Version bump for last commit. :-)

[rmac] / mach.c

diff --git a/mach.c b/mach.c
index 2673aa9f5fb5063a44fb3831bf33cf033e13084d..1fb1607954a1d408e61b4d97d8b41043d0909acf 100644 (file)
--- a/mach.c
+++ b/mach.c
@@ -1,7 +1,7 @@
 //
-// RMAC - Reboot's Macro Assembler for all Atari computers
+// RMAC - Renamed Macro Assembler for all Atari computers
 // MACH.C - Code Generation
-// Copyright (C) 199x Landon Dyer, 2011-2017 Reboot and Friends
+// Copyright (C) 199x Landon Dyer, 2011-2021 Reboot and Friends
 // RMAC derived from MADMAC v1.07 Written by Landon Dyer, 1986
 // Source utilised with the kind permission of Landon Dyer
 //
@@ -17,14 +17,14 @@
 #include "sect.h"
 #include "token.h"
 
-#define DEF_KW
-#include "kwtab.h"
+#define DEF_REG68
+#include "68kregs.h"
 
 // Exported variables
 int movep = 0; // Global flag to indicate we're generating a movep instruction
 
 // Function prototypes
-int m_unimp(WORD, WORD), m_badmode(WORD, WORD), m_bad6mode(WORD, WORD), m_bad6inst(WORD, WORD);
+int m_unimp(WORD, WORD), m_badmode(WORD, WORD);
 int m_self(WORD, WORD);
 int m_abcd(WORD, WORD);
 int m_reg(WORD, WORD);
@@ -41,7 +41,6 @@ int m_dbra(WORD, WORD);
 int m_link(WORD, WORD);
 int m_adda(WORD, WORD);
 int m_addq(WORD, WORD);
-//int m_move(WORD, int);
 int m_move(WORD, WORD);
 int m_moveq(WORD, WORD);
 int m_usp(WORD, WORD);
@@ -61,14 +60,9 @@ int m_cas2(WORD inst, WORD siz);
 int m_chk2(WORD inst, WORD siz);
 int m_cmp2(WORD inst, WORD siz);
 int m_bkpt(WORD inst, WORD siz);
-int m_cpbr(WORD inst, WORD siz);
+int m_cpbcc(WORD inst, WORD siz);
 int m_cpdbr(WORD inst, WORD siz);
-int m_divs(WORD inst, WORD siz);
 int m_muls(WORD inst, WORD siz);
-int m_divu(WORD inst, WORD siz);
-int m_mulu(WORD inst, WORD siz);
-int m_divsl(WORD inst, WORD siz);
-int m_divul(WORD inst, WORD siz);
 int m_move16a(WORD inst, WORD siz);
 int m_move16b(WORD inst, WORD siz);
 int m_pack(WORD inst, WORD siz);
@@ -79,22 +73,28 @@ int m_cinv(WORD inst, WORD siz);
 int m_cprest(WORD inst, WORD siz);
 int m_movec(WORD inst, WORD siz);
 int m_moves(WORD inst, WORD siz);
+int m_lpstop(WORD inst, WORD siz);
+int m_plpa(WORD inst, WORD siz);
 
 // PMMU
 int m_pbcc(WORD inst, WORD siz);
 int m_pflusha(WORD inst, WORD siz);
 int m_pflush(WORD inst, WORD siz);
 int m_pflushr(WORD inst, WORD siz);
+int m_pflushan(WORD inst, WORD siz);
 int m_pload(WORD inst, WORD siz, WORD extension);
 int m_pmove(WORD inst, WORD siz);
 int m_pmovefd(WORD inst, WORD siz);
-int m_ptest(WORD inst, WORD siz);
+int m_ptest(WORD inst, WORD siz, WORD extension);
+int m_ptestr(WORD inste, WORD siz);
+int m_ptestw(WORD inste, WORD siz);
 int m_ptrapcc(WORD inst, WORD siz);
 int m_ploadr(WORD inst, WORD siz);
 int m_ploadw(WORD inst, WORD siz);
 
-//FPU
+// FPU
 int m_fabs(WORD inst, WORD siz);
+int m_fbcc(WORD inst, WORD siz);
 int m_facos(WORD inst, WORD siz);
 int m_fadd(WORD inst, WORD siz);
 int m_fasin(WORD inst, WORD siz);
@@ -132,6 +132,7 @@ int m_fmul(WORD inst, WORD siz);
 int m_fneg(WORD inst, WORD siz);
 int m_fnop(WORD inst, WORD siz);
 int m_frem(WORD inst, WORD siz);
+int m_frestore(WORD inst, WORD siz);
 int m_fsabs(WORD inst, WORD siz);
 int m_fsadd(WORD inst, WORD siz);
 int m_fscc(WORD inst, WORD siz);
@@ -351,9 +352,12 @@ int m_lea(WORD inst, WORD siz)
                && ((am0 == ADISP) && (a0reg == a1reg) && (a0exattr & DEFINED))
                && ((a0exval > 0) && (a0exval <= 8)))
        {
-               inst = B16(01010000, 01001000) | (((uint16_t)a0exval & 7) << 9) | (a0reg);
+               inst = 0b0101000001001000 | (((uint16_t)a0exval & 7) << 9) | (a0reg);
                D_word(inst);
-               warn("lea size(An),An converted to addq #size,An");
+
+               if (optim_warn_flag)
+                       warn("o4: lea size(An),An converted to addq #size,An");
+
                return OK;
        }
 
@@ -405,8 +409,13 @@ int m_ea030(WORD inst, WORD siz)
                        // a corner case, so kludge it
                        a0reg = a0reg + 8;
                else if (am0 == PCDISP)
-                       //Another corner case (possibly!), so kludge ahoy
+                       // Another corner case (possibly!), so kludge ahoy
                        inst |= am0;                            // Get ea0 into instr
+               else if (am0 == IMMED && am1 == MEMPOST)
+               {
+                       // Added for addi/andi/cmpi/eori/ori/subi #xx,(bd,An,Dm)
+                       inst |= a1reg | AINDEXED;
+               }
                else if (am0 == IMMED)
                        inst |= am0 | a0reg;            // Get ea0 into instr
                else if (am0 == AM_CCR)
@@ -452,6 +461,48 @@ int m_abcd(WORD inst, WORD siz)
 //
 int m_adda(WORD inst, WORD siz)
 {
+       if ((a0exattr & DEFINED) && (am0 == IMMED))
+       {
+               if (CHECK_OPTS(OPT_ADDA_ADDQ))
+               {
+                       if ((a0exval > 1) && (a0exval <= 8))
+                       {
+                               // Immediate is between 1 and 8 so let's convert to addq
+                               return m_addq(0b0101000000000000, siz);
+
+                               if (optim_warn_flag)
+                                       warn("o8: adda/suba size(An),An converted to addq/subq #size,An");
+                       }
+               }
+
+               if (CHECK_OPTS(OPT_ADDA_LEA))
+               {
+                       if ((a0exval > 8) && ((a0exval + 0x8000) < 0x10000))
+                       {
+                               // Immediate is larger than 8 and word size so let's convert to lea
+                               am0 = ADISP;    // Change addressing mode
+                               a0reg = a1reg;  // In ADISP a0reg is used instead of a1reg!
+
+                               if (!(inst & (1 << 14)))
+                               {
+                                       // We have a suba #x,AREG so let's negate the value
+                                       a0exval = -a0exval;
+                               }
+
+                               // We're going to rely on +o4 for this, so let's ensure that
+                               // it's on, even just for this instruction
+                               int return_value;
+                               int temp_flag = optim_flags[OPT_LEA_ADDQ];
+                               optim_flags[OPT_LEA_ADDQ] = 1;                          // Temporarily save switch state
+                               return_value = m_lea(0b0100000111011000, SIZW);
+                               optim_flags[OPT_LEA_ADDQ] = temp_flag;          // Restore switch state
+                               if (optim_warn_flag)
+                                       warn("o9: adda.w/l #x,Ay converted to lea x(Dy),Ay");
+                               return return_value;
+                       }
+               }
+       }
+
        inst |= am0 | a0reg | lwsiz_8[siz] | reg_9[a1reg];
        D_word(inst);
        ea0gen(siz);    // Generate EA
@@ -590,7 +641,7 @@ int m_dbra(WORD inst, WORD siz)
                if ((a1exattr & TDB) != cursect)
                        return error(rel_error);
 
-               uint32_t v = a1exval - sloc;
+               uint32_t v = (uint32_t)a1exval - sloc;
 
                if (v + 0x8000 > 0x10000)
                        return error(range_error);
@@ -665,12 +716,12 @@ int m_link(WORD inst, WORD siz)
 
 WORD extra_addressing[16]=
 {
-       0,     // 0100 (bd,An,Xn)
-       0,     // 0101 ([bd,An],Xn,od)
-       0x180, // 0102 ([bc,An,Xn],od) (111 110 110 111)
-       0,     // 0103 (bd,PC,Xn)
-       0,     // 0104 ([bd,PC],Xn,od)
-       0,     // 0105 ([bc,PC,Xn],od)
+       0x30,  // 0100 (bd,An,Xn)
+       0x30,  // 0101 ([bd,An],Xn,od)
+       0x30,  // 0102 ([bc,An,Xn],od)
+       0x30,  // 0103 (bd,PC,Xn)
+       0x30,  // 0104 ([bd,PC],Xn,od)
+       0x30,  // 0105 ([bc,PC,Xn],od)
        0,     // 0106
        0,     // 0107
        0,     // 0110
@@ -705,8 +756,8 @@ int m_move(WORD inst, WORD size)
        {
                m_moveq((WORD)0x7000, (WORD)0);
 
-               if (sbra_flag)
-                       warn("move.l #size,dx converted to moveq");
+               if (optim_warn_flag)
+                       warn("o1: move.l #size,dx converted to moveq");
        }
        else
        {
@@ -742,14 +793,16 @@ int m_move(WORD inst, WORD size)
 
