#include #include #include #include #include "common/wave.h" #include "ft8/pack.h" #include "ft8/encode.h" #include "ft8/pack_v2.h" #include "ft8/encode_v2.h" // Convert a sequence of symbols (tones) into a sinewave of continuous phase (FSK). // Symbol 0 gets encoded as a sine of frequency f0, the others are spaced in increasing // fashion. void synth_fsk(const uint8_t *symbols, int num_symbols, float f0, float spacing, float symbol_rate, float signal_rate, float *signal) { float phase = 0; float dt = 1/signal_rate; float dt_sym = 1/symbol_rate; float t = 0; int j = 0; int i = 0; while (j < num_symbols) { float f = f0 + symbols[j] * spacing; phase += 2 * M_PI * f / signal_rate; signal[i] = sin(phase); t += dt; if (t >= dt_sym) { // Move to the next symbol t -= dt_sym; ++j; } ++i; } } void usage() { printf("Generate a 15-second WAV file encoding a given message.\n"); printf("Usage:\n"); printf("\n"); printf("gen_ft8 MESSAGE WAV_FILE\n"); printf("\n"); printf("(Note that you might have to enclose your message in quote marks if it contains spaces)\n"); } int main(int argc, char **argv) { // Expect two command-line arguments if (argc < 3) { usage(); return -1; } const char *message = argv[1]; const char *wav_path = argv[2]; // First, pack the text data into 72-bit binary message uint8_t packed[10]; //int rc = packmsg(message, packed); int rc = ft8_v2::pack77(message, packed); if (rc < 0) { printf("Cannot parse message!\n"); printf("RC = %d\n", rc); return -2; } printf("Packed data: "); for (int j = 0; j < 10; ++j) { printf("%02x ", packed[j]); } printf("\n"); // Second, encode the binary message as a sequence of FSK tones uint8_t tones[NN]; // NN = 79, lack of better name at the moment //genft8(packed, 0, tones); ft8_v2::genft8(packed, tones); printf("FSK tones: "); for (int j = 0; j < NN; ++j) { printf("%d", tones[j]); } printf("\n"); // Third, convert the FSK tones into an audio signal const int num_samples = (int)(0.5 + NN / 6.25 * 12000); const int num_silence = (15 * 12000 - num_samples) / 2; float signal[num_silence + num_samples + num_silence]; for (int i = 0; i < num_silence + num_samples + num_silence; i++) { signal[i] = 0; } synth_fsk(tones, NN, 1000, 6.25, 6.25, 12000, signal + num_silence); save_wav(signal, num_silence + num_samples + num_silence, 12000, wav_path); return 0; }