/* srcdest.c --- decoding M32C addressing modes. Copyright (C) 2005-2015 Free Software Foundation, Inc. Contributed by Red Hat, Inc. This file is part of the GNU simulators. 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 3 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, see . */ #include #include #include "cpu.h" #include "mem.h" static int src_indirect = 0; static int dest_indirect = 0; static int src_addend = 0; static int dest_addend = 0; static int disp8 () { int rv; int tsave = trace; if (trace == 1) trace = 0; rv = mem_get_qi (get_reg (pc)); regs.r_pc++; trace = tsave; return rv; } static int disp16 () { int rv; int tsave = trace; if (trace == 1) trace = 0; rv = mem_get_hi (get_reg (pc)); regs.r_pc += 2; trace = tsave; return rv; } static int disp24 () { int rv; int tsave = trace; if (trace == 1) trace = 0; rv = mem_get_psi (get_reg (pc)); regs.r_pc += 3; trace = tsave; return rv; } static int disp20 () { return disp24 () & 0x000fffff; } const char * bits (int v, int b) { static char buf[17]; char *bp = buf + 16; *bp = 0; while (b) { *--bp = (v & 1) ? '1' : '0'; v >>= 1; b--; } return bp; } static const char *the_bits = 0; void decode_indirect (int si, int di) { src_indirect = si; dest_indirect = di; if (trace && (si || di)) printf ("indirect: s:%d d:%d\n", si, di); } void decode_index (int sa, int da) { src_addend = sa; dest_addend = da; if (trace && (sa || da)) printf ("index: s:%d d:%d\n", sa, da); } srcdest decode_srcdest4 (int destcode, int bw) { srcdest sd; sd.bytes = bw ? 2 : 1; sd.mem = (destcode >= 6) ? 1 : 0; static const char *dc_wnames[16] = { "r0", "r1", "r2", "r3", "a0", "a1", "[a0]", "[a1]", "disp8[a0]", "disp8[a1]", "disp8[sb]", "disp8[fb]", "disp16[a0]", "disp16[a1]", "disp16[sb]", "disp16" }; static const char *dc_bnames[4] = { "r0l", "r0h", "r1l", "r1h" };; if (trace) { const char *n = dc_wnames[destcode]; if (bw == 0 && destcode <= 3) n = dc_bnames[destcode]; if (!the_bits) the_bits = bits (destcode, 4); printf ("decode: %s (%d) : %s\n", the_bits, destcode, n); the_bits = 0; } switch (destcode) { case 0x0: sd.u.reg = bw ? r0 : r0l; break; case 0x1: sd.u.reg = bw ? r1 : r0h; break; case 0x2: sd.u.reg = bw ? r2 : r1l; break; case 0x3: sd.u.reg = bw ? r3 : r1h; break; case 0x4: sd.u.reg = a0; break; case 0x5: sd.u.reg = a1; break; case 0x6: sd.u.addr = get_reg (a0); break; case 0x7: sd.u.addr = get_reg (a1); break; case 0x8: sd.u.addr = get_reg (a0) + disp8 (); break; case 0x9: sd.u.addr = get_reg (a1) + disp8 (); break; case 0xa: sd.u.addr = get_reg (sb) + disp8 (); break; case 0xb: sd.u.addr = get_reg (fb) + sign_ext (disp8 (), 8); break; case 0xc: sd.u.addr = get_reg (a0) + disp16 (); break; case 0xd: sd.u.addr = get_reg (a1) + disp16 (); break; case 0xe: sd.u.addr = get_reg (sb) + disp16 (); break; case 0xf: sd.u.addr = disp16 (); break; default: abort (); } if (sd.mem) sd.u.addr &= addr_mask; return sd; } srcdest decode_jumpdest (int destcode, int w) { srcdest sd; sd.bytes = w ? 