 //
 // Handle MOVE <C_ALL030> <C_ALTDATA>
-//        MOVE <C_ALL030> <M_AREG>
+//             MOVE <C_ALL030> <M_AREG>
 //
 int m_move30(WORD inst, WORD size)
 {
        int siz = (int)size;
-       // TODO: is extra_addressing necessary/correct?
-       //inst |= siz_12[siz] | reg_9[a1reg & 7] | a0reg | extra_addressing[am0 - ABASE];
-       inst |= siz_12[siz] | reg_9[a1reg & 7] | a0reg;
+
+       if (am0 > ABASE)
+               inst |= siz_12[siz] | reg_9[a1reg & 7] | a0reg | extra_addressing[am0 - ABASE];
+       else
+               inst |= siz_12[siz] | reg_9[a1reg & 7] | a0reg | extra_addressing[am1 - ABASE] << 3;
 
        D_word(inst);
 
@@ -865,8 +918,8 @@ int m_br(WORD inst, WORD siz)
                                inst |= v & 0xFF;
                                D_word(inst);
 
-                               if (sbra_flag)
-                                       warn("Bcc.w/BSR.w converted to .s");
+                               if (optim_warn_flag)
+                                       warn("o2: Bcc.w/BSR.w converted to .s");
 
                                return OK;
                        }
@@ -908,7 +961,21 @@ int m_br(WORD inst, WORD siz)
        {
                // .B
                AddFixup(FU_BBRA | FU_PCREL | FU_SEXT, sloc, a0expr);
-               D_word(inst);
+               // So here we have a small issue: this bra.s could be zero offset, but
+               // we can never know. Because unless we know beforehand that the
+               // offset will be zero (i.e. "bra.s +0"), it's going to be a label
+               // below this instruction! We do have an optimisation flag that can
+               // check against this during fixups, but we cannot rely on the state
+               // of the flag after all the file(s) have been processed because its
+               // state might have changed multiple times during file parsing. (Yes,
+               // there's a very low chance that this will ever happen but it's not
+               // zero!). So, we can use the byte that is going to be filled during
+               // fixups to store the state of the optimisation flag and read it
+               // during that stage so each bra.s will have its state stored neatly.
+               // Sleazy? Eh, who cares, like this will ever happen ;)
+               // One final note: we'd better be damn sure that the flag's value is
+               // less than 256 or magical stuff will happen!
+               D_word(inst | optim_flags[OPT_NULL_BRA]);
                return OK;
        }
        else
@@ -1006,7 +1073,7 @@ int m_movem(WORD inst, WORD siz)
                goto immed1;
        }
 
-       if ((*tok >= KW_D0) && (*tok <= KW_A7))
+       if ((*tok >= REG68_D0) && (*tok <= REG68_A7))
        {
                // <rlist>, ea
                if (reglist(&rmask) < 0)
@@ -1031,7 +1098,7 @@ immed1:
                        rmask = 0;
 
                        for(i=0x8000; i; i>>=1, w>>=1)
-                               rmask = (WORD)((rmask << 1) | w & 1);
+                               rmask = (WORD)((rmask << 1) | (w & 1));
                }
        }
        else
@@ -1096,7 +1163,11 @@ int m_clrd(WORD inst, WORD siz)
        if (!CHECK_OPTS(OPT_CLR_DX))
                inst |= a0reg;
        else
-               inst = (a0reg << 9) | B16(01110000, 00000000);
+       {
+               inst = (a0reg << 9) | 0b0111000000000000;
+               if (optim_warn_flag)
+                       warn("o7: clr.l Dx converted to moveq #0,Dx");
+       }
 
        D_word(inst);
 
@@ -1106,7 +1177,7 @@ int m_clrd(WORD inst, WORD siz)
 
 ////////////////////////////////////////
 //
-// 68020/30/40 instructions
+// 68020/30/40/60 instructions
 //
 ////////////////////////////////////////
 
@@ -1167,19 +1238,42 @@ int m_bfop(WORD inst, WORD siz)
        else
                bfparam1 = bfval1 << 12;
 
-       D_word((inst | am0 | a0reg | am1 | a1reg));
+       //D_word((inst | am0 | a0reg | am1 | a1reg));
+       if (inst == 0b1110111111000000)
+       {
+               // bfins special case
+               D_word((inst | am1 | a1reg));
+       }
+       else
+       {
+               D_word((inst | am0 | a0reg));
+       }
+
        ea0gen(siz);    // Generate EA
 
        // Second instruction word - Dest register (if exists), Do, Offset, Dw, Width
-       inst = bfparam1 | bfparam2;
+       if (inst == 0b1110111111000000)
+       {
+               // bfins special case
+               inst = bfparam1 | bfparam2;
 
-       if (am1 == DREG)
-               inst |= a1reg << 0;
+               if (am1 == DREG)
+                       inst |= a0reg << 12;
 
-       if (am0 == DREG)
-               inst |= a0reg << 12;
+               D_word(inst);
+       }
+       else
+       {
+               inst = bfparam1 | bfparam2;
 
-       D_word(inst);
+               if (am1 == DREG)
+                       inst |= a0reg << 0;
+
+               if (am0 == DREG)
+                       inst |= a1reg << 12;
+
+               D_word(inst);
+       }
 
        return OK;
 }
@@ -1271,7 +1365,7 @@ int m_cas(WORD inst, WORD siz)
        }
 
        // Dc
-       if ((*tok < KW_D0) && (*tok > KW_D7))
+       if ((*tok < REG68_D0) && (*tok > REG68_D7))
                return error("CAS accepts only data registers");
 
        inst2 = (*tok++) & 7;
@@ -1280,7 +1374,7 @@ int m_cas(WORD inst, WORD siz)
                return error("missing comma");
 
        // Du
-       if ((*tok < KW_D0) && (*tok > KW_D7))
+       if ((*tok < REG68_D0) && (*tok > REG68_D7))
                return error("CAS accepts only data registers");
 
        inst2 |= ((*tok++) & 7) << 6;
@@ -1298,7 +1392,7 @@ int m_cas(WORD inst, WORD siz)
        if (*tok != EOL)
                return error("extra (unexpected) text found");
 
-       // Reject invalud ea modes
+       // Reject invalid ea modes
        amsk = amsktab[am0];
 
        if ((amsk & (M_AIND | M_APOSTINC | M_APREDEC | M_ADISP | M_AINDEXED | M_ABSW | M_ABSL | M_ABASE | M_MEMPOST | M_MEMPRE)) == 0)
@@ -1341,7 +1435,7 @@ int m_cas2(WORD inst, WORD siz)
        }
 
        // Dc1
-       if ((*tok < KW_D0) && (*tok > KW_D7))
+       if ((*tok < REG68_D0) && (*tok > REG68_D7))
                return error("CAS2 accepts only data registers for Dx1:Dx2 pairs");
 
        inst2 = (*tok++) & 7;
@@ -1350,7 +1444,7 @@ int m_cas2(WORD inst, WORD siz)
                return error("missing colon");
 
        // Dc2
-       if ((*tok < KW_D0) && (*tok > KW_D7))
+       if ((*tok < REG68_D0) && (*tok > REG68_D7))
                return error("CAS2 accepts only data registers for Dx1:Dx2 pairs");
 
        inst3 = (*tok++) & 7;
@@ -1359,7 +1453,7 @@ int m_cas2(WORD inst, WORD siz)
                return error("missing comma");
 
        // Du1
-       if ((*tok < KW_D0) && (*tok > KW_D7))
+       if ((*tok < REG68_D0) && (*tok > REG68_D7))
                return error("CAS2 accepts only data registers for Dx1:Dx2 pairs");
 
        inst2 |= ((*tok++) & 7) << 6;
@@ -1368,7 +1462,7 @@ int m_cas2(WORD inst, WORD siz)
                return error("missing colon");
 
        // Du2
-       if ((*tok < KW_D0) && (*tok > KW_D7))
+       if ((*tok < REG68_D0) && (*tok > REG68_D7))
                return error("CAS2 accepts only data registers for Dx1:Dx2 pairs");
 
        inst3 |= ((*tok++) & 7) << 6;
@@ -1379,9 +1473,9 @@ int m_cas2(WORD inst, WORD siz)
        // Rn1
        if (*tok++ != '(')
                return error("missing (");
-       if ((*tok >= KW_D0) && (*tok <= KW_D7))
+       if ((*tok >= REG68_D0) && (*tok <= REG68_D7))
                inst2 |= (((*tok++) & 7) << 12) | (0 << 15);
-       else if ((*tok >= KW_A0) && (*tok <= KW_A7))
+       else if ((*tok >= REG68_A0) && (*tok <= REG68_A7))
                inst2 |= (((*tok++) & 7) << 12) | (1 << 15);
        else
                return error("CAS accepts either data or address registers for Rn1:Rn2 pair");
@@ -1395,9 +1489,9 @@ int m_cas2(WORD inst, WORD siz)
        // Rn2
        if (*tok++ != '(')
                return error("missing (");
-       if ((*tok >= KW_D0) && (*tok <= KW_D7))
+       if ((*tok >= REG68_D0) && (*tok <= REG68_D7))
                inst3 |= (((*tok++) & 7) << 12) | (0 << 15);
-       else if ((*tok >= KW_A0) && (*tok <= KW_A7))
+       else if ((*tok >= REG68_A0) && (*tok <= REG68_A7))
                inst3 |= (((*tok++) & 7) << 12) | (1 << 15);
        else
                return error("CAS accepts either data or address registers for Rn1:Rn2 pair");
@@ -1502,12 +1596,10 @@ int m_chk2(WORD inst, WORD siz)
 
