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503 lines
16 KiB
C
503 lines
16 KiB
C
/*
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* DTMF Receiver module, part of:
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* BSD Telephony Of Mexico "Zapata" Telecom Library, version 1.10 12/9/01
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*
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* Part of the "Zapata" Computer Telephony Technology.
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*
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* See http://www.bsdtelephony.com.mx
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*
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*
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* The technologies, software, hardware, designs, drawings, scheumatics, board
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* layouts and/or artwork, concepts, methodologies (including the use of all
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* of these, and that which is derived from the use of all of these), all other
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* intellectual properties contained herein, and all intellectual property
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* rights have been and shall continue to be expressly for the benefit of all
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* mankind, and are perpetually placed in the public domain, and may be used,
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* copied, and/or modified by anyone, in any manner, for any legal purpose,
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* without restriction.
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*
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* This module written by Stephen Underwood.
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*/
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/*
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tone_detect.c - General telephony tone detection, and specific
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detection of DTMF.
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Copyright (C) 2001 Steve Underwood <steveu@coppice.org>
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Despite my general liking of the GPL, I place this code in the
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public domain for the benefit of all mankind - even the slimy
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ones who might try to proprietize my work and use it to my
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detriment.
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*/
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#include <math.h>
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#include <string.h>
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#include <stdio.h>
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#include <time.h>
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#include <fcntl.h>
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#include "tone_detect.h"
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#ifndef FALSE
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#define FALSE 0
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#endif
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#ifndef TRUE
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#define TRUE (!FALSE)
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#endif
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//#define USE_3DNOW
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/* Basic DTMF specs:
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*
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* Minimum tone on = 40ms
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* Minimum tone off = 50ms
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* Maximum digit rate = 10 per second
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* Normal twist <= 8dB accepted
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* Reverse twist <= 4dB accepted
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* S/N >= 15dB will detect OK
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* Attenuation <= 26dB will detect OK
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* Frequency tolerance +- 1.5% will detect, +-3.5% will reject
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*/
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#define SAMPLE_RATE 8000.0
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#define DTMF_THRESHOLD 8.0e7
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#define FAX_THRESHOLD 8.0e7
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#define FAX_2ND_HARMONIC 2.0 /* 4dB */
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#define DTMF_NORMAL_TWIST 6.3 /* 8dB */
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#define DTMF_REVERSE_TWIST ((isradio) ? 4.0 : 2.5) /* 4dB normal */
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#define DTMF_RELATIVE_PEAK_ROW 6.3 /* 8dB */
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#define DTMF_RELATIVE_PEAK_COL 6.3 /* 8dB */
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#define DTMF_2ND_HARMONIC_ROW ((isradio) ? 1.7 : 2.5) /* 4dB normal */
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#define DTMF_2ND_HARMONIC_COL 63.1 /* 18dB */
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static tone_detection_descriptor_t dtmf_detect_row[4];
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static tone_detection_descriptor_t dtmf_detect_col[4];
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static tone_detection_descriptor_t dtmf_detect_row_2nd[4];
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static tone_detection_descriptor_t dtmf_detect_col_2nd[4];
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static tone_detection_descriptor_t fax_detect;
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static tone_detection_descriptor_t fax_detect_2nd;
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static float dtmf_row[] = {
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697.0, 770.0, 852.0, 941.0
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};
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static float dtmf_col[] = {
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1209.0, 1336.0, 1477.0, 1633.0
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};
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static float fax_freq = 1100.0;
