#include "psuedo.h" #define CLASS TPsuedoOp CLASS::CLASS() { } CLASS::~CLASS() { } constexpr unsigned int strhash(const char *str, int h = 0) { return !str[h] ? 5381 : (strhash(str, h + 1) * 33) ^ str[h]; } int CLASS::doDATA(T65816Asm &a, MerlinLine &line, TSymbol &opinfo) { int outct = 0; int wordsize = 2; int endian = 0; std::string oper = line.operand; std::string op = Poco::toUpper(Poco::trim(line.opcode)); Poco::StringTokenizer tok(oper, ",", Poco::StringTokenizer::TOK_TRIM | Poco::StringTokenizer::TOK_IGNORE_EMPTY); const char *ptr = (const char *)op.c_str(); switch (strhash(ptr) ) { case strhash((const char *)"DA"): case strhash((const char *)"DW"): wordsize = 2; break; case strhash((const char *)"DDB"): wordsize = 2; endian = 1; break; case strhash((const char *)"DFB"): case strhash((const char *)"DB"): wordsize = 1; break; case strhash((const char *)"ADR"): wordsize = 3; break; case strhash((const char *)"ADRL"): wordsize = 4; break; } for (auto itr = tok.begin(); itr != tok.end(); ++itr) { //printf("%s\n",(*itr).c_str()); //evaluate each of these strings, check for errors on pass 2 outct += wordsize; if (a.pass > 0) { if (!endian) // little endian { } else { // big endian } } } // SGQ - remove when complete line.datafillct=outct; line.datafillbyte=0xCA; // =============== return (outct); } int CLASS::doDS(T65816Asm &a, MerlinLine &line, TSymbol &opinfo) { int res = 0; int32_t v = line.expr_value; if (line.eval_result != 0) { line.setError(errForwardRef); } else if ((v < 0) || ((a.PC.currentpc + v) >= 0x10000)) // no neg, or crossing bank bound { line.setError(errOverflow); } else { res = v; line.datafillbyte = line.eval_result & 0xFF; line.datafillct = v; #if 0 if (a.pass > 0) { for (int i = 0; i < v; i++) { line.outbytes.push_back(0x00); } line.outbytect = v; } #endif } return (res); } int CLASS::doDUM(T65816Asm &a, MerlinLine &line, TSymbol &opinfo) { int res = 0; bool isdend = ((opinfo.opcode == P_DEND) ? true : false); if (!isdend) { a.dumstart = 1; a.dumstartaddr = line.expr_value; } else { a.dumstart = -1; if (a.PCstack.size() == 0) { line.setError(errBadDUMop); a.dumstart = 0; } } return (res); } int CLASS::doLST(T65816Asm &a, MerlinLine &line, TSymbol &opinfo) { std::string s; if (a.pass > 0) { s = Poco::toUpper(Poco::trim(line.operand)); if ((s == "") || (s == "ON") || (line.expr_value > 0)) { //printf("ON\n"); a.skiplist = true; a.listing = true; } else if ((s == "OFF") || (line.expr_value == 0)) { //printf("OFF\n"); a.skiplist = true; a.listing = false; } } return (0); } int CLASS::doHEX(T65816Asm &a, MerlinLine &line, TSymbol &opinfo) { std::string os = Poco::toUpper(Poco::trim(line.operand)); uint32_t bytect = 0; uint8_t b = 0; uint8_t ct = 0; for ( uint32_t i = 0; i < os.length(); ++i ) { char c = os[i]; if ((c >= '0') && (c <= '9')) { c = c - '0'; } else if ((c >= 'a') && (c <= 'f')) { c = c - 'a' + 10; } else if ((c >= 'A') && (c <= 'F')) { c = c - 'A' + 10; } else if (c == ',') { continue; } else { line.setError(errBadOperand); return 0; } // Got a good char, append to hex string and see if we've got a byte switch (ct) { case 0: b = (c << 4); break; case 1: b |= c; break; } ct = (ct + 1) & 0x01; if (!ct) { if (a.pass > 0) { line.outbytes.push_back(b); } b = 0; bytect++; } } line.outbytect = bytect; //printf("bytect=%d\n",bytect); return bytect; } int CLASS::ProcessOpcode(T65816Asm &a, MerlinLine &line, TSymbol &opinfo) { int res = 0; switch (opinfo.opcode) { default: res = -1; // undefined p-op line.setError(errUnimplemented); break; case P_DS: res = doDS(a, line, opinfo); break; case P_PUT: case P_USE: // both of these are handled by the input file processor, just allow them to be // processed with no errors here break; case P_DUM: case P_DEND: res = doDUM(a, line, opinfo); break; case P_ORG: if (line.operand.length() > 0) { a.PC.orgsave = a.PC.currentpc; a.PC.currentpc = line.expr_value; line.startpc = line.expr_value; } else { a.PC.currentpc = a.PC.orgsave; line.startpc = a.PC.orgsave; } break; case P_SAV: a.savepath = a.processFilename(line.operand, Poco::Path::current(), 0); break; case P_LST: res = doLST(a, line, opinfo); break; case P_HEX: res = doHEX(a, line, opinfo); break; case P_DATA: res = doDATA(a, line, opinfo); break; } return (res); }