/* * Copyright (c) 2011 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ /* * This file contains the DTMF tone generator and its parameters. * * A sinusoid is generated using the recursive oscillator model * * y[n] = sin(w*n + phi) = 2*cos(w) * y[n-1] - y[n-2] * = a * y[n-1] - y[n-2] * * initialized with * y[-2] = 0 * y[-1] = sin(w) * * A DTMF signal is a combination of two sinusoids, depending * on which event is sent (i.e, which key is pressed). The following * table maps each key (event codes in parentheses) into two tones: * * 1209 Hz 1336 Hz 1477 Hz 1633 Hz * 697 Hz 1 (ev. 1) 2 (ev. 2) 3 (ev. 3) A (ev. 12) * 770 Hz 4 (ev. 4) 5 (ev. 5) 6 (ev. 6) B (ev. 13) * 852 Hz 7 (ev. 7) 8 (ev. 8) 9 (ev. 9) C (ev. 14) * 941 Hz * (ev. 10) 0 (ev. 0) # (ev. 11) D (ev. 15) * * The two tones are added to form the DTMF signal. * */ #include "dtmf_tonegen.h" #include "signal_processing_library.h" #include "neteq_error_codes.h" #ifdef NETEQ_ATEVENT_DECODE /* Must compile NetEQ with DTMF support to enable the functionality */ /*******************/ /* Constant tables */ /*******************/ /* * All tables corresponding to the oscillator model are organized so that * the coefficients for a specific frequency is found in the same position * in every table. The positions for the tones follow this layout: * * dummyVector[8] = * { * 697 Hz, 770 Hz, 852 Hz, 941 Hz, * 1209 Hz, 1336 Hz, 1477 Hz, 1633 Hz * }; */ /* * Tables for the constant a = 2*cos(w) = 2*cos(2*pi*f/fs) * in the oscillator model, for 8, 16, 32 and 48 kHz sample rate. * Table values in Q14. */ const WebRtc_Word16 WebRtcNetEQ_dtfm_aTbl8Khz[8] = { 27980, 26956, 25701, 24219, 19073, 16325, 13085, 9315 }; #ifdef NETEQ_WIDEBAND const WebRtc_Word16 WebRtcNetEQ_dtfm_aTbl16Khz[8]= { 31548, 31281, 30951, 30556, 29144, 28361, 27409, 26258 }; #endif #ifdef NETEQ_32KHZ_WIDEBAND const WebRtc_Word16 WebRtcNetEQ_dtfm_aTbl32Khz[8]= { 32462, 32394, 32311, 32210, 31849, 31647, 31400, 31098 }; #endif #ifdef NETEQ_48KHZ_WIDEBAND const WebRtc_Word16 WebRtcNetEQ_dtfm_aTbl48Khz[8]= { 32632, 32602, 32564, 32520, 32359, 32268, 32157, 32022 }; #endif /* * Initialization values y[-1] = sin(w) = sin(2*pi*f/fs), for 8, 16, 32 and 48 kHz sample rate. * Table values in Q14. */ const WebRtc_Word16 WebRtcNetEQ_dtfm_yInitTab8Khz[8] = { 8528, 9315, 10163, 11036, 13323, 14206,15021, 15708 }; #ifdef NETEQ_WIDEBAND const WebRtc_Word16 WebRtcNetEQ_dtfm_yInitTab16Khz[8]= { 4429, 4879, 5380, 5918, 7490, 8207, 8979, 9801 }; #endif #ifdef NETEQ_32KHZ_WIDEBAND const WebRtc_Word16 WebRtcNetEQ_dtfm_yInitTab32Khz[8]= { 2235, 2468, 2728, 3010, 3853, 4249, 4685, 5164 }; #endif #ifdef NETEQ_48KHZ_WIDEBAND const WebRtc_Word16 WebRtcNetEQ_dtfm_yInitTab48Khz[8]= { 1493, 1649, 1823, 2013, 2582, 2851, 3148, 3476 }; #endif /* Volume in dBm0 from 0 to -63, where 0 is the first table entry. Everything below -36 is discarded, wherefore the table stops at -36. Table entries are in Q14. */ const WebRtc_Word16 WebRtcNetEQ_dtfm_dBm0[37] = { 16141, 14386, 12821, 11427, 10184, 9077, 8090, 7210, 6426, 5727, 5104, 4549, 4054, 3614, 3221, 2870, 2558, 2280, 2032, 1811, 1614, 1439, 1282, 1143, 1018, 908, 809, 721, 643, 573, 510, 455, 405, 361, 322, 287, 256 }; /**************************************************************************** * WebRtcNetEQ_DTMFGenerate(...) * * Generate 10 ms DTMF signal according to input parameters. * * Input: * - DTMFdecInst : DTMF instance * - value : DTMF event number (0-15) * - volume : Volume of generated signal (0-36) * Volume is given in negative dBm0, i.e., volume == 0 * means 0 dBm0 while volume == 36 mean -36 dBm0. * - sampFreq : Sample rate in Hz * * Output: * - signal : Pointer to vector where DTMF signal is stored; * Vector must be at least sampFreq/100 samples long. * - DTMFdecInst : Updated DTMF instance * * Return value : >0 - Number of samples written to signal * : <0 - error */ WebRtc_Word16 WebRtcNetEQ_DTMFGenerate(dtmf_tone_inst_t *DTMFdecInst, WebRtc_Word16 value, WebRtc_Word16 volume, WebRtc_Word16 *signal, WebRtc_UWord16 sampFreq, WebRtc_Word16 extFrameLen) { const WebRtc_Word16 *aTbl; /* pointer to a-coefficient table */ const WebRtc_Word16 *yInitTable; /* pointer to initialization value