8_t )codecID, &codecInst));
124   return 0;
125 }
126 
PrintCodecs()127 void PrintCodecs() {
128   uint8_t noCodec = AudioCodingModule::NumberOfCodecs();
129 
130   CodecInst codecInst;
131   printf("No  Name                [Hz]    [bps]\n");
132   for (uint8_t codecCntr = 0; codecCntr < noCodec; codecCntr++) {
133     AudioCodingModule::Codec(codecCntr, &codecInst);
134     printf("%2d- %-18s %5d   %6d\n", codecCntr, codecInst.plname,
135            codecInst.plfreq, codecInst.rate);
136   }
137 
138 }
139 
CircularBuffer(uint32_t len)140 CircularBuffer::CircularBuffer(uint32_t len)
141     : _buff(NULL),
142       _idx(0),
143       _buffIsFull(false),
144       _calcAvg(false),
145       _calcVar(false),
146       _sum(0),
147       _sumSqr(0) {
148   _buff = new double[len];
149   if (_buff == NULL) {
150     _buffLen = 0;
151   } else {
152     for (uint32_t n = 0; n < len; n++) {
153       _buff[n] = 0;
154     }
155     _buffLen = len;
156   }
157 }
158 
~CircularBuffer()159 CircularBuffer::~CircularBuffer() {
160   if (_buff != NULL) {
161     delete[] _buff;
162     _buff = NULL;
163   }
164 }
165 
Update(const double newVal)166 void CircularBuffer::Update(const double newVal) {
167   assert(_buffLen > 0);
168 
169   // store the value that is going to be overwritten
170   double oldVal = _buff[_idx];
171   // record the new value
172   _buff[_idx] = newVal;
173   // increment the index, to point to where we would
174   // write next
175   _idx++;
176   // it is a circular buffer, if we are at the end
177   // we have to cycle to the beginning
178   if (_idx >= _buffLen) {
179     // flag that the buffer is filled up.
180     _buffIsFull = true;
181     _idx = 0;
182   }
183 
184   // Update
185 
186   if (_calcAvg) {
187     // for the average we have to update
188     // the sum
189     _sum += (newVal - oldVal);
190   }
191 
192   if (_calcVar) {
193     // to calculate variance we have to update
194     // the sum of squares
195     _sumSqr += (double) (newVal - oldVal) * (double) (newVal + oldVal);
196   }
197 }
198 
SetArithMean(bool enable)199 void CircularBuffer::SetArithMean(bool enable) {
200   assert(_buffLen > 0);
201 
202   if (enable && !_calcAvg) {
203     uint32_t lim;
204     if (_buffIsFull) {
205       lim = _buffLen;
206     } else {
207       lim = _idx;
208     }
209     _sum = 0;
210     for (uint32_t n = 0; n < lim; n++) {
211       _sum += _buff[n];
212     }
213   }
214   _calcAvg = enable;
215 }
216 
SetVariance(bool enable)217 void CircularBuffer::SetVariance(bool enable) {
218   assert(_buffLen > 0);
219 
220   if (enable && !_calcVar) {
221     uint32_t lim;
222     if (_buffIsFull) {
223       lim = _buffLen;
224     } else {
225       lim = _idx;
226     }
227     _sumSqr = 0;
228     for (uint32_t n = 0; n < lim; n++) {
229       _sumSqr += _buff[n] * _buff[n];
230     }
231   }
232   _calcAvg = enable;
233 }
234 
ArithMean(double & mean)235 int16_t CircularBuffer::ArithMean(double& mean) {
236   assert(_buffLen > 0);
237 
238   if (_buffIsFull) {
239 
240     mean = _sum / (double) _buffLen;
241     return 0;
242   } else {
243     if (_idx > 0) {
244       mean = _sum / (double) _idx;
245       return 0;
246     } else {
247       return -1;
248     }
249 
250   }
251 }
252 
Variance(double & var)253 int16_t CircularBuffer::Variance(double& var) {
254   assert(_buffLen > 0);
255 
256   if (_buffIsFull) {
257     var = _sumSqr / (double) _buffLen;
258     return 0;
259   } else {
260     if (_idx > 0) {
261       var = _sumSqr / (double) _idx;
262       return 0;
263     } else {
264       return -1;
265     }
266   }
267 }
268 
FixedPayloadTypeCodec(const char * payloadName)269 bool FixedPayloadTypeCodec(const char* payloadName) {
270   char fixPayloadTypeCodecs[NUM_CODECS_WITH_FIXED_PAYLOAD_TYPE][32] = { "PCMU",
271       "PCMA", "GSM", "G723", "DVI4", "LPC", "PCMA", "G722", "QCELP", "CN",
272       "MPA", "G728", "G729" };
273 
274   for (int n = 0; n < NUM_CODECS_WITH_FIXED_PAYLOAD_TYPE; n++) {
275     if (!STR_CASE_CMP(payloadName, fixPayloadTypeCodecs[n])) {
276       return true;
277     }
278   }
279   return false;
280 }
281 
Reset()282 void VADCallback::Reset() {
283   memset(_numFrameTypes, 0, sizeof(_numFrameTypes));
284 }
285 
VADCallback()286 VADCallback::VADCallback() {
287   memset(_numFrameTypes, 0, sizeof(_numFrameTypes));
288 }
289 
PrintFrameTypes()290 void VADCallback::PrintFrameTypes() {
291   printf("kEmptyFrame......... %d\n", _numFrameTypes[kEmptyFrame]);
292   printf("kAudioFrameSpeech... %d\n", _numFrameTypes[kAudioFrameSpeech]);
293   printf("kAudioFrameCN....... %d\n", _numFrameTypes[kAudioFrameCN]);
294   printf("kVideoFrameKey...... %d\n", _numFrameTypes[kVideoFrameKey]);
295   printf("kVideoFrameDelta.... %d\n", _numFrameTypes[kVideoFrameDelta]);
296 }
297 
InFrameType(FrameType frame_type)298 int32_t VADCallback::InFrameType(FrameType frame_type) {
299   _numFrameTypes[frame_type]++;
300   return 0;
301 }
302 
303 }  // namespace webrtc
304