#include "pack_v2.h" #include "text.h" #include #include #include namespace ft8_v2 { // TODO: This is wasteful, should figure out something more elegant const char A0[] = " 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ+-./?"; const char A1[] = " 0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"; const char A2[] = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ"; const char A3[] = "0123456789"; const char A4[] = " ABCDEFGHIJKLMNOPQRSTUVWXYZ"; // Pack a special token, a 22-bit hash code, or a valid base call // into a 28-bit integer. int32_t pack28(const char *callsign) { constexpr int32_t NTOKENS = 2063592L; constexpr int32_t MAX22 = 4194304L; // Check for special tokens first if (starts_with(callsign, "DE ")) return 0; if (starts_with(callsign, "QRZ ")) return 1; if (starts_with(callsign, "CQ ")) return 2; if (starts_with(callsign, "CQ_")) { int nnum = 0, nlet = 0; // TODO: // if(nnum.eq.3 .and. nlet.eq.0) then n28=3+nqsy // if(nlet.ge.1 .and. nlet.le.4 .and. nnum.eq.0) then n28=3+1000+m } // TODO: Check for <...> callsign // if(text(1:1).eq.'<')then // call save_hash_call(text,n10,n12,n22) !Save callsign in hash table // n28=NTOKENS + n22 char c6[6] = {' ', ' ', ' ', ' ', ' ', ' '}; int length = 0; // strlen(callsign); // We will need it later while (callsign[length] != ' ' && callsign[length] != 0) { length++; } // Copy callsign to 6 character buffer if (starts_with(callsign, "3DA0") && length <= 7) { // Work-around for Swaziland prefix: 3DA0XYZ -> 3D0XYZ memcpy(c6, "3D0", 3); memcpy(c6 + 3, callsign + 4, length - 4); } else if (starts_with(callsign, "3X") && is_letter(callsign[2]) && length <= 7) { // Work-around for Guinea prefixes: 3XA0XYZ -> QA0XYZ memcpy(c6, "Q", 1); memcpy(c6 + 1, callsign + 2, length - 2); } else { if (is_digit(callsign[2]) && length <= 6) { // AB0XYZ memcpy(c6, callsign, length); } else if (is_digit(callsign[1]) && length <= 5) { // A0XYZ -> " A0XYZ" memcpy(c6 + 1, callsign, length); } } // Check for standard callsign int i0, i1, i2, i3, i4, i5; if ((i0 = char_index(A1, c6[0])) >= 0 && (i1 = char_index(A2, c6[1])) >= 0 && (i2 = char_index(A3, c6[2])) >= 0 && (i3 = char_index(A4, c6[3])) >= 0 && (i4 = char_index(A4, c6[4])) >= 0 && (i5 = char_index(A4, c6[5])) >= 0) { //printf("Pack28: idx=[%d, %d, %d, %d, %d, %d]\n", i0, i1, i2, i3, i4, i5); // This is a standard callsign int32_t n28 = i0; n28 = n28 * 36 + i1; n28 = n28 * 10 + i2; n28 = n28 * 27 + i3; n28 = n28 * 27 + i4; n28 = n28 * 27 + i5; //printf("Pack28: n28=%d (%04xh)\n", n28, n28); return NTOKENS + MAX22 + n28; } //char text[13]; //if (length > 13) return -1; // TODO: // Treat this as a nonstandard callsign: compute its 22-bit hash // call save_hash_call(text,n10,n12,n22) !Save callsign in hash table // n28=NTOKENS + n22 // n28=iand(n28,ishft(1,28)-1) return -1; } // Check if a string could be a valid standard callsign or a valid // compound callsign. // Return base call "bc" and a logical "cok" indicator. bool chkcall(const char *call, char *bc) { int length = strlen(call); // n1=len_trim(w) if (length > 11) return false; if (0 != strchr(call, '.')) return false; if (0 != strchr(call, '+')) return false; if (0 != strchr(call, '-')) return false; if (0 != strchr(call, '?')) return false; if (length > 6 && 0 != strchr(call, '/')) return false; // TODO: implement suffix parsing (or rework?) //bc=w(1:6) //i0=char_index(w,'/') //if(max(i0-1,n1-i0).gt.6) go to 100 !Base call must be < 7 characters //if(i0.ge.2 .and. i0.le.n1-1) then !Extract base call from compound call // if(i0-1.le.n1-i0) bc=w(i0+1:n1)//' ' // if(i0-1.gt.n1-i0) bc=w(1:i0-1)//' ' return true; } uint16_t packgrid(const char *grid4) { constexpr uint16_t MAXGRID4 = 32400; if (grid4 == 0) { // Two callsigns only, no report/grid return MAXGRID4 + 1; } // Take care of special cases if (equals(grid4, "RRR")) return MAXGRID4 + 2; if (equals(grid4, "RR73")) return MAXGRID4 + 3; if (equals(grid4, "73")) return MAXGRID4 + 4; // Check for standard 4 letter grid if (in_range(grid4[0], 