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/*****************************************************************************/ /* * gentbl.c -- soundcard radio modem driver table generator. * * Copyright (C) 1996 Thomas Sailer (sailer@ife.ee.ethz.ch) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * Please note that the GPL allows you to use the driver, NOT the radio. * In order to use the radio, you need a license from the communications * authority of your country. * */ #include <stdio.h> #include <math.h> #include <string.h> /* -------------------------------------------------------------------- */ static void gentbl_offscostab(FILE *f, unsigned int nbits) { int i; fprintf(f, "\n/*\n * small cosine table in U8 format\n */\n" "#define OFFSCOSTABBITS %u\n" "#define OFFSCOSTABSIZE (1<<OFFSCOSTABBITS)\n\n", nbits); fprintf(f, "static unsigned char offscostab[OFFSCOSTABSIZE] = {\n\t"); for (i = 0; i < (1<<nbits); i++) { fprintf(f, "%4u", (int) (128+127.0*cos(i*2.0*M_PI/(1<<nbits)))); if (i < (1<<nbits)-1) fprintf(f, "%s", (i & 7) == 7 ? ",\n\t" : ","); } fprintf(f, "\n};\n\n" "#define OFFSCOS(x) offscostab[((x)>>%d)&0x%x]\n\n", 16-nbits, (1<<nbits)-1); } /* -------------------------------------------------------------------- */ static void gentbl_costab(FILE *f, unsigned int nbits) { int i; fprintf(f, "\n/*\n * more accurate cosine table\n */\n\n" "static const short costab[%d] = {", (1<<nbits)); for (i = 0; i < (1<<nbits); i++) { if (!(i & 7)) fprintf(f, "\n\t"); fprintf(f, "%6d", (int)(32767.0*cos(i*2.0*M_PI/(1<<nbits)))); if (i != ((1<<nbits)-1)) fprintf(f, ", "); } fprintf(f, "\n};\n\n#define COS(x) costab[((x)>>%d)&0x%x]\n" "#define SIN(x) COS((x)+0xc000)\n\n", 16-nbits, (1<<nbits)-1); } /* -------------------------------------------------------------------- */ #define AFSK12_SAMPLE_RATE 9600 #define AFSK12_TX_FREQ_LO 1200 #define AFSK12_TX_FREQ_HI 2200 #define AFSK12_CORRLEN 8 static void gentbl_afsk1200(FILE *f) { int i, v, sum; #define ARGLO(x) 2.0*M_PI*(double)x*(double)AFSK12_TX_FREQ_LO/(double)AFSK12_SAMPLE_RATE #define ARGHI(x) 2.0*M_PI*(double)x*(double)AFSK12_TX_FREQ_HI/(double)AFSK12_SAMPLE_RATE fprintf(f, "\n/*\n * afsk1200 specific tables\n */\n" "#define AFSK12_SAMPLE_RATE %u\n" "#define AFSK12_TX_FREQ_LO %u\n" "#define AFSK12_TX_FREQ_HI %u\n" "#define AFSK12_CORRLEN %u\n\n", AFSK12_SAMPLE_RATE, AFSK12_TX_FREQ_LO, AFSK12_TX_FREQ_HI, AFSK12_CORRLEN); fprintf(f, "static const int afsk12_tx_lo_i[] = {\n\t"); for(sum = i = 0; i < AFSK12_CORRLEN; i++) { sum += (v = 127.0*cos(ARGLO(i))); fprintf(f, " %4i%c", v, (i < AFSK12_CORRLEN-1) ? ',' : ' '); } fprintf(f, "\n};\n#define