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static char dtmf_positions[] = "123A" "456B" "789C" "*0#D";
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static void
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goertzel_init (goertzel_state_t * s, tone_detection_descriptor_t * t)
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{
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s->v2 = s->v3 = 0.0;
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s->fac = t->fac;
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}
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/*- End of function --------------------------------------------------------*/
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#if defined(USE_3DNOW)
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static inline void
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_dtmf_goertzel_update (goertzel_state_t * s, float x[], int samples)
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{
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int n;
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float v;
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int i;
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float vv[16];
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vv[4] = s[0].v2;
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vv[5] = s[1].v2;
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vv[6] = s[2].v2;
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vv[7] = s[3].v2;
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vv[8] = s[0].v3;
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vv[9] = s[1].v3;
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vv[10] = s[2].v3;
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vv[11] = s[3].v3;
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vv[12] = s[0].fac;
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vv[13] = s[1].fac;
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vv[14] = s[2].fac;
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vv[15] = s[3].fac;
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//v1 = s->v2;
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//s->v2 = s->v3;
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//s->v3 = s->fac*s->v2 - v1 + x[0];
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__asm__ __volatile__ (" femms;\n"
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" movq 16(%%edx),%%mm2;\n"
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" movq 24(%%edx),%%mm3;\n"
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" movq 32(%%edx),%%mm4;\n"
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" movq 40(%%edx),%%mm5;\n"
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" movq 48(%%edx),%%mm6;\n"
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" movq 56(%%edx),%%mm7;\n"
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" jmp 1f;\n"
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" .align 32;\n"
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" 1: ;\n"
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" prefetch (%%eax);\n"
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" movq %%mm3,%%mm1;\n"
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" movq %%mm2,%%mm0;\n"
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" movq %%mm5,%%mm3;\n"
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" movq %%mm4,%%mm2;\n"
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" pfmul %%mm7,%%mm5;\n"
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" pfmul %%mm6,%%mm4;\n"
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" pfsub %%mm1,%%mm5;\n"
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" pfsub %%mm0,%%mm4;\n"
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" movq (%%eax),%%mm0;\n"
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" movq %%mm0,%%mm1;\n"
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" punpckldq %%mm0,%%mm1;\n"
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" add $4,%%eax;\n"
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" pfadd %%mm1,%%mm5;\n"
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" pfadd %%mm1,%%mm4;\n"
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" dec %%ecx;\n"
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" jnz 1b;\n"
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" movq %%mm2,16(%%edx);\n"
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" movq %%mm3,24(%%edx);\n"
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" movq %%mm4,32(%%edx);\n"
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" movq %%mm5,40(%%edx);\n"
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" femms;\n"::"c" (samples), "a" (x), "d" (vv)
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:"memory", "eax", "ecx");
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s[0].v2 = vv[4];
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s[1].v2 = vv[5];
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s[2].v2 = vv[6];
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s[3].v2 = vv[7];
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s[0].v3 = vv[8];
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s[1].v3 = vv[9];
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s[2].v3 = vv[10];
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s[3].v3 = vv[11];
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}
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#endif
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/*- End of function --------------------------------------------------------*/
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void
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zap_goertzel_update (goertzel_state_t * s, int16_t x[], int samples)
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{
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int i;
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float v1;
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for (i = 0; i < samples; i++) {
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v1 = s->v2;
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s->v2 = s->v3;
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s->v3 = s->fac * s->v2 - v1 + x[i];
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}
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}
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/*- End of function --------------------------------------------------------*/