 
 //
-// cpbcc(68020, 68030)
+// cpbcc(68020, 68030, 68040 (FBcc), 68060 (FBcc)), pbcc (68851)
 //
-int m_cpbr(WORD inst, WORD siz)
+int m_fpbr(WORD inst, WORD siz)
 {
-       if ((activecpu & (CPU_68020 | CPU_68030)) == 0)
-               return error(unsupport);
 
        if (a0exattr & DEFINED)
        {
@@ -1527,7 +1619,7 @@ int m_cpbr(WORD inst, WORD siz)
                                return OK;
                        }
                }
-        else // SIZW/SIZN
+               else // SIZW/SIZN
                {
                        if ((v + 0x8000) >= 0x10000)
                                return error(range_error);
@@ -1561,6 +1653,38 @@ int m_cpbr(WORD inst, WORD siz)
 }
 
 
+//
+// cpbcc(68020, 68030, 68040 (FBcc), 68060 (FBcc))
+//
+int m_cpbcc(WORD inst, WORD siz)
+{
+       if (!(activecpu & (CPU_68020 | CPU_68030)))
+               return error(unsupport);
+
+       return m_fpbr(inst, siz);
+}
+
+
+//
+// fbcc(6808X, 68040, 68060)
+//
+int m_fbcc(WORD inst, WORD siz)
+{
+       CHECKNOFPU;
+       return m_fpbr(inst, siz);
+}
+
+
+//
+// pbcc(68851 but let's assume 68020 only)
+//
+int m_pbcc(WORD inst, WORD siz)
+{
+       CHECKNO20;
+       return m_fpbr(inst, siz);
+}
+
+
 //
 // cpdbcc(68020, 68030)
 //
@@ -1598,19 +1722,20 @@ int m_cpdbr(WORD inst, WORD siz)
        }
 
        return OK;
+
 }
 
 
 //
-// divs.l
+// muls.l / divs.l / divu.l / mulu.l (68020+)
 //
-int m_divs(WORD inst, WORD siz)
+int m_muls(WORD inst, WORD siz)
 {
        if ((activecpu & (CPU_68020 | CPU_68030 | CPU_68040)) == 0)
                return error(unsupport);
 
        WORD flg = inst;                                        // Save flag bits
-       inst &= ~0x3F;                                          // Clobber flag bits in instr
+       inst &= ~0x33F;                                         // Clobber flag and extension bits in instr
 
        // Install "standard" instr size bits
        if (flg & 4)
@@ -1625,31 +1750,72 @@ int m_divs(WORD inst, WORD siz)
                        inst |= reg_9[a0reg];           // ea0reg in bits 9..11
        }
 
+       // Regarding extension word: bit 11 is signed/unsigned selector
+       //                           bit 10 is 32/64 bit selector
+       // Both of these are packed in bits 9 and 8 of the instruction
+       // field in 68ktab. Extra compilcations arise from the fact we
+       // have to distinguish between divu/s.l Dn,Dm (which is encoded
+       // as divu/s.l Dn,Dm:Dm) and divu/s.l Dn,Dm:Dx - the first is
+       // 32 bit while the second 64 bit
+
        if (flg & 1)
        {
                // Use am1
                inst |= am1 | a1reg;                    // Get ea1 into instr
                D_word(inst);                                   // Deposit instr
 
+               // Extension word
+               if (a1reg == a2reg)
+                       inst = a1reg + (a2reg << 12) + ((flg & 0x200) << 2);
+               else
+                       inst = a1reg + (a2reg << 12) + ((flg & 0x300) << 2);
+
+                D_word(inst);
+
                // Generate ea0 if requested
                if (flg & 2)
                        ea0gen(siz);
 
                ea1gen(siz);                                    // Generate ea1
+
+               return OK;
        }
        else
        {
                // Use am0
                inst |= am0 | a0reg;                    // Get ea0 into instr
                D_word(inst);                                   // Deposit instr
+
+               // Extension word
+               if (a1reg == a2reg)
+                       inst = a1reg + (a2reg << 12) + ((flg & 0x200) << 2);
+               else
+                       inst = a1reg + (a2reg << 12) + ((flg & 0x300) << 2);
+
+               D_word(inst);
+
                ea0gen(siz);                                    // Generate ea0
 
                // Generate ea1 if requested
                if (flg & 2)
                        ea1gen(siz);
+
+               return OK;
        }
+}
+
+
+//
+// move16 (ax)+,(ay)+
+//
+int m_move16a(WORD inst, WORD siz)
+{
+       if ((activecpu & (CPU_68040 | CPU_68060)) == 0)
+               return error(unsupport);
 
-       inst = a1reg + (a2reg << 12) + (1 << 11);
+       inst |= a0reg;
+       D_word(inst);
+       inst = (1 << 15) + (a1reg << 12);
        D_word(inst);
 
        return OK;
@@ -1657,442 +1823,137 @@ int m_divs(WORD inst, WORD siz)
 
 
 //
-// muls.l
+// move16 with absolute address
 //
-int m_muls(WORD inst, WORD siz)
+int m_move16b(WORD inst, WORD siz)
 {
-       if ((activecpu & (CPU_68020 | CPU_68030 | CPU_68040)) == 0)
+       if ((activecpu & (CPU_68040 | CPU_68060)) == 0)
                return error(unsupport);
 
-       WORD flg = inst;                                        // Save flag bits
-       inst &= ~0x3F;                                          // Clobber flag bits in instr
-
-       // Install "standard" instr size bits
-       if (flg & 4)
-               inst |= siz_6[siz];
+       int v;
+       inst |= a1reg;
+       D_word(inst);
 
-       if (flg & 16)
+       if (am0 == APOSTINC)
        {
-               // OR-in register number
-               if (flg & 8)
-                       inst |= reg_9[a1reg];           // ea1reg in bits 9..11
+               if (am1 == AIND)
+                       return error("Wasn't this suppose to call m_move16a???");
                else
-                       inst |= reg_9[a0reg];           // ea0reg in bits 9..11
+               {
+                       // move16 (ax)+,(xxx).L
+                       inst |= 0 << 3;
+                       v = (int)a1exval;
+               }
        }
-
-       if (flg & 1)
+       else if (am0 == ABSL)
        {
-               // Use am1
-               inst |= am1 | a1reg;                    // Get ea1 into instr
-               D_word(inst);                                   // Deposit instr
-
-                                                                               // Extension word
-               inst = a1reg + (a2reg << 12) + (1 << 11);
-               inst |= mulmode;  // add size bit
-               D_word(inst);
-
-               // Generate ea0 if requested
-               if (flg & 2)
-                       ea0gen(siz);
-
-               ea1gen(siz);                                    // Generate ea1
+               if (am1 == AIND)
+               {
+                       // move16 (xxx).L,(ax)+
+                       inst |= 1 << 3;
+                       v = (int)a0exval;
+               }
+               else // APOSTINC
+               {
+                       // move16 (xxx).L,(ax)
+                       inst |= 3 << 3;
+                       v = (int)a0exval;
+               }
        }
-       else
+       else if (am0 == AIND)
        {
-               // Use am0
-               inst |= am0 | a0reg;                    // Get ea0 into instr
-               D_word(inst);                                   // Deposit instr
-                                                                               // Extension word
-               inst = a1reg + (a2reg << 12) + (1 << 11);
-               inst |= mulmode;  // add size bit
-               D_word(inst);
-
-               ea0gen(siz);                                    // Generate ea0
-
-               // Generate ea1 if requested
-               if (flg & 2)
-                       ea1gen(siz);
+               // move16 (ax),(xxx).L
+               inst |= 2 << 3;
+               v = (int)a1exval;
        }
 
-       //D_word(inst);
-       //ea0gen(siz);
+       D_word(inst);
+       D_long(v);
 
        return OK;
 }
 
 
 //
-// divu.l
+// pack/unpack (68020/68030/68040)
 //
-int m_divu(WORD inst, WORD siz)
+int m_pack(WORD inst, WORD siz)
 {
-       if ((activecpu & (CPU_68020 | CPU_68030 | CPU_68040)) == 0)
-               return error(unsupport);
+       CHECK00;
 
-       //WARNING("divu.l d0,d1 is actually divul.l d0,d1:d1!!!")
+       if (siz != SIZN)
+               return error("bad size suffix");
 
-       WORD flg = inst;                                        // Save flag bits
-       inst &= ~0x3F;                                          // Clobber flag bits in instr
+       if (*tok >= REG68_D0 && *tok <= REG68_D7)
+       {
+               // Dx,Dy,#<adjustment>
+               inst |= (0 << 3);   // R/M
+               inst |= (*tok++ & 7);
 
-       // Install "standard" instr size bits
-       if (flg & 4)
-               inst |= siz_6[siz];
+               if (*tok != ',' && tok[2] != ',')
+                       return error("missing comma");
 
-       if (flg & 16)
-       {
-               // OR-in register number
-               if (flg & 8)
-                       inst |= reg_9[a1reg];           // ea1reg in bits 9..11
-               else
-                       inst |= reg_9[a0reg];           // ea0reg in bits 9..11
-       }
+               if (tok[1] < REG68_D0 && tok[1] > REG68_D7)
+                       return error(syntax_error);
 
-       if (flg & 1)
+               inst |= ((tok[1] & 7)<<9);
+               tok = tok + 3;
+               D_word(inst);
+               // Fall through for adjustment (common in both valid cases)
+       }
+       else if (*tok == '-')
        {
-               // Use am1
-               inst |= am1 | a1reg;                    // Get ea1 into instr
-               D_word(inst);                                   // Deposit instr
+               // -(Ax),-(Ay),#<adjustment>
+               inst |= (1 << 3);   // R/M
+               tok++;  // eat the minus
 
-               // Generate ea0 if requested
-               if (flg & 2)
-                       ea0gen(siz);
+               if ((*tok != '(') && (tok[2]!=')') && (tok[3]!=',') && (tok[4] != '-') && (tok[5] != '(') && (tok[7] != ')') && (tok[8] != ','))
+                       return error(syntax_error);
 