'A', 'R') && in_range(grid4[1], 'A', 'R') && is_digit(grid4[2]) && is_digit(grid4[3])) { //if (w(3).eq.'R ') ir=1 uint16_t igrid4 = (grid4[0] - 'A'); igrid4 = igrid4 * 18 + (grid4[1] - 'A'); igrid4 = igrid4 * 10 + (grid4[2] - '0'); igrid4 = igrid4 * 10 + (grid4[3] - '0'); return igrid4; } // Parse report: +dd / -dd / R+dd / R-dd // TODO: check the range of dd if (grid4[0] == 'R') { int dd = dd_to_int(grid4 + 1, 3); uint16_t irpt = 35 + dd; return (MAXGRID4 + irpt) | 0x8000; // ir = 1 } else { int dd = dd_to_int(grid4, 3); uint16_t irpt = 35 + dd; return (MAXGRID4 + irpt); // ir = 0 } return MAXGRID4 + 1; } // Pack Type 1 (Standard 77-bit message) and Type 2 (ditto, with a "/P" call) int pack77_1(const char *msg, uint8_t *b77) { // Locate the first delimiter const char *s1 = strchr(msg, ' '); if (s1 == 0) return -1; const char *call1 = msg; // 1st call const char *call2 = s1 + 1; // 2nd call int32_t n28a = pack28(call1); int32_t n28b = pack28(call2); if (n28a < 0 || n28b < 0) return -1; uint16_t igrid4; // Locate the second delimiter const char *s2 = strchr(s1 + 1, ' '); if (s2 != 0) { igrid4 = packgrid(s2 + 1); } else { // Two callsigns, no grid/report igrid4 = packgrid(0); } uint8_t i3 = 1; // No suffix or /R // TODO: check for suffixes // if(char_index(w(1),'/P').ge.4 .or. char_index(w(2),'/P').ge.4) i3=2 !Type 2, with "/P" // if(char_index(w(1),'/P').ge.4 .or. char_index(w(1),'/R').ge.4) ipa=1 // if(char_index(w(2),'/P').ge.4 .or. char_index(w(2),'/R').ge.4) ipb=1 // Shift in ipa and ipb bits into n28a and n28b n28a <<= 1; // ipa = 0 n28b <<= 1; // ipb = 0 // Pack into (28 + 1) + (28 + 1) + (1 + 15) + 3 bits // write(c77,1000) n28a,ipa,n28b,ipb,ir,igrid4,i3 // 1000 format(2(b28.28,b1),b1,b15.15,b3.3) b77[0] = (n28a >> 21); b77[1] = (n28a >> 13); b77[2] = (n28a >> 5); b77[3] = (uint8_t)(n28a << 3) | (uint8_t)(n28b >> 26); b77[4] = (n28b >> 18); b77[5] = (n28b >> 10); b77[6] = (n28b >> 2); b77[7] = (uint8_t)(n28b << 6) | (uint8_t)(igrid4 >> 10); b77[8] = (igrid4 >> 2); b77[9] = (uint8_t)(igrid4 << 6) | (uint8_t)(i3 << 3); return 0; } void packtext77(const char *text, uint8_t *b71) { int length = strlen(text); // Skip leading and trailing spaces while (*text == ' ' && *text != 0) { ++text; --length; } while (length > 0 && text[length - 1] == ' ') { --length; } for (int i = 0; i < 9; ++i) { b71[i] = 0; } for (int j = 0; j < 13; ++j) { // Multiply the long integer in b71 by 42 uint16_t x = 0; for (int i = 8; i >= 0; --i) { x += b71[i] * (uint16_t)42; b71[i] = (x & 0xFF); x >>= 8; } // Add index of the current char if (j < length) { int q = char_index(A0, text[j]); x = (q > 0) ? q : 0; } else { x = 0; } for (int i = 8; i >= 0; --i) { if (x == 0) break; x += b71[i]; b71[i] = (x & 0xFF); x >>= 8; } } } int pack77(const char *msg, uint8_t *c77) { // Check Type 1 (Standard 77-bit message) or Type 2, with optional "/P" //if (starts_with(msg, "CQ ")) { return pack77_1(msg, c77); //} // TODO: // Check 0.5 (telemetry) // i3=0 n3=5 write(c77,1006) ntel,n3,i3 1006 format(b23.23,2b24.24,2b3.3) // Check Type 4 (One nonstandard call and one hashed call) // pack77_4(nwords,w,i3,n3,c77) // Default to free text // i3=0 n3=0 // packtext77(msg(1:13),c77(1:71)) // write(c77(72:77),'(2b3.3)') n3,i3 } }; // namespace #ifdef UNIT_TEST #include using namespace std; bool test1() { const char *inputs[] = { "", " ", "ABC", "A9", "L9A", "L7BC", "L0ABC", "LL3JG", "LL3AJG", "CQ ", 0 }; for (int i = 0; inputs[i]; ++i) { int32_t result = ft8_v2::pack28(inputs[i]); printf("pack28(\"%s\") = %d\n", inputs[i], result); } return true; } bool test2() { const char *inputs[] = { "CQ LL3JG", "CQ LL3JG KO26", "L0UAA LL3JG KO26", "L0UAA LL3JG +02", "L0UAA LL3JG RRR", "L0UAA LL3JG 73", 0 }; for (int i = 0; inputs[i]; ++i) { uint8_t result[10]; int rc = ft8_v2::pack77_1(inputs[i], result); printf("pack77_1(\"%s\") = %d\t[", inputs[i], rc); for (int j = 0; j < 10; ++j) { printf("%02x ", result[j]); } printf("]\n"); } return true; } int main() { test1(); test2(); return 0; } #endif