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float
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zap_goertzel_result (goertzel_state_t * s)
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{
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return s->v3 * s->v3 + s->v2 * s->v2 - s->v2 * s->v3 * s->fac;
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}
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/*- End of function --------------------------------------------------------*/
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void
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zap_dtmf_detect_init (dtmf_detect_state_t * s)
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{
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int i;
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float theta;
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s->hit1 = s->hit2 = 0;
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for (i = 0; i < 4; i++) {
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theta = 2.0 * G_PI * (dtmf_row[i] / SAMPLE_RATE);
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dtmf_detect_row[i].fac = 2.0 * cos (theta);
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theta = 2.0 * G_PI * (dtmf_col[i] / SAMPLE_RATE);
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dtmf_detect_col[i].fac = 2.0 * cos (theta);
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theta = 2.0 * G_PI * (dtmf_row[i] * 2.0 / SAMPLE_RATE);
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dtmf_detect_row_2nd[i].fac = 2.0 * cos (theta);
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theta = 2.0 * G_PI * (dtmf_col[i] * 2.0 / SAMPLE_RATE);
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dtmf_detect_col_2nd[i].fac = 2.0 * cos (theta);
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goertzel_init (&s->row_out[i], &dtmf_detect_row[i]);
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goertzel_init (&s->col_out[i], &dtmf_detect_col[i]);
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goertzel_init (&s->row_out2nd[i], &dtmf_detect_row_2nd[i]);
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goertzel_init (&s->col_out2nd[i], &dtmf_detect_col_2nd[i]);
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s->energy = 0.0;
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}
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/* Same for the fax dector */
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theta = 2.0 * G_PI * (fax_freq / SAMPLE_RATE);
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fax_detect.fac = 2.0 * cos (theta);
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goertzel_init (&s->fax_tone, &fax_detect);
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/* Same for the fax dector 2nd harmonic */
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theta = 2.0 * G_PI * (fax_freq * 2.0 / SAMPLE_RATE);
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fax_detect_2nd.fac = 2.0 * cos (theta);
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goertzel_init (&s->fax_tone2nd, &fax_detect_2nd);
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s->current_sample = 0;
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s->detected_digits = 0;
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s->lost_digits = 0;
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s->digits[0] = '\0';
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s->mhit = 0;
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}
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/*- End of function --------------------------------------------------------*/
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int
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zap_dtmf_detect (dtmf_detect_state_t * s,
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int16_t amp[], int samples, int isradio)
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{
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float row_energy[4];
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float col_energy[4];
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float fax_energy;
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float fax_energy_2nd;
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float famp;
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float v1;
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int i;
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int j;
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int sample;
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int best_row;
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int best_col;
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int hit;
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int limit;
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hit = 0;
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for (sample = 0; sample < samples; sample = limit) {
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/* 102 is optimised to meet the DTMF specs. */
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if ((samples - sample) >= (102 - s->current_sample))
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limit = sample + (102 - s->current_sample);
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else
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limit = samples;
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#if defined(USE_3DNOW)
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_dtmf_goertzel_update (s->row_out, amp + sample, limit - sample);
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_dtmf_goertzel_update (s->col_out, amp + sample, limit - sample);
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_dtmf_goertzel_update (s->row_out2nd, amp + sample, limit2 - sample);
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_dtmf_goertzel_update (s->col_out2nd, amp + sample, limit2 - sample);
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/* XXX Need to fax detect for 3dnow too XXX */
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#warning "Fax Support Broken"
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#else
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/* The following unrolled loop takes only 35% (rough estimate) of the
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time of a rolled loop on the machine on which it was developed */
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for (j = sample; j < limit; j++) {
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famp = amp[j];