-               ea1gen(siz);                                    // Generate ea1
+               if (tok[1] < REG68_A0 && tok[1] > REG68_A7)
+                       return error(syntax_error);
+
+               if (tok[5] < REG68_A0 && tok[6] > REG68_A7)
+                       return error(syntax_error);
+
+               inst |= ((tok[1] & 7) << 0);
+               inst |= ((tok[6] & 7) << 9);
+               tok = tok + 9;
+               D_word(inst);
+               // Fall through for adjustment (common in both valid cases)
        }
        else
-       {
-               // Use am0
-               inst |= am0 | a0reg;                    // Get ea0 into instr
-               D_word(inst);                                   // Deposit instr
-               ea0gen(siz);                                    // Generate ea0
+               return error("invalid syntax");
 
-                                                                               // Generate ea1 if requested
-               if (flg & 2)
-                       ea1gen(siz);
-       }
+       if ((*tok != CONST) && (*tok != SYMBOL) && (*tok != '-'))
+               return error(syntax_error);
 
-       inst = a1reg + (a2reg << 12);
-       D_word(inst);
+       if (expr(a0expr, &a0exval, &a0exattr, &a0esym) == ERROR)
+               return ERROR;
+
+       if ((a0exattr & DEFINED) == 0)
+               return error(undef_error);
+
+       if (a0exval + 0x8000 > 0x10000)
+               return error("");
+
+       if (*tok != EOL)
+               return error(extra_stuff);
+
+       D_word((a0exval & 0xFFFF));
 
        return OK;
 }
 
 
 //
-// mulu.l
+// rtm Rn
 //
-int m_mulu(WORD inst, WORD siz)
+int m_rtm(WORD inst, WORD siz)
 {
-       if ((activecpu & (CPU_68020 | CPU_68030 | CPU_68040)) == 0)
-               return error(unsupport);
-
-       WORD flg = inst;                                        // Save flag bits
-       inst &= ~0x3F;                                          // Clobber flag bits in instr
-
-       // Install "standard" instr size bits
-       if (flg & 4)
-               inst |= siz_6[siz];
+       CHECKNO20;
 
-       if (flg & 16)
-       {
-               // OR-in register number
-               if (flg & 8)
-                       inst |= reg_9[a1reg];           // ea1reg in bits 9..11
-               else
-                       inst |= reg_9[a0reg];           // ea0reg in bits 9..11
-       }
-
-       if (flg & 1)
-       {
-               // Use am1
-               inst |= am1 | a1reg;                    // Get ea1 into instr
-               D_word(inst);                                   // Deposit instr
-
-               // Generate ea0 if requested
-               if (flg & 2)
-                       ea0gen(siz);
-
-               ea1gen(siz);                                    // Generate ea1
-       }
-       else
-       {
-               // Use am0
-               inst |= am0 | a0reg;                    // Get ea0 into instr
-               D_word(inst);                                   // Deposit instr
-               ea0gen(siz);                                    // Generate ea0
-
-               // Generate ea1 if requested
-               if (flg & 2)
-                       ea1gen(siz);
-       }
-
-       inst = a1reg + (a2reg << 12);
-    inst |= mulmode;  // add size bit
-       D_word(inst);
-
-       return OK;
-}
-
-
-//
-// divsl.l
-//
-int m_divsl(WORD inst, WORD siz)
-{
-       if ((activecpu & (CPU_68020 | CPU_68030 | CPU_68040)) == 0)
-               return error(unsupport);
-
-       WORD flg = inst;                                        // Save flag bits
-       inst &= ~0x3F;                                          // Clobber flag bits in instr
-
-       // Install "standard" instr size bits
-       if (flg & 4)
-               inst |= siz_6[siz];
-
-       if (flg & 16)
-       {
-               // OR-in register number
-               if (flg & 8)
-                       inst |= reg_9[a1reg];           // ea1reg in bits 9..11
-               else
-                       inst |= reg_9[a0reg];           // ea0reg in bits 9..11
-       }
-
-       if (flg & 1)
-       {
-               // Use am1
-               inst |= am1 | a1reg;                    // Get ea1 into instr
-               D_word(inst);                                   // Deposit instr
-
-               // Generate ea0 if requested
-               if (flg & 2)
-                       ea0gen(siz);
-
-               ea1gen(siz);                                    // Generate ea1
-       }
-       else
-       {
-               // Use am0
-               inst |= am0 | a0reg;                    // Get ea0 into instr
-               D_word(inst);                                   // Deposit instr
-               ea0gen(siz);                                    // Generate ea0
-
-               // Generate ea1 if requested
-               if (flg & 2)
-                       ea1gen(siz);
-       }
-
-       inst = a1reg + (a2reg << 12) + (1 << 11) + (1 << 10);
-       D_word(inst);
-
-       return OK;
-}
-
-
-//
-// divul.l
-//
-int m_divul(WORD inst, WORD siz)
-{
-       if ((activecpu & (CPU_68020 | CPU_68030 | CPU_68040)) == 0)
-               return error(unsupport);
-
-       WORD flg = inst;                                        // Save flag bits
-       inst &= ~0x3F;                                          // Clobber flag bits in instr
-
-       // Install "standard" instr size bits
-       if (flg & 4)
-               inst |= siz_6[siz];
-
-       if (flg & 16)
-       {
-               // OR-in register number
-               if (flg & 8)
-                       inst |= reg_9[a1reg];           // ea1reg in bits 9..11
-               else
-                       inst |= reg_9[a0reg];           // ea0reg in bits 9..11
-       }
-
-       if (flg & 1)
-       {
-               // Use am1
-               inst |= am1 | a1reg;                    // Get ea1 into instr
-               D_word(inst);                                   // Deposit instr
-
-               // Generate ea0 if requested
-               if (flg & 2)
-                       ea0gen(siz);
-
-               ea1gen(siz);                                    // Generate ea1
-       }
-       else
-       {
-               // Use am0
-               inst |= am0 | a0reg;                    // Get ea0 into instr
-               D_word(inst);                                   // Deposit instr
-               ea0gen(siz);                                    // Generate ea0
-
-               // Generate ea1 if requested
-               if (flg & 2)
-                       ea1gen(siz);
-       }
-
-       inst = a1reg + (a2reg << 12) + (1 << 10);
-       D_word(inst);
-
-       return OK;
-}
-
-
-//
-// move16 (ax)+,(ay)+
-//
-int m_move16a(WORD inst, WORD siz)
-{
-       if ((activecpu & (CPU_68040 | CPU_68060)) == 0)
-               return error(unsupport);
-
-       inst |= a0reg;
-       D_word(inst);
-       inst = (1 << 15) + (a1reg << 12);
-       D_word(inst);
-
-       return OK;
-}
-
-
-//
-// move16 with absolute address
-//
-int m_move16b(WORD inst, WORD siz)
-{
-       if ((activecpu & (CPU_68040 | CPU_68060)) == 0)
-               return error(unsupport);
-
-       int v;
-       inst |= a1reg;
-       D_word(inst);
-
-       if (am0 == APOSTINC)
-       {
-               if (am1 == AIND)
-                       return error("Wasn't this suppose to call m_move16a???");
-               else
-               {
-                       //move16 (ax)+,(xxx).L
-                       inst |= 0 << 3;
-                       v = (int)a1exval;
-               }
-       }
-       else if (am0 == ABSL)
-       {
-               if (am1 == AIND)
-               {
-                       //move16 (xxx).L,(ax)+
-                       inst |= 1 << 3;
-                       v = (int)a0exval;
-               }
-               else //APOSTINC
-               {
-                       //move16 (xxx).L,(ax)
-                       inst |= 3 << 3;
-                       v = (int)a0exval;
-               }
-       }
-       else if (am0 == AIND)
-       {
-               //move16 (ax),(xxx).L
-               inst |= 2 << 3;
-               v = (int)a1exval;
-       }
-
-       D_word(inst);
-       D_long(v);
-
-       return OK;
-}
-
-
-//
-// pack/unpack (68020/68030/68040)
-//
-int m_pack(WORD inst, WORD siz)
-{
-       CHECK00;
-
-       if (siz != SIZN)
-               return error("bad size suffix");
-
-       if (*tok >= KW_D0 && *tok <= KW_D7)
-       {
-               // Dx,Dy,#<adjustment>
-               inst |= (0 << 3);   // R/M
-               inst |= (*tok++ & 7);
-
-               if (*tok != ',' && tok[2] != ',')
-                       return error("missing comma");
-
-               if (tok[1] < KW_D0 && tok[1] > KW_D7)
-                       return error(syntax_error);
-
-               inst |= ((tok[1] & 7)<<9);
-               tok = tok + 3;
-               D_word(inst);
-               // Fall through for adjustment (common in both valid cases)
-       }
-       else if (*tok == '-')
-       {
-               // -(Ax),-(Ay),#<adjustment>
-               inst |= (1 << 3);   // R/M
-               tok++;  // eat the minus
-
-               if ((*tok != '(') && (tok[2]!=')') && (tok[3]!=',') && (tok[4] != '-') && (tok[5] != '(') && (tok[7] != ')') && (tok[8] != ','))
-                       return error(syntax_error);
-
-               if (tok[1] < KW_A0 && tok[1] > KW_A7)
-                       return error(syntax_error);
-
-               if (tok[5] < KW_A0 && tok[6] > KW_A7)
-                       return error(syntax_error);
-
-               inst |= ((tok[1] & 7) << 0);
-               inst |= ((tok[6] & 7) << 9);
-               tok = tok + 9;
-               D_word(inst);
-               // Fall through for adjustment (common in both valid cases)
-       }
-       else
-               return error("invalid syntax");
-
-       if ((*tok != CONST) && (*tok != SYMBOL) && (*tok != '-'))
-               return error(syntax_error);
-
-       if (expr(a0expr, &a0exval, &a0exattr, &a0esym) == ERROR)
-               return ERROR;
-
-       if ((a0exattr & DEFINED) == 0)
-               return error(undef_error);
-
-       if (a0exval + 0x8000 > 0x10000)
-               return error("");
-
-       if (*tok != EOL)
-               return error(extra_stuff);
-
-       D_word((a0exval & 0xFFFF));
-
-       return OK;
-}
-
-
-//
-// rtm Rn
-//
-int m_rtm(WORD inst, WORD siz)
-{
-       CHECKNO20;
-
-       if (am0 == DREG)
+       if (am0 == DREG)
        {
                inst |= a0reg;
        }
@@ -2173,7 +2034,7 @@ int m_trapcc(WORD inst, WORD siz)
 