table */ WebRtc_Word16 a1 = 0; /* a-coefficient for first tone (low tone) */ WebRtc_Word16 a2 = 0; /* a-coefficient for second tone (high tone) */ int i; int frameLen; /* number of samples to generate */ int lowIndex; int highIndex; WebRtc_Word32 tempVal; WebRtc_Word16 tempValLow; WebRtc_Word16 tempValHigh; /* Sanity check for volume */ if ((volume < 0) || (volume > 36)) { return DTMF_DEC_PARAMETER_ERROR; } /* Sanity check for extFrameLen */ if (extFrameLen < -1) { return DTMF_DEC_PARAMETER_ERROR; } /* Select oscillator coefficient tables based on sample rate */ if (sampFreq == 8000) { aTbl = WebRtcNetEQ_dtfm_aTbl8Khz; yInitTable = WebRtcNetEQ_dtfm_yInitTab8Khz; frameLen = 80; #ifdef NETEQ_WIDEBAND } else if (sampFreq == 16000) { aTbl = WebRtcNetEQ_dtfm_aTbl16Khz; yInitTable = WebRtcNetEQ_dtfm_yInitTab16Khz; frameLen = 160; #endif #ifdef NETEQ_32KHZ_WIDEBAND } else if (sampFreq == 32000) { aTbl = WebRtcNetEQ_dtfm_aTbl32Khz; yInitTable = WebRtcNetEQ_dtfm_yInitTab32Khz; frameLen = 320; #endif #ifdef NETEQ_48KHZ_WIDEBAND } else if (sampFreq == 48000) { aTbl = WebRtcNetEQ_dtfm_aTbl48Khz; yInitTable = WebRtcNetEQ_dtfm_yInitTab48Khz; frameLen = 480; #endif } else { /* unsupported sample rate */ return DTMF_GEN_UNKNOWN_SAMP_FREQ; } if (extFrameLen >= 0) { frameLen = extFrameLen; } /* select low frequency based on event value */ switch (value) { case 1: case 2: case 3: case 12: /* first row on keypad */ { lowIndex = 0; /* low frequency: 697 Hz */ break; } case 4: case 5: case 6: case 13: /* second row on keypad */ { lowIndex = 1; /* low frequency: 770 Hz */ break; } case 7: case 8: case 9: case 14: /* third row on keypad */ { lowIndex = 2; /* low frequency: 852 Hz */ break; } case 0: case 10: case 11: case 15: /* fourth row on keypad */ { lowIndex = 3; /* low frequency: 941 Hz */ break; } default: { return DTMF_DEC_PARAMETER_ERROR; } } /* end switch */ /* select high frequency based on event value */ switch (value) { case 1: case 4: case 7: case 10: /* first column on keypad */ { highIndex = 4; /* high frequency: 1209 Hz */ break; } case 2: case 5: case 8: case 0: /* second column on keypad */ { highIndex = 5;/* high frequency: 1336 Hz */ break; } case 3: case 6: case 9: case 11: /* third column on keypad */ { highIndex = 6;/* high frequency: 1477 Hz */ break; } case 12: case 13: case 14: case 15: /* fourth column on keypad (special) */ { highIndex = 7;/* high frequency: 1633 Hz */ break; } default: { return DTMF_DEC_PARAMETER_ERROR; } } /* end switch */ /* select coefficients based on results from switches above */ a1 = aTbl[lowIndex]; /* coefficient for first (low) tone */ a2 = aTbl[highIndex]; /* coefficient for second (high) tone */ if (DTMFdecInst->reinit) { /* set initial values for the recursive model */ DTMFdecInst->oldOutputLow[0] = yInitTable[lowIndex]; DTMFdecInst->oldOutputLow[1] = 0; DTMFdecInst->oldOutputHigh[0] = yInitTable[highIndex]; DTMFdecInst->oldOutputHigh[1] = 0; /* reset reinit flag */ DTMFdecInst->reinit = 0; } /* generate signal sample by sample */ for (i = 0; i < frameLen; i++) { /* Use rescursion formula y[n] = a*y[n-1] - y[n-2] */ tempValLow = (WebRtc_Word16) (((WEBRTC_SPL_MUL_16_16(a1, DTMFdecInst->oldOutputLow[1]) + 8192) >> 14) - DTMFdecInst->oldOutputLow[0]); tempValHigh = (WebRtc_Word16) (((WEBRTC_SPL_MUL_16_16(a2, DTMFdecInst->oldOutputHigh[1]) + 8192) >> 14) - DTMFdecInst->oldOutputHigh[0]); /* Update recursion memory */ DTMFdecInst->oldOutputLow[0] = DTMFdecInst->oldOutputLow[1]; DTMFdecInst->oldOutputLow[1] = tempValLow; DTMFdecInst->oldOutputHigh[0] = DTMFdecInst->oldOutputHigh[1]; DTMFdecInst->oldOutputHigh[1] = tempValHigh; /* scale high tone with 32768 (15 left shifts) and low tone with 23171 (3dB lower than high tone) */ tempVal = WEBRTC_SPL_MUL_16_16(DTMF_AMP_LOW, tempValLow) + WEBRTC_SPL_LSHIFT_W32((WebRtc_Word32)tempValHigh, 15); /* Norm the signal to Q14 (with proper rounding) */ tempVal = (tempVal + 16384) >> 15; /* Scale the signal to correct dbM0 value */ signal[i] = (WebRtc_Word16) WEBRTC_SPL_RSHIFT_W32( (WEBRTC_SPL_MUL_16_16(tempVal, WebRtcNetEQ_dtfm_dBm0[volume]) + 8192), 14); /* volume value is in Q14; use proper rounding */ } return frameLen; } #endif /* NETEQ_ATEVENT_DECODE */