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s->energy += famp * famp;
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/* With GCC 2.95, the following unrolled code seems to take about 35%
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(rough estimate) as long as a neat little 0-3 loop */
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v1 = s->row_out[0].v2;
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s->row_out[0].v2 = s->row_out[0].v3;
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s->row_out[0].v3 = s->row_out[0].fac * s->row_out[0].v2 - v1 + famp;
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v1 = s->col_out[0].v2;
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s->col_out[0].v2 = s->col_out[0].v3;
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s->col_out[0].v3 = s->col_out[0].fac * s->col_out[0].v2 - v1 + famp;
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v1 = s->row_out[1].v2;
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s->row_out[1].v2 = s->row_out[1].v3;
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s->row_out[1].v3 = s->row_out[1].fac * s->row_out[1].v2 - v1 + famp;
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v1 = s->col_out[1].v2;
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s->col_out[1].v2 = s->col_out[1].v3;
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s->col_out[1].v3 = s->col_out[1].fac * s->col_out[1].v2 - v1 + famp;
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v1 = s->row_out[2].v2;
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s->row_out[2].v2 = s->row_out[2].v3;
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s->row_out[2].v3 = s->row_out[2].fac * s->row_out[2].v2 - v1 + famp;
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v1 = s->col_out[2].v2;
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s->col_out[2].v2 = s->col_out[2].v3;
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s->col_out[2].v3 = s->col_out[2].fac * s->col_out[2].v2 - v1 + famp;
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v1 = s->row_out[3].v2;
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s->row_out[3].v2 = s->row_out[3].v3;
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s->row_out[3].v3 = s->row_out[3].fac * s->row_out[3].v2 - v1 + famp;
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v1 = s->col_out[3].v2;
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s->col_out[3].v2 = s->col_out[3].v3;
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s->col_out[3].v3 = s->col_out[3].fac * s->col_out[3].v2 - v1 + famp;
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v1 = s->col_out2nd[0].v2;
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s->col_out2nd[0].v2 = s->col_out2nd[0].v3;
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s->col_out2nd[0].v3 =
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s->col_out2nd[0].fac * s->col_out2nd[0].v2 - v1 + famp;
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v1 = s->row_out2nd[0].v2;
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s->row_out2nd[0].v2 = s->row_out2nd[0].v3;
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s->row_out2nd[0].v3 =
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s->row_out2nd[0].fac * s->row_out2nd[0].v2 - v1 + famp;
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v1 = s->col_out2nd[1].v2;
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s->col_out2nd[1].v2 = s->col_out2nd[1].v3;
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s->col_out2nd[1].v3 =
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s->col_out2nd[1].fac * s->col_out2nd[1].v2 - v1 + famp;
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v1 = s->row_out2nd[1].v2;
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s->row_out2nd[1].v2 = s->row_out2nd[1].v3;
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s->row_out2nd[1].v3 =
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s->row_out2nd[1].fac * s->row_out2nd[1].v2 - v1 + famp;
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v1 = s->col_out2nd[2].v2;
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s->col_out2nd[2].v2 = s->col_out2nd[2].v3;
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s->col_out2nd[2].v3 =
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s->col_out2nd[2].fac * s->col_out2nd[2].v2 - v1 + famp;
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v1 = s->row_out2nd[2].v2;
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s->row_out2nd[2].v2 = s->row_out2nd[2].v3;
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s->row_out2nd[2].v3 =
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s->row_out2nd[2].fac * s->row_out2nd[2].v2 - v1 + famp;
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v1 = s->col_out2nd[3].v2;
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s->col_out2nd[3].v2 = s->col_out2nd[3].v3;
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s->col_out2nd[3].v3 =
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s->col_out2nd[3].fac * s->col_out2nd[3].v2 - v1 + famp;
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v1 = s->row_out2nd[3].v2;
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s->row_out2nd[3].v2 = s->row_out2nd[3].v3;
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s->row_out2nd[3].v3 =
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s->row_out2nd[3].fac * s->row_out2nd[3].v2 - v1 + famp;
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/* Update fax tone */
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v1 = s->fax_tone.v2;
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s->fax_tone.v2 = s->fax_tone.v3;
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s->fax_tone.v3 = s->fax_tone.fac * s->fax_tone.v2 - v1 + famp;
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v1 = s->fax_tone.v2;
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s->fax_tone2nd.v2 = s->fax_tone2nd.v3;
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s->fax_tone2nd.v3 = s->fax_tone2nd.fac * s->fax_tone2nd.v2 - v1 + famp;
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}
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#endif
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s->current_sample += (limit - sample);
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if (s->current_sample < 102)
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continue;
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/* Detect the fax energy, too */
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fax_energy = zap_goertzel_result (&s->fax_tone);