 
 //
-// cinvl/p/a (68040)
+// cinvl/p/a (68040/68060)
 //
 int m_cinv(WORD inst, WORD siz)
 {
@@ -2183,13 +2044,13 @@ int m_cinv(WORD inst, WORD siz)
                inst |= (0 << 6) | (a1reg);
        switch (a0reg)
        {
-       case 0:     // KW_IC40
+       case 0:     // REG68_IC40
                inst |= (2 << 6) | (a1reg);
                break;
-       case 1:     // KW_DC40
+       case 1:     // REG68_DC40
                inst |= (1 << 6) | (a1reg);
                break;
-       case 2:     // KW_BC40
+       case 2:     // REG68_BC40
                inst |= (3 << 6) | (a1reg);
                break;
        }
@@ -2199,24 +2060,44 @@ int m_cinv(WORD inst, WORD siz)
 }
 
 
+int m_fpusavrest(WORD inst, WORD siz)
+{
+       inst |= am0 | a0reg;
+       D_word(inst);
+       ea0gen(siz);
+
+       return OK;
+}
+
+
 //
-// cpRESTORE (68020, 68030)
+// cpSAVE/cpRESTORE (68020, 68030)
 //
 int m_cprest(WORD inst, WORD siz)
 {
        if (activecpu & !(CPU_68020 | CPU_68030))
                return error(unsupport);
 
-       inst |= am0 | a0reg;
-       D_word(inst);
-       ea0gen(siz);
+       return m_fpusavrest(inst, siz);
 
-       return OK;
 }
 
 
 //
-// movec (68010, 68020, 68030, 68040, CPU32)
+// FSAVE/FRESTORE (68040, 68060)
+//
+int m_frestore(WORD inst, WORD siz)
+{
+       if ((!(activecpu & (CPU_68040 | CPU_68060))) ||
+               (activefpu&(FPU_68881 | FPU_68882)))
+               return error(unsupport);
+
+       return m_fpusavrest(inst, siz);
+}
+
+
+//
+// movec (68010, 68020, 68030, 68040, 68060, CPU32)
 //
 int m_movec(WORD inst, WORD siz)
 {
@@ -2311,16 +2192,6 @@ int m_moves(WORD inst, WORD siz)
 }
 
 
-//
-// PBcc (MC68851)
-//
-int m_pbcc(WORD inst, WORD siz)
-{
-       CHECKNO20;
-       return error("Not implemented yet.");
-}
-
-
 //
 // pflusha (68030, 68040)
 //
@@ -2335,7 +2206,7 @@ int m_pflusha(WORD inst, WORD siz)
        }
        else if (activecpu == CPU_68040)
        {
-               inst = B16(11110101, 00011000);
+               inst = 0b1111010100011000;
                D_word(inst);
                return OK;
        }
@@ -2371,26 +2242,26 @@ int m_pflush(WORD inst, WORD siz)
                        if ((a0exattr & DEFINED) == 0)
                                return error("function code immediate should be defined");
 
-                       if (a0exval > 7 && a0exval < 0)
+                       if (a0exval > 7)
                                return error("function code out of range (0-7)");
 
                        fc = (uint16_t)a0exval;
                        break;
-               case KW_D0:
-               case KW_D1:
-               case KW_D2:
-               case KW_D3:
-               case KW_D4:
-               case KW_D5:
-               case KW_D6:
-               case KW_D7:
+               case REG68_D0:
+               case REG68_D1:
+               case REG68_D2:
+               case REG68_D3:
+               case REG68_D4:
+               case REG68_D5:
+               case REG68_D6:
+               case REG68_D7:
                        fc = (1 << 4) | (*tok++ & 7);
                        break;
-               case KW_SFC:
+               case REG68_SFC:
                        fc = 0;
                        tok++;
                        break;
-               case KW_DFC:
+               case REG68_DFC:
                        fc = 1;
                        tok++;
                        break;
@@ -2413,7 +2284,7 @@ int m_pflush(WORD inst, WORD siz)
                if ((a0exattr & DEFINED) == 0)
                        return error("mask immediate value should be defined");
 
-               if (a0exval > 7 && a0exval < 0)
+               if (a0exval > 7)
                        return error("function code out of range (0-7)");
 
                mask = (uint16_t)a0exval << 5;
@@ -2462,7 +2333,7 @@ int m_pflush(WORD inst, WORD siz)
                if (*tok != '(' && tok[2] != ')')
                        return error(syntax_error);
 
-               if (tok[1] < KW_A0 && tok[1] > KW_A7)
+               if (tok[1] < REG68_A0 && tok[1] > REG68_A7)
                        return error("expected (An)");
 
                if ((inst & 7) == 7)
@@ -2487,6 +2358,18 @@ int m_pflush(WORD inst, WORD siz)
 }
 
 
+//
+// pflushan (68040, 68060)
+//
+int m_pflushan(WORD inst, WORD siz)
+{
+       if (activecpu == CPU_68040 || activecpu == CPU_68060)
+               D_word(inst);
+
+       return OK;
+}
+
+
 //
 // pflushr (68851)
 //
@@ -2534,7 +2417,7 @@ int m_pflushr(WORD inst, WORD siz)
                        ea1gen(siz);
        }
 
-       D_word(B16(10100000, 00000000));
+       D_word(0b1010000000000000);
        return OK;
 }
 
@@ -2555,13 +2438,12 @@ int m_pload(WORD inst, WORD siz, WORD extension)
        switch (am0)
        {
        case CREG:
-               if (a0reg == KW_SFC - KW_SFC)
+               if (a0reg == REG68_SFC - REG68_SFC)
                        inst = 0;
-               else if (a0reg == KW_DFC - KW_SFC)
+               else if (a0reg == REG68_DFC - REG68_SFC)
                        inst = 1;
                else
                        return error("illegal control register specified");
-
                break;
        case DREG:
                inst = (1 << 3) | a0reg;
@@ -2570,6 +2452,9 @@ int m_pload(WORD inst, WORD siz, WORD extension)
                if ((a0exattr & DEFINED) == 0)
                        return error("constant value must be defined");
 
+               if (a0exval>7)
+               return error("constant value must be between 0 and 7");
+
                inst = (2 << 3) | (uint16_t)a0exval;
                break;
        }
@@ -2625,19 +2510,19 @@ int m_pmove(WORD inst, WORD siz)
 
        // The instruction is a quad-word (8 byte) operation
        // for the CPU root pointer and the supervisor root pointer.
-       // It is a long - word operation for the translation control register
+       // It is a long-word operation for the translation control register
        // and the transparent translation registers(TT0 and TT1).
        // It is a word operation for the MMU status register.
 
-       if (((reg == (KW_URP - KW_SFC)) || (reg == (KW_SRP - KW_SFC)))
+       if (((reg == (REG68_URP - REG68_SFC)) || (reg == (REG68_SRP - REG68_SFC)))
                && ((siz != SIZD) && (siz != SIZN)))
                return error(siz_error);
 
-       if (((reg == (KW_TC - KW_SFC)) || (reg == (KW_TT0 - KW_SFC)) || (reg == (KW_TT1 - KW_SFC)))
+       if (((reg == (REG68_TC - REG68_SFC)) || (reg == (REG68_TT0 - REG68_SFC)) || (reg == (REG68_TT1 - REG68_SFC)))
                && ((siz != SIZL) && (siz != SIZN)))
                return error(siz_error);
 
-       if ((reg == (KW_MMUSR - KW_SFC)) && ((siz != SIZW) && (siz != SIZN)))
+       if ((reg == (REG68_MMUSR - REG68_SFC)) && ((siz != SIZW) && (siz != SIZN)))
                return error(siz_error);
 
        if (am0 == CREG)
@@ -2647,23 +2532,23 @@ int m_pmove(WORD inst, WORD siz)
        }
        else if (am1 == CREG)
        {
-       inst |= am0 | a0reg;
+               inst |= am0 | a0reg;
                D_word(inst);
        }
 
-       switch (reg + KW_SFC)
+       switch (reg + REG68_SFC)
        {
-       case KW_TC:
+       case REG68_TC:
                inst2 |= (0 << 10) + (1 << 14); break;
-       case KW_SRP:
+       case REG68_SRP:
                inst2 |= (2 << 10) + (1 << 14); break;
-       case KW_CRP:
+       case REG68_CRP:
                inst2 |= (3 << 10) + (1 << 14); break;
-       case KW_TT0:
+       case REG68_TT0:
                inst2 |= (2 << 10) + (0 << 13); break;
-       case KW_TT1:
+       case REG68_TT1:
                inst2 |= (3 << 10) + (0 << 13); break;
-       case KW_MMUSR:
+       case REG68_MMUSR:
                if (am0 == CREG)
                        inst2 |= (1 << 9) + (3 << 13);
                else
@@ -2701,7 +2586,7 @@ int m_pmovefd(WORD inst, WORD siz)
 //
 int m_ptrapcc(WORD inst, WORD siz)
 {
-    CHECKNO20;
+       CHECKNO20;
        // We stash the 5 condition bits inside the opcode in 68ktab (bits 0-4),
        // so we need to extract them first and fill in the clobbered bits.
        WORD opcode = inst & 0x1F;
@@ -2733,25 +2618,115 @@ int m_ptrapcc(WORD inst, WORD siz)
 