SUM_AFSK12_TX_LO_I %d\n\n" "static const int afsk12_tx_lo_q[] = {\n\t", sum); for(sum = i = 0; i < AFSK12_CORRLEN; i++) { sum += (v = 127.0*sin(ARGLO(i))); fprintf(f, " %4i%c", v, (i < AFSK12_CORRLEN-1) ? ',' : ' '); } fprintf(f, "\n};\n#define SUM_AFSK12_TX_LO_Q %d\n\n" "static const int afsk12_tx_hi_i[] = {\n\t", sum); for(sum = i = 0; i < AFSK12_CORRLEN; i++) { sum += (v = 127.0*cos(ARGHI(i))); fprintf(f, " %4i%c", v, (i < AFSK12_CORRLEN-1) ? ',' : ' '); } fprintf(f, "\n};\n#define SUM_AFSK12_TX_HI_I %d\n\n" "static const int afsk12_tx_hi_q[] = {\n\t", sum); for(sum = i = 0; i < AFSK12_CORRLEN; i++) { sum += (v = 127.0*sin(ARGHI(i))); fprintf(f, " %4i%c", v, (i < AFSK12_CORRLEN-1) ? ',' : ' '); } fprintf(f, "\n};\n#define SUM_AFSK12_TX_HI_Q %d\n\n", sum); #undef ARGLO #undef ARGHI } /* -------------------------------------------------------------------- */ static const float fsk96_tx_coeff_4[32] = { -0.001152, 0.000554, 0.002698, 0.002753, -0.002033, -0.008861, -0.008002, 0.006607, 0.023727, 0.018905, -0.018056, -0.057957, -0.044368, 0.055683, 0.207667, 0.322048, 0.322048, 0.207667, 0.055683, -0.044368, -0.057957, -0.018056, 0.018905, 0.023727, 0.006607, -0.008002, -0.008861, -0.002033, 0.002753, 0.002698, 0.000554, -0.001152 }; static const float fsk96_tx_coeff_5[40] = { -0.001009, -0.000048, 0.001376, 0.002547, 0.002061, -0.001103, -0.005795, -0.008170, -0.004017, 0.006924, 0.018225, 0.019238, 0.002925, -0.025777, -0.048064, -0.039683, 0.013760, 0.104144, 0.200355, 0.262346, 0.262346, 0.200355, 0.104144, 0.013760, -0.039683, -0.048064, -0.025777, 0.002925, 0.019238, 0.018225, 0.006924, -0.004017, -0.008170, -0.005795, -0.001103, 0.002061, 0.002547, 0.001376, -0.000048, -0.001009 }; #define HAMMING(x) (0.54-0.46*cos(2*M_PI*(x))); static inline float hamming(float x) { return 0.54-0.46*cos(2*M_PI*x); } static inline float sinc(float x) { if (x == 0) return 1; x *= M_PI; return sin(x)/x; } static void gentbl_fsk9600(FILE *f) { int i, j, k, l, m; float s; float c[44]; float min, max; fprintf(f, "\n/*\n * fsk9600 specific tables\n */\n"); min = max = 0; memset(c, 0, sizeof(c)); #if 0 memcpy(c+2, fsk96_tx_coeff_4, sizeof(fsk96_tx_coeff_4)); #else for (i = 0; i < 29; i++) c[3+i] = sinc(1.2*((i-14.0)/4.0))*hamming(i/28.0)/3.5; #endif fprintf(f, "static unsigned char fsk96_txfilt_4[] = {\n\t"); for (i = 0; i < 4; i++) { for (j = 0; j < 256; j++) { for (k = 1, s = 0, l = i; k < 256; k <<= 1) { if (j & k) { for (m = 0; m < 4; m++, l++) s += c[l]; } else { for (m = 0; m < 4; m++, l++) s -= c[l]; } } s *= 0.75; if (s > max) max = s; if (s < min) min = s; fprintf(f, "%4d", (int)(128+127*s)); if (i < 3 || j < 255) fprintf(f, ",%s", (j & 7) == 7 ? "\n\t" : ""); } } #ifdef VERBOSE fprintf(stderr, "fsk9600: txfilt4: min = %f; max = %f\n", min, max); #endif fprintf(f, "\n};\n\n"); min = max = 0; memset(c, 0, sizeof(c)); #if 0 memcpy(c+2, fsk96_tx_coeff_5, sizeof(fsk96_tx_coeff_5)); #else for (i = 0; i < 36; i++) c[4+i] = sinc(1.2*((i-17.5)/5.0))*hamming(i/35.0)/4.5; #endif fprintf(f, "static unsigned char fsk96_txfilt_5[] = {\n\t"); for (i = 0; i < 5; i++) { for (j = 0; j < 256; j++) { for (k = 1, s = 0, l = i; k < 256; k <<= 1) { if (j & k) { for (m = 0; m < 5; m++, l++) s += c[l]; } else { for (m = 0; m < 5; m++, l++) s -= c[l]; } } s *= 0.75; if (s > max) max = s; if (s < min) min = s; fprintf(f, "%4d", (int)(128+127*s)); if (i < 4 || j < 255) fprintf(f, ",%s", (j & 7) == 7 ? "\n\t" : ""); } } #ifdef VERBOSE fprintf(stderr, "fsk9600: txfilt5: min = %f; max = %f\n", min, max); #endif fprintf(f, "\n};\n\n"); } /* -------------------------------------------------------------------- */ #define AFSK26_SAMPLERATE 16000 #define AFSK26_NUMCAR 2 #define AFSK26_FIRSTCAR 2000 #define AFSK26_MSK_LEN 6 #define AFSK26_RXOVER 2 #define AFSK26_DEMCORRLEN (2*AFSK26_MSK_LEN) #define AFSK26_WINDOW(x) ((1-cos(2.0*M_PI*(x)))/2.0) #define AFSK26_AMPL(x) (((x)?1.0:0.7)) #undef AFSK26_AMPL #define AFSK26_AMPL(x) 1 static void gentbl_afsk2666(FILE *f) { int i, j, k, l, o, v, sumi, sumq; float window[AFSK26_DEMCORRLEN*AFSK26_RXOVER]; int cfreq[AFSK26_NUMCAR]; fprintf(f, "\n/*\n * afsk2666 specific tables\n */\n" "#define AFSK26_DEMCORRLEN %d\n" "#define AFSK26_SAMPLERATE %d\n\n", AFSK26_DEMCORRLEN, AFSK26_SAMPLERATE); fprintf(f, "static const unsigned int afsk26_carfreq[%d] = { ", AFSK26_NUMCAR); for (i = 0; i < AFSK26_NUMCAR; i++) { cfreq[i] = 0x10000*AFSK26_FIRSTCAR/AFSK26_SAMPLERATE+ 0x10000*i/AFSK26_MSK_LEN/2; fprintf(f, "0x%x", cfreq[i]); if (i < AFSK26_NUMCAR-1) fprintf(f, ", "); } fprintf(f, " };\n\n"); for (i = 0; i < AFSK26_DEMCORRLEN*AFSK26_RXOVER; i++) window[i] = AFSK26_WINDOW(((float)i)/(AFSK26_DEMCORRLEN* AFSK26_RXOVER)) * 127.0; fprintf(f, "\nstatic const struct {\n\t" "int i[%d];\n\tint q[%d];\n} afsk26_dem_tables[%d][%d] = {\n", AFSK26_DEMCORRLEN, AFSK26_DEMCORRLEN, AFSK26_RXOVER, AFSK26_NUMCAR); for (o = AFSK26_RXOVER-1; o >= 0; o--) { fprintf(f, "\t{\n"); for (i = 0; i < AFSK26_NUMCAR; i++) { j = cfreq[i]; fprintf(f, "\t\t{{ "); for (l = AFSK26_DEMCORRLEN-1, k = (j * o)/AFSK26_RXOVER, sumi = 0; l >= 0; l--, k = (k+j)&0xffffu) { sumi += (v = AFSK26_AMPL(i)*window[l*AFSK26_RXOVER+o]* cos(M_PI*k/32768.0)); fprintf(f, "%6d%s", v, l ? ", " : " }, { "); } for (l = AFSK26_DEMCORRLEN-1, k = (j * o)/AFSK26_RXOVER, sumq = 0; l >= 0; l--, k = (k+j)&0xffffu) { sumq += (v = AFSK26_AMPL(i)*window[l*AFSK26_RXOVER+o]* sin(M_PI*k/32768.0)); fprintf(f, "%6d%s", v, l ? ", " : " }}"); } if (i < 1) fprintf(f, ","); fprintf(f, "\n#define AFSK26_DEM_SUM_I_%d_%d %d\n" "#define AFSK26_DEM_SUM_Q_%d_%d %d\n", AFSK26_RXOVER-1-o, i, sumi, AFSK26_RXOVER-1-o, i, sumq); } fprintf(f, "\t}%s\n", o ? "," : ""); } fprintf(f, "};\n\n"); } /* -------------------------------------------------------------------- */ #define ATAN_TABLEN 1024 static void gentbl_atantab(FILE *f) { int i; short x; fprintf(f, "\n/*\n" " * arctan table (indexed by i/q; should really be indexed by i/(i+q)\n" " */\n""#define ATAN_TABLEN %d\n\n" "static const unsigned short atan_tab[ATAN_TABLEN+2] = {", ATAN_TABLEN); for (i = 0; i <= ATAN_TABLEN; i++) { if (!(i & 7)) fprintf(f, "\n\t"); x = atan(i / (float)ATAN_TABLEN) / M_PI * 0x8000; fprintf(f, "%6d, ", x); } fprintf(f, "%6d\n};\n\n", x); } /* -------------------------------------------------------------------- */ #define PSK48_TXF_OVERSAMPLING 5 #define PSK48_TXF_NUMSAMPLES 16 #define PSK48_RXF_LEN 64 static const float psk48_tx_coeff[80] = { -0.000379, -0.000640, -0.000000, 0.000772, 0.000543, -0.000629, -0.001187, -0.000000, 0.001634, 0.001183, -0.001382, -0.002603, -0.000000, 0.003481, 0.002472, -0.002828, -0.005215, -0.000000, 0.006705, 0.004678, -0.005269, -0.009584, -0.000000, 0.012065, 0.008360, -0.009375, -0.017028, -0.000000, 0.021603, 0.015123, -0.017229, -0.032012, -0.000000, 0.043774, 0.032544, -0.040365, -0.084963, -0.000000, 0.201161, 0.374060, 0.374060, 0.201161, -0.000000, -0.084963, -0.040365, 0.032544, 0.043774, -0.000000, -0.032012, -0.017229, 0.015123, 0.021603, -0.000000, -0.017028, -0.009375, 0.008360, 0.012065, -0.000000, -0.009584, -0.005269, 0.004678, 0.006705, -0.000000, -0.005215, -0.002828, 0.002472, 0.003481, -0.000000, -0.002603, -0.001382, 0.001183, 0.001634, -0.000000, -0.001187, -0.000629, 0.000543, 0.000772, -0.000000, -0.000640, -0.000379 }; static const float psk48_rx_coeff[PSK48_RXF_LEN] = { -0.000219, 0.000360, 0.000873, 0.001080, 0.000747, -0.000192, -0.001466, -0.002436, -0.002328, -0.000699, 0.002101, 0.004809, 0.005696, 0.003492, -0.001633, -0.007660, -0.011316, -0.009627, -0.001780, 0.009712, 0.019426, 0.021199, 0.011342, -0.008583, -0.030955, -0.044093, -0.036634, -0.002651, 0.054742, 0.123101, 0.184198, 0.220219, 0.220219, 0.184198, 0.123101, 0.054742, -0.002651, -0.036634, -0.044093, -0.030955, -0.008583, 0.011342, 0.021199, 0.019426, 