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/* We are at the end of a DTMF detection block */
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/* Find the peak row and the peak column */
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row_energy[0] = zap_goertzel_result (&s->row_out[0]);
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col_energy[0] = zap_goertzel_result (&s->col_out[0]);
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for (best_row = best_col = 0, i = 1; i < 4; i++) {
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row_energy[i] = zap_goertzel_result (&s->row_out[i]);
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if (row_energy[i] > row_energy[best_row])
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best_row = i;
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col_energy[i] = zap_goertzel_result (&s->col_out[i]);
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if (col_energy[i] > col_energy[best_col])
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best_col = i;
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}
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hit = 0;
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/* Basic signal level test and the twist test */
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if (row_energy[best_row] >= DTMF_THRESHOLD
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&&
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col_energy[best_col] >= DTMF_THRESHOLD
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&&
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col_energy[best_col] < row_energy[best_row] * DTMF_REVERSE_TWIST
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&& col_energy[best_col] * DTMF_NORMAL_TWIST > row_energy[best_row]) {
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/* Relative peak test */
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for (i = 0; i < 4; i++) {
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if ((i != best_col
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&& col_energy[i] * DTMF_RELATIVE_PEAK_COL >
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col_energy[best_col])
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|| (i != best_row
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&& row_energy[i] * DTMF_RELATIVE_PEAK_ROW >
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row_energy[best_row])) {
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break;
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}
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}
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/* ... and second harmonic test */
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if (i >= 4
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&&
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(row_energy[best_row] + col_energy[best_col]) > 42.0 * s->energy
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&&
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zap_goertzel_result (&s->col_out2nd[best_col]) *
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DTMF_2ND_HARMONIC_COL < col_energy[best_col]
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&& zap_goertzel_result (&s->row_out2nd[best_row]) *
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DTMF_2ND_HARMONIC_ROW < row_energy[best_row]) {
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hit = dtmf_positions[(best_row << 2) + best_col];
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/* Look for two successive similar results */
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/* The logic in the next test is:
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We need two successive identical clean detects, with
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something different preceeding it. This can work with
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back to back differing digits. More importantly, it
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can work with nasty phones that give a very wobbly start
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to a digit. */
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|
if (hit == s->hit3 && s->hit3 != s->hit2) {
|
|
s->mhit = hit;
|
|
s->digit_hits[(best_row << 2) + best_col]++;
|
|
s->detected_digits++;
|
|
if (s->current_digits < MAX_DTMF_DIGITS) {
|
|
s->digits[s->current_digits++] = hit;
|
|
s->digits[s->current_digits] = '\0';
|
|
} else {
|
|
s->lost_digits++;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
if (!hit && (fax_energy >= FAX_THRESHOLD)
|
|
&& (fax_energy > s->energy * 21.0)) {
|
|
fax_energy_2nd = zap_goertzel_result (&s->fax_tone2nd);
|
|
if (fax_energy_2nd * FAX_2ND_HARMONIC < fax_energy) {
|
|
#if 0
|
|
printf ("Fax energy/Second Harmonic: %f/%f\n", fax_energy,
|
|
fax_energy_2nd);
|
|
#endif
|
|
/* XXX Probably need better checking than just this the energy XXX */
|
|
hit = 'f';
|
|
s->fax_hits++;
|
|
} /* Don't reset fax hits counter */
|
|
} else {
|
|
if (s->fax_hits > 5) {
|
|
s->mhit = 'f';
|
|
s->detected_digits++;
|
|
if (s->current_digits < MAX_DTMF_DIGITS) {
|
|
s->digits[s->current_digits++] = hit;
|
|
s->digits[s->current_digits] = '\0';
|
|
} else {
|
|
s->lost_digits++;
|
|
}
|
|
}
|
|
s->fax_hits = 0;
|
|
}
|
|
s->hit1 = s->hit2;
|
|
s->hit2 = s->hit3;
|
|
s->hit3 = hit;
|
|
/* Reinitialise the detector for the next block */
|
|
for (i = 0; i < 4; i++) {
|
|
goertzel_init (&s->row_out[i], &dtmf_detect_row[i]);
|
|
goertzel_init (&s->col_out[i], &dtmf_detect_col[i]);
|
|
goertzel_init (&s->row_out2nd[i], &dtmf_detect_row_2nd[i]);
|
|
goertzel_init (&s->col_out2nd[i], &dtmf_detect_col_2nd[i]);
|
|
}
|
|
goertzel_init (&s->fax_tone, &fax_detect);
|
|
goertzel_init (&s->fax_tone2nd, &fax_detect_2nd);
|
|
s->energy = 0.0;
|
|
s->current_sample = 0;
|
|
}
|
|
if ((!s->mhit) || (s->mhit != hit)) {
|
|
s->mhit = 0;
|
|
return (0);
|
|
}
|
|
return (hit);
|
|
}
|
|
|
|
/*- End of function --------------------------------------------------------*/
|
|
|
|
int
|
|
zap_dtmf_get (dtmf_detect_state_t * s, char *buf, int max)
|
|
{
|
|
if (max > s->current_digits)
|
|
max = s->current_digits;
|
|
if (max > 0) {
|
|
memcpy (buf, s->digits, max);
|
|
memmove (s->digits, s->digits + max, s->current_digits - max);
|
|
s->current_digits -= max;
|
|
}
|
|
buf[max] = '\0';
|
|
return max;
|
|
}
|
|
|
|
/*- End of function --------------------------------------------------------*/
|
|
/*- End of file ------------------------------------------------------------*/
|