 
 //
-// ptestr, ptestw (68030)
+// ptestr, ptestw (68030, 68040)
+// TODO See comment on m_pmove about 68851 support
+// TODO quite a good chunk of the 030 code is copied from m_pload, perhaps merge these somehow?
 //
-int m_ptest(WORD inst, WORD siz)
+int m_ptest(WORD inst, WORD siz, WORD extension)
 {
-       CHECKNO30;
+       uint64_t eval;
+
+       if (activecpu != CPU_68030 && activecpu != CPU_68040)
+               return error(unsupport);
 
        if (activecpu == CPU_68030)
-               return error("Not implemented yet.");
-       else if (activecpu == CPU_68040)
+       {
+               inst |= am1;
+               D_word(inst);
+
+               switch (am0)
+               {
+               case CREG:
+                       if (a0reg == REG68_SFC - REG68_SFC)
+                               extension |= 0;
+                       else if (a0reg == REG68_DFC - REG68_SFC)
+                               extension |= 1;
+                       else
+                               return error("illegal control register specified");
+                       break;
+               case DREG:
+                       extension |= (1 << 3) | a0reg;
+                       break;
+               case IMMED:
+                       if ((a0exattr & DEFINED) == 0)
+                               return error("constant value must be defined");
+
+                       if (a0exval > 7)
+                               return error("constant value must be between 0 and 7");
+
+                       extension |= (2 << 3) | (uint16_t)a0exval;
+                       break;
+               }
+
+               // Operand 3 must be an immediate
+               CHECK_COMMA
+
+               if (*tok++ != '#')
+                       return error("ptest level must be immediate");
+
+               // Let's be a bit inflexible here and demand that this
+               // is fully defined at this stage. Otherwise we'd have
+               // to arrange for a bitfield fixup, which would mean
+               // polluting the bitfields and codebase with special
+               // cases that might most likely never be used.
+               // So if anyone gets bit by this: sorry for being a butt!
+               if (abs_expr(&eval) != OK)
+                       return OK;      // We're returning OK because error() has already been called and error count has been increased
+
+               if (eval > 7)
+                       return error("ptest level must be between 0 and 7");
+
+               extension |= eval << 10;
+
+               // Operand 4 is optional and must be an address register
+
+               if (*tok != EOL)
+               {
+                       CHECK_COMMA
+
+                       if ((*tok >= REG68_A0) && (*tok <= REG68_A7))
+                       {
+                               extension |= (1 << 8) | ((*tok++ & 7) << 4);
+                       }
+                       else
+                       {
+                               return error("fourth parameter must be an address register");
+                       }
+               }
+
+               ErrorIfNotAtEOL();
+
+               D_word(extension);
+               return OK;
+       }
+       else
                return error("Not implemented yet.");
 
        return ERROR;
 }
 
+int m_ptestr(WORD inst, WORD siz)
+{
+       return m_ptest(inst, siz, (1 << 15) | (0 << 9));
+}
+
+int m_ptestw(WORD inst, WORD siz)
+{
+       return m_ptest(inst, siz, (1 << 15) | (1 << 9));
+}
+
+//////////////////////////////////////////////////////////////////////////////
+//
+// 68020/30/40/60 instructions
+// Note: the map of which instructions are allowed on which CPUs came from the
+// 68060 manual, section D-1 (page 392 of the PDF). The current implementation
+// is missing checks for the EC models which have a simplified FPU.
+//
+//////////////////////////////////////////////////////////////////////////////
+
 
 #define FPU_NOWARN 0
-#define FPU_P_EMUL 1
-#define FPU_P2_EMU 2
-#define FPU_FPSP   4
+#define FPU_FPSP   1
 
 
 //
@@ -2764,8 +2739,8 @@ static inline int gen_fpu(WORD inst, WORD siz, WORD opmode, WORD emul)
                inst |= (1 << 9);       // Bolt on FPU id
                inst |= am0;
 
-               if (am0 == DREG)
-            inst |= a0reg;
+               //if (am0 == DREG || am0 == AREG)
+                       inst |= a0reg;
 
                D_word(inst);
                inst = 1 << 14; // R/M field (we have ea so have to set this to 1)
@@ -2807,135 +2782,158 @@ static inline int gen_fpu(WORD inst, WORD siz, WORD opmode, WORD emul)
                D_word(inst);
        }
 
-       if ((emul & FPU_FPSP) && (activefpu == FPU_68040))
-               warn("Instruction is emulated in 68040");
+       if ((emul & FPU_FPSP) && (activefpu == (FPU_68040 | FPU_68060)))
+               warn("Instruction is emulated in 68040/060");
 
        return OK;
 }
 
 
 //
-// fabs, fsabs, fdabs (6888X, 68040)
+// fabs (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fabs(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00011000), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00011000, FPU_NOWARN);
 }
 
 
+//
+// fsabs (68040, 68060)
+//
 int m_fsabs(WORD inst, WORD siz)
 {
+       CHECKNO40;
        if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01011000), FPU_P_EMUL);
+               return gen_fpu(inst, siz, 0b01011000, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
+//
+// fdabs (68040, 68060)
+//
 int m_fdabs(WORD inst, WORD siz)
 {
        if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01011100), FPU_P_EMUL);
+               return gen_fpu(inst, siz, 0b01011100, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
 //
-// facos (6888X, 68040FPSP)
+// facos (6888X, 68040FPSP, 68060FPSP)
 //
 int m_facos(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00011100), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00011100, FPU_FPSP);
 }
 
 
 //
-// fadd (6888X, 68040FPSP)
+// fadd (6888X, 68040, 68060)
 //
 int m_fadd(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00100010), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00100010, FPU_NOWARN);
 }
 
 
+//
+// fsadd (68040, 68060)
+//
 int m_fsadd(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01100010), FPU_P_EMUL);
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01100010, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
+//
+// fxadd (68040)
+//
 int m_fdadd(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01100110), FPU_P_EMUL);
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01100110, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
 //
-// fasin (6888X, 68040FPSP)f
+// fasin (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fasin(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00001100), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00001100, FPU_FPSP);
 }
 
 
 //
-// fatan (6888X, 68040FPSP)
+// fatan (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fatan(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00001010), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00001010, FPU_FPSP);
 }
 
 
 //
-// fatanh (6888X, 68040FPSP)
+// fatanh (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fatanh(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00001101), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00001101, FPU_FPSP);
 }
 
 
 //
-// fcmp (6888X, 68040)
+// fcmp (6888X, 68040, 68060)
 //
 int m_fcmp(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00111000), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00111000, FPU_FPSP);
 }
 
 
 //
-// fcos (6888X, 68040FPSP)
+// fcos (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fcos(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00011101), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00011101, FPU_FPSP);
 }
 
 
 //
-// fcosh (6888X, 68040FPSP)
+// fcosh (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fcosh(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00011001), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00011001, FPU_FPSP);
 }
 
 
 //
-// fdbcc (6888X, 68040)
+// fdbcc (6888X, 68040, 68060FPSP)
 //
 int m_fdbcc(WORD inst, WORD siz)
 {
+       CHECKNOFPU;
        WORD opcode = inst & 0x3F;      // Grab conditional bitfield
 
        inst &= ~0x3F;
@@ -2964,75 +2962,89 @@ int m_fdbcc(WORD inst, WORD siz)
                D_word(0);
        }
 
+       if (activefpu == FPU_68060)
+               warn("Instruction is emulated in 68060");
+
        return OK;
 }
 
 
 //
-// fdiv (6888X, 68040)
+// fdiv (6888X, 68040, 68060)
 //
 int m_fdiv(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00100000), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00100000, FPU_NOWARN);
 }
 
 
+//
+// fsdiv (68040, 68060)
+//
 int m_fsdiv(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01100000), FPU_P_EMUL);
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01100000, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
+//
+// fddiv (68040, 68060)
+//
 int m_fddiv(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01100100), FPU_P_EMUL);
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01100100, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
 //
-// fetox (6888X, 68040FPSP)
+// fetox (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fetox(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00010000), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00010000, FPU_FPSP);
 }
 
 
 //
-// fetoxm1 (6888X, 68040FPSP)
+// fetoxm1 (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fetoxm1(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00001000), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00001000, FPU_FPSP);
 }
 
 
 //
-// fgetexp (6888X, 68040FPSP)
+// fgetexp (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fgetexp(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00011110), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00011110, FPU_FPSP);
 }
 
 
 //
-// fgetman (6888X, 68040FPSP)
+// fgetman (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fgetman(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00011111), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00011111, FPU_FPSP);
 }
 
 
 //
-// fint (6888X, 68040FPSP)
+// fint (6888X, 68040FPSP, 68060)
 //
 int m_fint(WORD inst, WORD siz)
 {
@@ -3040,12 +3052,15 @@ int m_fint(WORD inst, WORD siz)
                // special case - fint fpx = fint fpx,fpx
                a1reg = a0reg;
 
-       return gen_fpu(inst, siz, B8(00000001), FPU_FPSP);
+       if (activefpu == FPU_68040)
+               warn("Instruction is emulated in 68040");
+
+       return gen_fpu(inst, siz, 0b00000001, FPU_NOWARN);
 }
 
 
 //
-// fintrz (6888X, 68040FPSP)
+// fintrz (6888X, 68040FPSP, 68060)
 //
 int m_fintrz(WORD inst, WORD siz)
 {
@@ -3053,64 +3068,74 @@ int m_fintrz(WORD inst, WORD siz)
                // special case - fintrz fpx = fintrz fpx,fpx
                a1reg = a0reg;
 
-       return gen_fpu(inst, siz, B8(00000011), FPU_FPSP);
+       if (activefpu == FPU_68040)
+               warn("Instruction is emulated in 68040");
+
+       return gen_fpu(inst, siz, 0b00000011, FPU_NOWARN);
 }
 
 
 //
-// flog10 (6888X, 68040FPSP)
+// flog10 (6888X, 68040FPSP, 68060FPSP)
 //
 int m_flog10(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00010101), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00010101, FPU_FPSP);
 }
 
 
 //
-// flog2 (6888X, 68040FPSP)
+// flog2 (6888X, 68040FPSP, 68060FPSP)
 //
 int m_flog2(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00010110), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00010110, FPU_FPSP);
 }
 