0.009712, -0.001780, -0.009627, -0.011316, -0.007660, -0.001633, 0.003492, 0.005696, 0.004809, 0.002101, -0.000699, -0.002328, -0.002436, -0.001466, -0.000192, 0.000747, 0.001080, 0.000873, 0.000360, -0.000219 }; static void gentbl_psk4800(FILE *f) { int i, j, k; short x; fprintf(f, "\n/*\n * psk4800 specific tables\n */\n" "#define PSK48_TXF_OVERSAMPLING %d\n" "#define PSK48_TXF_NUMSAMPLES %d\n\n" "#define PSK48_SAMPLERATE 8000\n" "#define PSK48_CAR_FREQ 2000\n" "#define PSK48_PSK_LEN 5\n" "#define PSK48_RXF_LEN %u\n" "#define PSK48_PHASEINC (0x10000*PSK48_CAR_FREQ/PSK48_SAMPLERATE)\n" "#define PSK48_SPHASEINC (0x10000/(2*PSK48_PSK_LEN))\n\n" "static const short psk48_tx_table[PSK48_TXF_OVERSAMPLING*" "PSK48_TXF_NUMSAMPLES*8*2] = {", PSK48_TXF_OVERSAMPLING, PSK48_TXF_NUMSAMPLES, PSK48_RXF_LEN); for (i = 0; i < PSK48_TXF_OVERSAMPLING; i++) { for (j = 0; j < PSK48_TXF_NUMSAMPLES; j++) { fprintf(f, "\n\t"); for (k = 0; k < 8; k++) { x = 32767.0 * cos(k*M_PI/4.0) * psk48_tx_coeff[j * PSK48_TXF_OVERSAMPLING + i]; fprintf(f, "%6d, ", x); } fprintf(f, "\n\t"); for (k = 0; k < 8; k++) { x = 32767.0 * sin(k*M_PI/4.0) * psk48_tx_coeff[j * PSK48_TXF_OVERSAMPLING + i]; fprintf(f, "%6d", x); if (k != 7 || j != PSK48_TXF_NUMSAMPLES-1 || i != PSK48_TXF_OVERSAMPLING-1) fprintf(f, ", "); } } } fprintf(f, "\n};\n\n"); fprintf(f, "static const short psk48_rx_coeff[PSK48_RXF_LEN] = {\n\t"); for (i = 0; i < PSK48_RXF_LEN; i++) { fprintf(f, "%6d", (int)(psk48_rx_coeff[i]*32767.0)); if (i < PSK48_RXF_LEN-1) fprintf(f, ",%s", (i & 7) == 7 ? "\n\t" : ""); } fprintf(f, "\n};\n\n"); } /* -------------------------------------------------------------------- */ static void gentbl_hapn4800(FILE *f) { int i, j, k, l; float s; float c[40]; float min, max; fprintf(f, "\n/*\n * hapn4800 specific tables\n */\n\n"); /* * firstly generate tables for the FM transmitter modulator */ min = max = 0; memset(c, 0, sizeof(c)); for (i = 0; i < 24; i++) c[8+i] = sinc(1.5*((i-11.5)/8.0))*hamming(i/23.0)/2.4; for (i = 0; i < 24; i++) c[i] -= c[i+8]; fprintf(f, "static unsigned char hapn48_txfilt_8[] = {\n\t"); for (i = 0; i < 8; i++) { for (j = 0; j < 16; j++) { for (k = 1, s = 0, l = i; k < 16; k <<= 1, l += 8) { if (j & k) s += c[l]; else s -= c[l]; } if (s > max) max = s; if (s < min) min = s; fprintf(f, "%4d", (int)(128+127*s)); if (i < 7 || j < 15) fprintf(f, ",%s", (j & 7) == 7 ? "\n\t" : ""); } } #ifdef VERBOSE fprintf(stderr, "hapn4800: txfilt8: min = %f; max = %f\n", min, max); #endif fprintf(f, "\n};\n\n"); min = max = 0; memset(c, 0, sizeof(c)); for (i = 0; i < 30; i++) c[10+i] = sinc(1.5*((i-14.5)/10.0))*hamming(i/29.0)/2.4; for (i = 0; i < 30; i++) c[i] -= c[i+10]; fprintf(f, "static unsigned char hapn48_txfilt_10[] = {\n\t"); for (i = 0; i < 10; i++) { for (j = 0; j < 16; j++) { for (k = 1, s = 0, l = i; k < 16; k <<= 1, l += 10) { if (j & k) s += c[l]; else s -= c[l]; } if (s > max) max = s; if (s < min) min = s; fprintf(f, "%4d", (int)(128+127*s)); if (i < 9 || j < 15) fprintf(f, ",%s", (j & 7) == 7 ? "\n\t" : ""); } } #ifdef VERBOSE fprintf(stderr, "hapn4800: txfilt10: min = %f; max = %f\n", min, max); #endif fprintf(f, "\n};\n\n"); /* * secondly generate tables for the PM transmitter modulator */ min = max = 0; memset(c, 0, sizeof(c)); for (i = 0; i < 25; i++) c[i] = sinc(1.4*((i-12.0)/8.0))*hamming(i/24.0)/6.3; for (i = 0; i < 25; i++) for (j = 1; j < 8; j++) c[i] += c[i+j]; fprintf(f, "static unsigned char hapn48_txfilt_pm8[] = {\n\t"); for (i = 0; i < 8; i++) { for (j = 0; j < 16; j++) { for (k = 1, s = 0, l = i; k < 16; k <<= 1, l += 8) { if (j & k) s += c[l]; else s -= c[l]; } if (s > max) max = s; if (s < min) min = s; fprintf(f, "%4d", (int)(128+127*s)); if (i < 7 || j < 15) fprintf(f, ",%s", (j & 7) == 7 ? "\n\t" : ""); } } #ifdef VERBOSE fprintf(stderr, "hapn4800: txfiltpm8: min = %f; max = %f\n", min, max); #endif fprintf(f, "\n};\n\n"); min = max = 0; memset(c, 0, sizeof(c)); for (i = 0; i < 31; i++) c[10+i] = sinc(1.4*((i-15.0)/10.0))*hamming(i/30.0)/7.9; for (i = 0; i < 31; i++) for (j = 1; j < 10; j++) c[i] += c[i+j]; fprintf(f, "static unsigned char hapn48_txfilt_pm10[] = {\n\t"); for (i = 0; i < 10; i++) { for (j = 0; j < 16; j++) { for (k = 1, s = 0, l = i; k < 16; k <<= 1, l += 10) { if (j & k) s += c[l]; else s -= c[l]; } if (s > max) max = s; if (s < min) min = s; fprintf(f, "%4d", (int)(128+127*s)); if (i < 9 || j < 15) fprintf(f, ",%s", (j & 7) == 7 ? "\n\t" : ""); } } #ifdef VERBOSE fprintf(stderr, "hapn4800: txfiltpm10: min = %f; max = %f\n", min, max); #endif fprintf(f, "\n};\n\n"); } /* -------------------------------------------------------------------- */ #define AFSK24_SAMPLERATE 16000 #define AFSK24_CORRLEN 14 static void gentbl_afsk2400(FILE *f, float tcm3105clk) { int i, sum, v; fprintf(f, "\n/*\n * afsk2400 specific tables (tcm3105 clk %7fHz)\n */\n" "#define AFSK24_TX_FREQ_LO %d\n" "#define AFSK24_TX_FREQ_HI %d\n" "#define AFSK24_BITPLL_INC %d\n" "#define AFSK24_SAMPLERATE %d\n\n", tcm3105clk, (int)(tcm3105clk/3694.0), (int)(tcm3105clk/2015.0), 0x10000*2400/AFSK24_SAMPLERATE, AFSK24_SAMPLERATE); #define ARGLO(x) 2.0*M_PI*(double)x*(tcm3105clk/3694.0)/(double)AFSK24_SAMPLERATE #define ARGHI(x) 2.0*M_PI*(double)x*(tcm3105clk/2015.0)/(double)AFSK24_SAMPLERATE #define WINDOW(x) hamming((float)(x)/(AFSK24_CORRLEN-1.0)) fprintf(f, "static const int afsk24_tx_lo_i[] = {\n\t"); for(sum = i = 0; i < AFSK24_CORRLEN; i++) { sum += (v = 127.0*cos(ARGLO(i))*WINDOW(i)); fprintf(f, " %4i%c", v, (i < AFSK24_CORRLEN-1) ? ',' : ' '); } fprintf(f, "\n};\n#define SUM_AFSK24_TX_LO_I %d\n\n" "static const int afsk24_tx_lo_q[] = {\n\t", sum); for(sum = i = 0; i < AFSK24_CORRLEN; i++) { sum += (v = 127.0*sin(ARGLO(i))*WINDOW(i)); fprintf(f, " %4i%c", v, (i < AFSK24_CORRLEN-1) ? ',' : ' '); } fprintf(f, "\n};\n#define SUM_AFSK24_TX_LO_Q %d\n\n" "static const int afsk24_tx_hi_i[] = {\n\t", sum); for(sum = i = 0; i < AFSK24_CORRLEN; i++) { sum += (v = 127.0*cos(ARGHI(i))*WINDOW(i)); fprintf(f, " %4i%c", v, (i < AFSK24_CORRLEN-1) ? ',' : ' '); } fprintf(f, "\n};\n#define SUM_AFSK24_TX_HI_I %d\n\n" "static const int afsk24_tx_hi_q[] = {\n\t", sum); for(sum = i = 0; i < AFSK24_CORRLEN; i++) { sum += (v = 127.0*sin(ARGHI(i))*WINDOW(i)); fprintf(f, " %4i%c", v, (i < AFSK24_CORRLEN-1) ? ',' : ' '); } fprintf(f, "\n};\n#define SUM_AFSK24_TX_HI_Q %d\n\n", sum); #undef ARGLO #undef ARGHI #undef WINDOW } /* -------------------------------------------------------------------- */ static char *progname; static void gentbl_banner(FILE *f) { fprintf(f, "/*\n * THIS FILE IS GENERATED AUTOMATICALLY BY %s, " "DO NOT EDIT!\n */\n\n", progname); } /* -------------------------------------------------------------------- */ int main(int argc, char *argv[]) { FILE *f; progname = argv[0]; if (!(f = fopen("sm_tbl_afsk1200.h", "w"))) exit(1); gentbl_banner(f); gentbl_offscostab(f, 6); gentbl_costab(f, 6); gentbl_afsk1200(f); fclose(f); if (!(f = fopen("sm_tbl_afsk2666.h", "w"))) exit(1); gentbl_banner(f); gentbl_offscostab(f, 6); gentbl_costab(f, 6); gentbl_afsk2666(f); fclose(f); if (!(f = fopen("sm_tbl_psk4800.h", "w"))) exit(1); gentbl_banner(f); gentbl_psk4800(f); gentbl_costab(f, 8); gentbl_atantab(f); fclose(f); if (!(f = fopen("sm_tbl_hapn4800.h", "w"))) exit(1); gentbl_banner(f); gentbl_hapn4800(f); fclose(f); if (!(f = fopen("sm_tbl_fsk9600.h", "w"))) exit(1); gentbl_banner(f); gentbl_fsk9600(f); fclose(f); if (!(f = fopen("sm_tbl_afsk2400_8.h", "w"))) exit(1); gentbl_banner(f); gentbl_offscostab(f, 6); gentbl_costab(f, 6); gentbl_afsk2400(f, 8000000); fclose(f); if (!(f = fopen("sm_tbl_afsk2400_7.h", "w"))) exit(1); gentbl_banner(f); gentbl_offscostab(f, 6); gentbl_costab(f, 6); gentbl_afsk2400(f, 7372800); fclose(f); exit(0); } /* -------------------------------------------------------------------- */
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