// license:BSD-3-Clause // copyright-holders:hap /* Rockwell PPS-4/1 disassembler */ #include "emu.h" #include "pps41d.h" // constructor pps41_common_disassembler::pps41_common_disassembler() { // init lfsr pc lut for (u32 i = 0, pc = 0; i < 0x40; i++) { m_l2r[i] = pc; m_r2l[pc] = i; pc = increment_pc(pc); } } offs_t pps41_common_disassembler::increment_pc(offs_t pc) { int feed = ((pc & 0x3e) == 0) ? 1 : 0; feed ^= (pc >> 1 ^ pc) & 1; return (pc & ~0x3f) | (pc >> 1 & 0x1f) | (feed << 5); } // common lookup tables const char *const pps41_common_disassembler::s_name[] = { // MM76 "?", "XAB", "LBA", "LB", "EOB", "SB", "RB", "SKBF", "XAS", "LSA", "L", "X", "XDSK", "XNSK", "A", "AC", "ACSK", "ASK", "COM", "RC", "SC", "SKNC", "LAI", "AISK", "RT", "RTSK", "T", "NOP", "TL", "TM", "TML", "TR", "SKMEA", "SKBEI", "SKAEI", "SOS", "ROS", "SKISL", "IBM", "OB", "IAM", "OA", "IOS", "I1", "I2C", "INT1H", "DIN1", "INT0L", "DIN0", "SEG1", "SEG2", // MM78 "INT0H", "INT1L", "SAG", "EOB", "TAB", "I1SK", "IX", "OX", "LXA", "XAX", "IOA", "TLB", "TMLB" }; // number of bits per opcode parameter // note: d4 means hex, d5 means inverted, d6 means extended, d7 means double extended const u8 pps41_common_disassembler::s_bits[] = { // MM76 0, 0, 0, 4, 2, 2, 2, 2, 0, 0, 2, 2, 2, 2, 0, 0, 0, 0, 0, 0, 0, 0, 4, 4, 0, 0, 0x36, 0, 0x76, 0x36, 0x76, 0x34, 0, 0x40, 0x60, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // MM78 0, 0, 0, 3, 0, 0, 0, 0, 0, 0, 0, 0xf6, 0xf6 }; const u32 pps41_common_disassembler::s_flags[] = { // MM76 0, 0, 0, 0, 0, 0, 0, STEP_COND, 0, 0, 0, 0, STEP_COND, STEP_COND, 0, 0, STEP_COND, STEP_COND, 0, 0, 0, STEP_COND, 0, STEP_COND, STEP_OUT, STEP_OUT, 0, 0, 0, STEP_OVER, STEP_OVER, 0, STEP_COND, STEP_COND, STEP_COND, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, STEP_COND, STEP_COND, STEP_COND, STEP_COND, 0, 0, // MM78 STEP_COND, STEP_COND, 0, 0, 0, STEP_COND, 0, 0, 0, 0, 0, 0, STEP_OVER }; // common disasm offs_t pps41_common_disassembler::common_disasm(const u8 *lut_opmap, std::ostream &stream, offs_t pc, const data_buffer &opcodes, const data_buffer ¶ms) { // get raw opcode u8 op = opcodes.r8(pc); u8 instr = lut_opmap[op]; // get parameter u8 bits = s_bits[instr]; u16 mask = (1 << (bits & 0xf)) - 1; bits &= 0xf0; u16 param = op & mask; if (bits & 0x20) param ^= mask; // memory bit opcodes are 1,2,3,4 if (instr == em_SB || instr == em_RB || instr == em_SKBF) param++; // disassemble it util::stream_format(stream, "%-8s", s_name[instr]); if (mask > 0) { if (bits & 0x10) util::stream_format(stream, (mask & ~0xf) ? "$%02X" : "$%X", param); else util::stream_format(stream, "%d", param); } return 1 | s_flags[instr] | SUPPORTED; } // MM76 disasm const u8 mm76_disassembler::mm76_opmap[0x100] = { /* 0 1 2 3 4 5 6 7 8 9 A B C D E F */ em_NOP, em_SKNC, em_RT, em_RTSK, em_INT0L,em_INT1H,em_DIN1, em_DIN0, em_SKBF, em_SKBF, em_SKBF, em_SKBF, em_SC, em_RC, em_SEG1, em_SEG2, // 0 em_SB, em_SB, em_SB, em_SB, em_RB, em_RB, em_RB, em_RB, em_OA, em_OB, em_IAM, em_IBM, em_EOB2, em_EOB2, em_EOB2, em_EOB2, // 1 em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, // 2 em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, // 3 em_AC, em_ACSK, em_A, em_ASK, em_LBA, em_COM, em_XAB, em_SKMEA,em_ILL, em_ILL, em_I1, em_I2C, em_LSA, em_IOS, em_XAS, em_ILL, // 4 em_L, em_L, em_L, em_L, em_XNSK, em_XNSK, em_XNSK, em_XNSK, em_X, em_X, em_X, em_X, em_XDSK, em_XDSK, em_XDSK, em_XDSK, // 5 em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, // 6 em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, // 7 em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, // 8 em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, // 9 em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, // A em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, // B em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, // C em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, // D em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, // E em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T // F }; offs_t mm76_disassembler::disassemble(std::ostream &stream, offs_t pc, const data_buffer &opcodes, const data_buffer ¶ms) { return common_disasm(mm76_opmap, stream, pc, opcodes, params); } // MM78 disasm const u8 mm78_disassembler::mm78_opmap[0x100] = { /* 0 1 2 3 4 5 6 7 8 9 A B C D E F */ em_NOP, em_SKISL,em_SKNC, em_INT0H,em_INT1L,em_RC, em_SC, em_SAG, em_EOB3, em_EOB3, em_EOB3, em_EOB3, em_EOB3, em_EOB3, em_EOB3, em_EOB3, // 0 em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, em_LB, // 1 em_SB, em_SB, em_SB, em_SB, em_RB, em_RB, em_RB, em_RB, em_SKBF, em_SKBF, em_SKBF, em_SKBF, em_TAB, em_IOS, em_RTSK, em_RT, // 2 em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, em_TR, // 3 em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, em_LAI, // 4 em_L, em_L, em_L, em_L, em_XNSK, em_XNSK, em_XNSK, em_XNSK, em_XDSK, em_XDSK, em_XDSK, em_XDSK, em_X, em_X, em_X, em_X, // 5 em_I1SK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, em_AISK, // 6 em_SOS, em_ROS, em_IX, em_OX, em_XAS, em_LXA, em_LBA, em_COM, em_I2C, em_XAX, em_XAB, em_IOA, em_AC, em_ACSK, em_A, em_SKMEA,// 7 em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, // 8 em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, // 9 em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, // A em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, em_TM, // B em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, // C em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, // D em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, // E em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T, em_T // F }; offs_t mm78_disassembler::disassemble(std::ostream &stream, offs_t pc, const data_buffer &opcodes, const data_buffer ¶ms) { return common_disasm(mm78_opmap, stream, pc, opcodes, params); }