 
 //
-// flogn (6888X, 68040FPSP)
+// flogn (6888X, 68040FPSP, 68060FPSP)
 //
 int m_flogn(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00010100), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00010100, FPU_FPSP);
 }
 
 
 //
-// flognp1 (6888X, 68040FPSP)
+// flognp1 (6888X, 68040FPSP, 68060FPSP)
 //
 int m_flognp1(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00000110), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00000110, FPU_FPSP);
 }
 
 
 //
-// fmod (6888X, 68040FPSP)
+// fmod (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fmod(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00100001), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00100001, FPU_FPSP);
 }
 
 
 //
-// fmove (6888X, 68040)
+// fmove (6888X, 68040, 68060)
 //
 int m_fmove(WORD inst, WORD siz)
 {
+       CHECKNOFPU;
+
        // EA to register
        if ((am0 == FREG) && (am1 < AM_USP))
        {
-               //fpx->ea
+               // fpx->ea
                // EA
                inst |= am1 | a1reg;
                D_word(inst);
@@ -3209,13 +3234,13 @@ int m_fmove(WORD inst, WORD siz)
                inst = 0 << 14;
 
                // Source specifier
-               if (siz != SIZX)
+               if (siz != SIZX && siz != SIZN)
                        return error("Invalid size");
 
                // Source register
                inst |= (a0reg << 10);
 
-        // Destination register
+               // Destination register
                inst |= (a1reg << 7);
 
                D_word(inst);
@@ -3226,10 +3251,12 @@ int m_fmove(WORD inst, WORD siz)
 
 
 //
-// fmove (6888X, 68040)
+// fmove (6888X, 68040, 68060)
 //
 int m_fmovescr(WORD inst, WORD siz)
 {
+       CHECKNOFPU;
+
        // Move Floating-Point System Control Register (FPCR)
        // ea
        // dr
@@ -3259,39 +3286,33 @@ int m_fmovescr(WORD inst, WORD siz)
 }
 
 //
-// fsmove/fdmove (68040)
+// fsmove/fdmove (68040, 68060)
 //
 int m_fsmove(WORD inst, WORD siz)
 {
-       return error("Not implemented yet.");
-
-#if 0
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01100100), FPU_P_EMUL);
-       else
+       if (!(activefpu & (FPU_68040 | FPU_68060)))
                return error("Unsupported in current FPU");
-#endif
+
+       return gen_fpu(inst, siz, 0b01100100, FPU_FPSP);
 }
 
 
 int m_fdmove(WORD inst, WORD siz)
 {
-       return error("Not implemented yet.");
-
-#if 0
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01100100), FPU_P_EMUL);
-       else
+       if (!(activefpu & (FPU_68040 | FPU_68060)))
                return error("Unsupported in current FPU");
-#endif
+
+       return gen_fpu(inst, siz, 0b01100100, FPU_FPSP);
 }
 
 
 //
-// fmovecr (6888X, 68040FPSP)
+// fmovecr (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fmovecr(WORD inst, WORD siz)
 {
+       CHECKNOFPU;
+
        D_word(inst);
        inst = 0x5c00;
        inst |= a1reg << 7;
@@ -3299,25 +3320,27 @@ int m_fmovecr(WORD inst, WORD siz)
        D_word(inst);
 
        if (activefpu == FPU_68040)
-               warn("Instruction is emulated in 68040");
+               warn("Instruction is emulated in 68040/060");
 
        return OK;
 }
 
 
 //
-// fmovem (6888X, 68040)
+// fmovem (6888X, 68040, 68060FPSP)
 //
 int m_fmovem(WORD inst, WORD siz)
 {
+       CHECKNOFPU;
+
        WORD regmask;
        WORD datareg;
 
        if (siz == SIZX || siz == SIZN)
        {
-               if ((*tok >= KW_FP0) && (*tok <= KW_FP7))
+               if ((*tok >= REG68_FP0) && (*tok <= REG68_FP7))
                {
-                       //fmovem.x <rlist>,ea
+                       // fmovem.x <rlist>,ea
                        if (fpu_reglist_left(&regmask) < 0)
                                return OK;
 
@@ -3338,7 +3361,7 @@ int m_fmovem(WORD inst, WORD siz)
                        ea0gen(siz);
                        return OK;
                }
-               else if ((*tok >= KW_D0) && (*tok <= KW_D7))
+               else if ((*tok >= REG68_D0) && (*tok <= REG68_D7))
                {
                        // fmovem.x Dn,ea
                        datareg = (*tok++ & 7) << 10;
@@ -3354,6 +3377,11 @@ int m_fmovem(WORD inst, WORD siz)
                        if (!(amsktab[am0] & (C_ALTCTRL | M_APREDEC)))
                                return error("invalid addressing mode");
 
+                       // Quote from the 060 manual:
+                       // "[..] when the processor attempts an FMOVEM.X instruction using a dynamic register list."
+                       if (activefpu == FPU_68060)
+                               warn("Instruction is emulated in 68060");
+
                        D_word(inst);
                        inst = (1 << 15) | (1 << 14) | (1 << 13) | (1 << 11) | (datareg << 4);
                        D_word(inst);
@@ -3371,9 +3399,9 @@ int m_fmovem(WORD inst, WORD siz)
                        if (*tok++ != ',')
                                return error("missing comma");
 
-                       if ((*tok >= KW_FP0) && (*tok <= KW_FP7))
+                       if ((*tok >= REG68_FP0) && (*tok <= REG68_FP7))
                        {
-                               //fmovem.x ea,<rlist>
+                               // fmovem.x ea,<rlist>
                                if (fpu_reglist_right(&regmask) < 0)
                                        return OK;
 
@@ -3387,6 +3415,12 @@ int m_fmovem(WORD inst, WORD siz)
                        {
                                // fmovem.x ea,Dn
                                datareg = (*tok++ & 7) << 10;
+
+                               // Quote from the 060 manual:
+                               // "[..] when the processor attempts an FMOVEM.X instruction using a dynamic register list."
+                               if (activefpu == FPU_68060)
+                                       warn("Instruction is emulated in 68060");
+
                                D_word(inst);
                                inst = (1 << 15) | (1 << 14) | (0 << 13) | (3 << 11) | (datareg << 4);
                                D_word(inst);
@@ -3397,29 +3431,34 @@ int m_fmovem(WORD inst, WORD siz)
        }
        else if (siz == SIZL)
        {
-               if ((*tok == KW_FPCR) || (*tok == KW_FPSR) || (*tok == KW_FPIAR))
+               if ((*tok == REG68_FPCR) || (*tok == REG68_FPSR) || (*tok == REG68_FPIAR))
                {
-                       //fmovem.l <rlist>,ea
+                       // fmovem.l <rlist>,ea
                        regmask = (1 << 15) | (1 << 13);
+                       int no_control_regs = 0;
+
 fmovem_loop_1:
-                       if (*tok == KW_FPCR)
+                       if (*tok == REG68_FPCR)
                        {
                                regmask |= (1 << 12);
                                tok++;
+                               no_control_regs++;
                                goto fmovem_loop_1;
                        }
 
-                       if (*tok == KW_FPSR)
+                       if (*tok == REG68_FPSR)
                        {
                                regmask |= (1 << 11);
                                tok++;
+                               no_control_regs++;
                                goto fmovem_loop_1;
                        }
 
-                       if (*tok == KW_FPIAR)
+                       if (*tok == REG68_FPIAR)
                        {
                                regmask |= (1 << 10);
                                tok++;
+                               no_control_regs++;
                                goto fmovem_loop_1;
                        }
 
@@ -3435,6 +3474,14 @@ fmovem_loop_1:
                        if (amode(0) < 0)
                                return OK;
 
+                       // Quote from the 060 manual:
+                       // "[..] when the processor attempts to execute an FMOVEM.L instruction with
+                       // an immediate addressing mode to more than one floating - point
+                       // control register (FPCR, FPSR, FPIAR)[..]"
+                       if (activefpu == FPU_68060)
+                               if (no_control_regs > 1 && am0 == IMMED)
+                                       warn("Instruction is emulated in 68060");
+
                        inst |= am0 | a0reg;
                        D_word(inst);
                        D_word(regmask);
@@ -3442,7 +3489,7 @@ fmovem_loop_1:
                }
                else
                {
-                       //fmovem.l ea,<rlist>
+                       // fmovem.l ea,<rlist>
                        if (amode(0) < 0)
                                return OK;
 
@@ -3454,21 +3501,21 @@ fmovem_loop_1:
                        regmask = (1 << 15) | (0 << 13);
 
 fmovem_loop_2:
-                       if (*tok == KW_FPCR)
+                       if (*tok == REG68_FPCR)
                        {
                                regmask |= (1 << 12);
                                tok++;
                                goto fmovem_loop_2;
                        }
 
-                       if (*tok == KW_FPSR)
+                       if (*tok == REG68_FPSR)
                        {
                                regmask |= (1 << 11);
                                tok++;
                                goto fmovem_loop_2;
                        }
 
-                       if (*tok == KW_FPIAR)
+                       if (*tok == REG68_FPIAR)
                        {
                                regmask |= (1 << 10);
                                tok++;
@@ -3498,93 +3545,135 @@ fmovem_loop_2:
 
 
 //
-// fmul (6888X, 68040)
+// fmul (6888X, 68040, 68060)
 //
 int m_fmul(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00100011), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00100011, FPU_NOWARN);
 }
 
 
+//
+// fsmul (68040, 68060)
+//
 int m_fsmul(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01100011), FPU_P_EMUL);
-       else
-               return error("Unsupported in current FPU");
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01100011, FPU_NOWARN);
+
+       return error("Unsupported in current FPU");
 }
 
 
+//
+// fdmul (68040)
+//
 int m_fdmul(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01100111), FPU_P_EMUL);
-       else
-               return error("Unsupported in current FPU");
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01100111, FPU_NOWARN);
+
+       return error("Unsupported in current FPU");
 }
 