2 : 3; sd.mem = (destcode >= 6) ? 1 : 0; static const char *dc_wnames[16] = { "r0", "r1", "r2", "r3", "a0", "a1", "[a0]", "[a1]", "disp8[a0]", "disp8[a1]", "disp8[sb]", "disp8[fb]", "disp20[a0]", "disp20[a1]", "disp16[sb]", "abs16" }; static const char *dc_anames[4] = { "r0l", "r0h", "r1l", "r1h" }; if (trace) { const char *n = dc_wnames[destcode]; if (w == 0 && destcode <= 3) n = dc_anames[destcode]; if (!the_bits) the_bits = bits (destcode, 4); printf ("decode: %s : %s\n", the_bits, n); the_bits = 0; } switch (destcode) { case 0x0: sd.u.reg = w ? r0 : r2r0; break; case 0x1: sd.u.reg = w ? r1 : r2r0; break; case 0x2: sd.u.reg = w ? r2 : r3r1; break; case 0x3: sd.u.reg = w ? r3 : r3r1; break; case 0x4: sd.u.reg = w ? a0 : a1a0; break; case 0x5: sd.u.reg = w ? a1 : a1a0; break; case 0x6: sd.u.addr = get_reg (a0); break; case 0x7: sd.u.addr = get_reg (a1); break; case 0x8: sd.u.addr = get_reg (a0) + disp8 (); break; case 0x9: sd.u.addr = get_reg (a1) + disp8 (); break; case 0xa: sd.u.addr = get_reg (sb) + disp8 (); break; case 0xb: sd.u.addr = get_reg (fb) + sign_ext (disp8 (), 8); break; case 0xc: sd.u.addr = get_reg (a0) + disp20 (); break; case 0xd: sd.u.addr = get_reg (a1) + disp20 (); break; case 0xe: sd.u.addr = get_reg (sb) + disp16 (); break; case 0xf: sd.u.addr = disp16 (); break; default: abort (); } if (sd.mem) sd.u.addr &= addr_mask; return sd; } srcdest decode_dest3 (int destcode, int bw) { static char map[8] = { -1, -1, -1, 1, 0, 10, 11, 15 }; the_bits = bits (destcode, 3); return decode_srcdest4 (map[destcode], bw); } srcdest decode_src2 (int srccode, int bw, int d) { static char map[4] = { 0, 10, 11, 15 }; the_bits = bits (srccode, 2); return decode_srcdest4 (srccode ? map[srccode] : 1 - d, bw); } static struct { reg_id b_regno; reg_id w_regno; int is_memory; int disp_bytes; char *name; } modes23[] = { { a0, a0, 1, 0, "[A0]"}, /* 0 0 0 0 0 */ { a1, a1, 1, 0, "[A1]"}, /* 0 0 0 0 1 */ { a0, a0, 0, 0, "A0"}, /* 0 0 0 1 0 */ { a1, a1, 0, 0, "A1"}, /* 0 0 0 1 1 */ { a0, a0, 1, 1, "dsp:8[A0]"}, /* 0 0 1 0 0 */ { a1, a1, 1, 1, "dsp:8[A1]"}, /* 0 0 1 0 1 */ { sb, sb, 1, 1, "dsp:8[SB]"}, /* 0 0 1 1 0 */ { fb, fb, 1, -1, "dsp:8[FB]"}, /* 0 0 1 1 1 */ { a0, a0, 1, 2, "dsp:16[A0]"}, /* 0 1 0 0 0 */ { a1, a1, 1, 2, "dsp:16[A1]"}, /* 0 1 0 0 1 */ { sb, sb, 1, 2, "dsp:16[SB]"}, /* 0 1 0 1 0 */ { fb, fb, 1, -2, "dsp:16[FB]"}, /* 0 1 0 1 1 */ { a0, a0, 1, 3, "dsp:24[A0]"}, /* 0 1 1 0 0 */ { a1, a1, 1, 3, "dsp:24[A1]"}, /* 0 1 1 0 1 */ { mem, mem, 1, 3, "abs24"}, /* 0 1 1 1 0 */ { mem, mem, 1, 2, "abs16"}, /* 0 1 1 1 1 */ { r0h, r2, 0, 0, "R0H/R2"}, /* 1 0 0 0 0 */ { r1h, r3, 0, 0, "R1H/R3"}, /* 1 0 0 0 1 */ { r0l, r0, 0, 0, "R0L/R0"}, /* 1 0 0 1 0 */ { r1l, r1, 0, 0, "R1L/R1"}, /* 1 0 0 1 1 */ }; static srcdest decode_sd23 (int bbb, int bb, int bytes, int ind, int add) { srcdest sd; int code = (bbb << 2) | bb; if (code >= sizeof (modes23) / sizeof (modes23[0])) abort (); if (trace) { char *b1 = ""; char *b2 = ""; char ad[30]; if (ind) { b1 = "["; b2 = "]"; } if (add) sprintf (ad, "%+d", add); else ad[0] = 0; if (!the_bits) the_bits = bits (code, 4); printf ("decode: %s (%d) : %s%s%s%s\n", the_bits, code, b1, modes23[code].name, ad, b2); the_bits = 0; } sd.bytes = bytes; sd.mem = modes23[code].is_memory; if (sd.mem) { if (modes23[code].w_regno == mem) sd.u.addr = 0; else sd.u.addr = get_reg (modes23[code].w_regno); switch (modes23[code].disp_bytes) { case 1: sd.u.addr += disp8 (); break; case 2: sd.u.addr += disp16 (); break; case -1: sd.u.addr += sign_ext (disp8 (), 8); break; case -2: sd.u.addr += sign_ext (disp16 (), 16); break; case 3: sd.u.addr += disp24 (); break; default: break; } if (add) sd.u.addr += add; if (ind) sd.u.addr = mem_get_si (sd.u.addr & membus_mask); sd.u.addr &= membus_mask; } else { sd.u.reg = (bytes > 1) ? modes23[code].w_regno : modes23[code].b_regno; if (bytes == 3 || bytes == 4) { switch (sd.u.reg) { case r0: sd.u.reg = r2r0; break; case r1: sd.u.reg = r3r1; break; case r2: abort (); case r3: abort (); default:; } } } return sd; } srcdest decode_dest23 (int ddd, int dd, int bytes) { return decode_sd23 (ddd, dd, bytes, dest_indirect, dest_addend); } srcdest decode_src23 (int sss, int ss, int bytes) { return decode_sd23 (sss, ss, bytes, src_indirect, src_addend); } srcdest decode_dest2 (int dd, int bytes) { /* r0l/r0, abs16, dsp:8[SB], dsp:8[FB] */ static char map[4] = { 0x12, 0x0f, 0x06, 0x07 }; the_bits = bits (dd, 2); return decode_sd23 (map[dd] >> 2, map[dd] & 3, bytes, dest_indirect, dest_addend); } srcdest decode_src3 (int sss, int bytes) { /* r0, r1, a0, a1, r2, r3, N/A, N/A */ static char map[8] = { 0x12, 0x13, 0x02, 0x03, 0x10, 0x11, 0, 0 }; the_bits = bits (sss, 3); return decode_sd23 (map[sss] >> 2, map[sss] & 3, bytes, src_indirect, src_addend); } srcdest decode_dest1 (int destcode, int bw) { the_bits = bits (destcode, 1); return decode_srcdest4 (destcode, bw); } srcdest decode_cr (int crcode) { static int regcode[] = { 0, intbl, intbh, flags, isp, sp, sb, fb }; srcdest sd; sd.mem = 0; sd.bytes = 2; sd.u.reg = regcode[crcode & 7]; return sd; } srcdest decode_cr_b (int crcode, int bank) { /* FIXME: intbl, intbh, isp */ static int regcode[3][8] = { {0, 0, flags, 0, 0, 0, 0, 0}, {intb, sp, sb, fb, 0, 0, 0, isp}, {0, 0, 0, 0, 0, 0, 0, 0} }; srcdest sd; sd.mem = 0; sd.bytes = bank ? 3 : 2; sd.u.reg = regcode[bank][crcode & 7]; return sd; } srcdest widen_sd (srcdest sd) { sd.bytes *= 2; if (!sd.mem) switch (sd.u.reg) { case r0l: sd.u.reg = r0; break; case r0: sd.u.reg = r2r0; break; case r1l: sd.u.reg = r1; break; case r1: sd.u.reg = r3r1; break; case a0: if (A16) sd.u.reg = a1a0; break; default: break; } return sd; } srcdest reg_sd (reg_id reg) { srcdest rv; rv.bytes = reg_bytes[reg]; rv.mem = 0; rv.u.reg = reg; return rv; } int get_src (srcdest sd) { int v; if (sd.mem) { switch (sd.bytes) { case 1: v = mem_get_qi (sd.u.addr); break; case 2: v = mem_get_hi (sd.u.addr); break; case 3: v = mem_get_psi (sd.u.addr); break; case 4: v = mem_get_si (sd.u.addr); break; default: abort (); } } else { v = get_reg (sd.u.reg); switch (sd.bytes) { case 1: v &= 0xff; break; case 2: v &= 0xffff; break; case 3: v &= 0xffffff; break; } } return v; } void put_dest (srcdest sd, int v) { if (sd.mem) { switch (sd.bytes) { case 1: mem_put_qi (sd.u.addr, v); break; case 2: mem_put_hi (sd.u.addr, v); break; case 3: mem_put_psi (sd.u.addr, v); break; case 4: mem_put_si (sd.u.addr, v); break; } } else { switch (sd.bytes) { case 1: v &= 0xff; break; case 2: v &= 0xffff; break; case 3: v &= 0xffffff; break; } put_reg (sd.u.reg, v); } } srcdest decode_bit (int destcode) { srcdest sd; int addr = 0; static const char *dc_names[] = { "r0", "r1", "r2", "r3", "a0", "a1", "[a0]", "[a1]", "disp8[a0]", "disp8[a1]", "disp8[sb]", "disp8[fb]", "disp16[a0]", "disp16[a1]", "disp16[sb]", "abs16" }; if (trace) { const char *the_bits = bits (destcode, 4); printf ("decode: %s : %s\n", the_bits, dc_names[destcode]); } switch (destcode) { case 0: sd.u.reg = r0; break; case 1: sd.u.reg = r1; break; case 2: sd.u.reg = r2; break; case 3: sd.u.reg = r3; break; case 4: sd.u.reg = a0; break; case 5: sd.u.reg = a1; break; case 6: addr = get_reg (a0); break; case 7: addr = get_reg (a1); break; case 8: addr = get_reg (a0) + disp8 (); break; case 9: addr = get_reg (a1) + disp8 (); break; case 10: addr = get_reg (sb) * 8 + disp8 (); break; case 11: addr = get_reg (fb) * 8 + sign_ext (disp8 (), 8); break; case 12: addr = get_reg (a0) + disp16 (); break; case 13: addr = get_reg (a1) + disp16 (); break; case 14: addr = get_reg (sb) + disp16 (); break; case 15: addr = disp16 (); break; } if (destcode < 6) { int d = disp8 (); sd.mem = 0; sd.mask = 1 << (d & 0x0f); } else { addr &= addr_mask; sd.mem = 1; sd.mask = 1 << (addr & 7); sd.u.addr = addr >> 3; } return sd; } srcdest decode_bit11 (int op0) { srcdest sd; sd.mask = 1 << (op0 & 7); sd.mem = 1; sd.u.addr = get_reg (sb) + disp8 (); return sd; } int get_bit (srcdest sd) { int b; if (sd.mem) b = mem_get_qi (sd.u.addr) & sd.mask; else b = get_reg (sd.u.reg) & sd.mask; return b ? 1 : 0; } void put_bit (srcdest sd, int val) { int b; if (sd.mem) b = mem_get_qi (sd.u.addr); else b = get_reg (sd.u.reg); if (val) b |= sd.mask; else b &= ~sd.mask; if (sd.mem) mem_put_qi (sd.u.addr, b); else put_reg (sd.u.reg, b); } int get_bit2 (srcdest sd, int bit) { int b; if (sd.mem) b = mem_get_qi (sd.u.addr + (bit >> 3)) & (1 << (bit & 7)); else b = get_reg (sd.u.reg) & (1 << bit); return b ? 1 : 0; } void put_bit2 (srcdest sd, int bit, int val) { int b; if (sd.mem) b = mem_get_qi (sd.u.addr + (bit >> 3)); else b = get_reg (sd.u.reg); if (val) b |= (1 << (bit & 7)); else b &= ~(1 << (bit & 7)); if (sd.mem) mem_put_qi (sd.u.addr + (bit >> 3), b); else put_reg (sd.u.reg, b); }