 
 //
-// fneg (6888X, 68040)
+// fneg (6888X, 68040, 68060)
 //
 int m_fneg(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00011010), FPU_P_EMUL);
+       CHECKNOFPU;
+
+       if (am1 == AM_NONE)
+       {
+               a1reg = a0reg;
+               return gen_fpu(inst, siz, 0b00011010, FPU_NOWARN);
+       }
+
+       return gen_fpu(inst, siz, 0b00011010, FPU_NOWARN);
 }
 
 
+//
+// fsneg (68040, 68060)
+//
 int m_fsneg(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01011010), FPU_P_EMUL);
-       else
-               return error("Unsupported in current FPU");
+       if (activefpu & (FPU_68040 | FPU_68060))
+       {
+               if (am1 == AM_NONE)
+               {
+                       a1reg = a0reg;
+                       return gen_fpu(inst, siz, 0b01011010, FPU_NOWARN);
+               }
+
+               return gen_fpu(inst, siz, 0b01011010, FPU_NOWARN);
+       }
+
+       return error("Unsupported in current FPU");
 }
 
 
+//
+// fdneg (68040, 68060)
+//
 int m_fdneg(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01011110), FPU_P_EMUL);
+       if (activefpu & (FPU_68040 | FPU_68060))
+       {
+               if (am1 == AM_NONE)
+               {
+                               a1reg = a0reg;
+                               return gen_fpu(inst, siz, 0b01011110, FPU_NOWARN);
+               }
+
+               return gen_fpu(inst, siz, 0b01011110, FPU_NOWARN);
+       }
 
        return error("Unsupported in current FPU");
 }
 
 
 //
-// fnop (6888X, 68040)
+// fnop (6888X, 68040, 68060)
 //
 int m_fnop(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00000000), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00000000, FPU_NOWARN);
 }
 
 
 //
-// frem (6888X, 68040FPSP)
+// frem (6888X, 68040FPSP, 68060FPSP)
 //
 int m_frem(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00100101), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00100101, FPU_FPSP);
 }
 
 
 //
-// fscale (6888X, 68040FPSP)
+// fscale (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fscale(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00100110), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00100110, FPU_FPSP);
 }
 
 
 //
-// FScc (6888X, 68040), cpScc (68851, 68030), PScc (68851)
+// FScc (6888X, 68040, 68060), cpScc (68851, 68030), PScc (68851)
 // TODO: Add check for PScc to ensure 68020+68851 active
 // TODO: Add check for cpScc to ensure 68020+68851, 68030
 //
 int m_fscc(WORD inst, WORD siz)
 {
+       CHECKNOFPU;
+
        // We stash the 5 condition bits inside the opcode in 68ktab (bits 4-0),
        // so we need to extract them first and fill in the clobbered bits.
        WORD opcode = inst & 0x1F;
@@ -3593,78 +3682,49 @@ int m_fscc(WORD inst, WORD siz)
        D_word(inst);
        ea0gen(siz);
        D_word(opcode);
+       if (activefpu == FPU_68060)
+               warn("Instruction is emulated in 68060");
        return OK;
 }
 
 
 //
-// FTRAPcc (6888X, 68040)
-//
-int m_ftrapcc(WORD inst, WORD siz)
-{
-       // We stash the 5 condition bits inside the opcode in 68ktab (bits 3-7),
-       // so we need to extract them first and fill in the clobbered bits.
-       WORD opcode = (inst >> 3) & 0x1F;
-       inst = (inst & 0xFF07) | (0xF << 3);
-
-       if (siz == SIZW)
-       {
-               inst |= 2;
-               D_word(inst);
-               D_word(opcode);
-               D_word(a0exval);
-       }
-       else if (siz == SIZL)
-       {
-               inst |= 3;
-               D_word(inst);
-               D_word(opcode);
-               D_long(a0exval);
-       }
-       else if (siz = SIZN)
-       {
-               inst |= 4;
-               D_word(inst);
-               D_word(opcode);
-               return OK;
-       }
-
-       return OK;
-}
-
-
-//
-// fsgldiv (6888X, 68040)
+// fsgldiv (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fsgldiv(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00100100), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00100100, FPU_FPSP);
 }
 
 
 //
-// fsglmul (6888X, 68040)
+// fsglmul (6888X, 68040, 68060FPSP)
 //
 int m_fsglmul(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00100111), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00100111, FPU_FPSP);
 }
 
 
 //
-// fsin (6888X, 68040FPSP)
+// fsin (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fsin(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00001110), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00001110, FPU_FPSP);
 }
 
 
 //
-// fsincos (6888X, 68040FPSP)
+// fsincos (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fsincos(WORD inst, WORD siz)
 {
+       CHECKNOFPU;
+
        // Swap a1reg, a2reg as a2reg should be stored in the bitfield gen_fpu
        // generates
        int temp;
@@ -3672,7 +3732,7 @@ int m_fsincos(WORD inst, WORD siz)
        a2reg = a1reg;
        a1reg = temp;
 
-       if (gen_fpu(inst, siz, B8(00110000), FPU_FPSP) == OK)
+       if (gen_fpu(inst, siz, 0b00110000, FPU_FPSP) == OK)
        {
                chptr[-1] |= a2reg;
                return OK;
@@ -3683,109 +3743,212 @@ int m_fsincos(WORD inst, WORD siz)
 
 
 //
-// fsin (6888X, 68040FPSP)
+// fsinh (6888X, 68040FPSP, 68060FPSP)
 //
 int m_fsinh(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00000010), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00000010, FPU_FPSP);
 }
 
 
 //
-// fsqrt (6888X, 68040)
+// fsqrt (6888X, 68040, 68060)
 //
 int m_fsqrt(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00000100), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00000100, FPU_NOWARN);
 }
 
 
+//
+// fsfsqrt (68040, 68060)
+//
 int m_fsfsqrt(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01000001), FPU_P_EMUL);
-       else
-               return error("Unsupported in current FPU");
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01000001, FPU_NOWARN);
+
+       return error("Unsupported in current FPU");
 }
 
 
+//
+// fdfsqrt (68040, 68060)
+//
 int m_fdfsqrt(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01000101), FPU_P_EMUL);
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01000101, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
 //
-// fsub (6888X, 68040)
+// fsub (6888X, 68040, 68060)
 //
 int m_fsub(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00101000), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00101000, FPU_NOWARN);
 }
 
 
+//
+// fsfsub (68040, 68060)
+//
 int m_fsfsub(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01101000), FPU_P_EMUL);
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01101000, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
+//
+// fdfsub (68040, 68060)
+//
 int m_fdsub(WORD inst, WORD siz)
 {
-       if (activefpu == FPU_68040)
-               return gen_fpu(inst, siz, B8(01101100), FPU_P_EMUL);
+       if (activefpu & (FPU_68040 | FPU_68060))
+               return gen_fpu(inst, siz, 0b01101100, FPU_NOWARN);
 
        return error("Unsupported in current FPU");
 }
 
 
 //
-// ftan (6888X, 68040FPSP)
+// ftan (6888X, 68040FPSP, 68060FPSP)
 //
 int m_ftan(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00001111), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00001111, FPU_FPSP);
 }
 
 
 //
-// ftanh (6888X, 68040FPSP)
+// ftanh (6888X, 68040FPSP, 68060FPSP)
 //
 int m_ftanh(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00001001), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00001001, FPU_FPSP);
 }
 
 
 //
-// ftentox (6888X, 68040FPSP)
+// ftentox (6888X, 68040FPSP, 68060FPSP)
 //
 int m_ftentox(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00010010), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00010010, FPU_FPSP);
+}
+
+
+//
+// FTRAPcc (6888X, 68040, 68060FPSP)
+//
+int m_ftrapcc(WORD inst, WORD siz)
+{
+       CHECKNOFPU;
+
+       // We stash the 5 condition bits inside the opcode in 68ktab (bits 3-7),
+       // so we need to extract them first and fill in the clobbered bits.
+       WORD opcode = (inst >> 3) & 0x1F;
+       inst = (inst & 0xFF07) | (0xF << 3);
+
+       if (siz == SIZW)
+       {
+               inst |= 2;
+               D_word(inst);
+               D_word(opcode);
+               D_word(a0exval);
+       }
+       else if (siz == SIZL)
+       {
+               inst |= 3;
+               D_word(inst);
+               D_word(opcode);
+               D_long(a0exval);
+       }
+       else if (siz == SIZN)
+       {
+               inst |= 4;
+               D_word(inst);
+               D_word(opcode);
+               return OK;
+       }
+
+       if (activefpu == FPU_68060)
+               warn("Instruction is emulated in 68060");
+
+       return OK;
 }
 
 
 //
-// ftst (6888X, 68040)
+// ftst (6888X, 68040, 68060)
 //
 int m_ftst(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00111010), FPU_P_EMUL);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00111010, FPU_NOWARN);
 }
 
 
 //
-// ftwotox (6888X, 68040FPSP)
+// ftwotox (6888X, 68040FPSP, 68060FPSP)
 //
 int m_ftwotox(WORD inst, WORD siz)
 {
-       return gen_fpu(inst, siz, B8(00010001), FPU_FPSP);
+       CHECKNOFPU;
+       return gen_fpu(inst, siz, 0b00010001, FPU_FPSP);
+}
+
+
+/////////////////////////////////
+//                             //
+// 68060 specific instructions //
+//                             //
+/////////////////////////////////
+
+
+//
+// lpstop (68060)
+//
+int m_lpstop(WORD inst, WORD siz)
+{
+       CHECKNO60;
+       D_word(0b0000000111000000);
+
+       if (a0exattr & DEFINED)
+       {
+               D_word(a0exval);
+       }
+       else
+       {
+               AddFixup(FU_WORD, sloc, a0expr);
+               D_word(0);
+       }
+
+       return OK;
+}
+
+
+//
+// plpa (68060)
+//
+int m_plpa(WORD inst, WORD siz)
+{
+       CHECKNO60;
+       inst |= a0reg;          // Install register
+       D_word(inst);
+
+       return OK;
 }