New simulator.

1 files changed, 1484 insertions, 0 deletions

diff --git a/sim/m68hc11/gencode.c b/sim/m68hc11/gencode.c
new file mode 100644
index 0000000000..a5bff86177
--- /dev/null
+++ b/sim/m68hc11/gencode.c
@@ -0,0 +1,1484 @@
+/* gencode.c -- Motorola 68hc11 Emulator Generator
+   Copyright 1999, 2000 Free Software Foundation, Inc.
+   Written by Stephane Carrez (stcarrez@worldnet.fr)
+
+This file is part of GDB, GAS, and the GNU binutils.
+
+GDB, GAS, and the GNU binutils are free software; you can redistribute
+them and/or modify them under the terms of the GNU General Public
+License as published by the Free Software Foundation; either version
+2, or (at your option) any later version.
+
+GDB, GAS, and the GNU binutils are distributed in the hope that they
+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, write to the Free Software Foundation, Inc.,
+59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.  */
+
+#include <stdio.h>
+#include <string.h>
+#include <stdarg.h>
+#include <errno.h>
+
+#include "ansidecl.h"
+#include "opcode/m68hc11.h"
+
+#define TABLE_SIZE(X)	    (sizeof(X) / sizeof(X[0]))
+
+/* Combination of CCR flags.  */
+#define M6811_ZC_BIT	M6811_Z_BIT|M6811_C_BIT
+#define M6811_NZ_BIT	M6811_N_BIT|M6811_Z_BIT
+#define M6811_NZV_BIT	M6811_N_BIT|M6811_Z_BIT|M6811_V_BIT
+#define M6811_NVC_BIT	M6811_N_BIT|M6811_V_BIT|M6811_C_BIT
+#define M6811_ZVC_BIT	M6811_Z_BIT|M6811_V_BIT|M6811_C_BIT
+#define M6811_NZVC_BIT	M6811_ZVC_BIT|M6811_N_BIT
+#define M6811_HNZVC_BIT M6811_NZVC_BIT|M6811_H_BIT
+
+/* Flags when the insn only changes some CCR flags.  */
+#define CHG_NONE	0,0,0
+#define CHG_Z		0,0,M6811_Z_BIT
+#define CHG_C		0,0,M6811_C_BIT
+#define CHG_ZVC		0,0,M6811_ZVC_BIT
+#define CHG_NZV		0,0,M6811_NZV_BIT
+#define CHG_NZVC	0,0,M6811_NZVC_BIT
+#define CHG_HNZVC	0,0,M6811_HNZVC_BIT
+#define CHG_ALL		0,0,0xff
+
+/* The insn clears and changes some flags.  */
+#define CLR_I		0,M6811_I_BIT,0
+#define CLR_C		0,M6811_C_BIT,0
+#define CLR_V		0,M6811_V_BIT,0
+#define CLR_V_CHG_ZC	0,M6811_V_BIT,M6811_ZC_BIT
+#define CLR_V_CHG_NZ	0,M6811_V_BIT,M6811_NZ_BIT
+#define CLR_V_CHG_ZVC	0,M6811_V_BIT,M6811_ZVC_BIT
+#define CLR_N_CHG_ZVC	0,M6811_N_BIT,M6811_ZVC_BIT /* Used by lsr */
+
+/* The insn sets some flags.  */
+#define SET_I		M6811_I_BIT,0,0
+#define SET_C		M6811_C_BIT,0,0
+#define SET_V		M6811_V_BIT,0,0
+#define SET_Z_CLR_NVC	M6811_Z_BIT,M6811_NVC_BIT,0
+#define SET_C_CLR_V_CHG_NZ M6811_C_BIT,M6811_V_BIT,M6811_NZ_BIT
+
+#define _M 0xff
+
+
+struct m6811_opcode_pattern 
+{
+  const char *name;
+  const char *pattern;
+  const char *ccr_update;
+};
+
+/*
+ *  { "test", M6811_OP_NONE, 1, 0x00, 5, _M,  CHG_NONE },
+ * Name -+					 +---- Insn CCR changes
+ * Format  ------+			   +---------- Max # cycles
+ * Size	    -----------------+	      +--------------- Min # cycles
+ *				 +-------------------- Opcode
+ */
+struct m6811_opcode_pattern m6811_opcode_patterns[] = {
+  /* Move 8 and 16 bits.  We need two implementations: one that sets the
+     flags and one that preserve them.	*/
+  { "movtst8",	"dst8 = src8",	 "cpu_ccr_update_tst8 (proc, dst8)" },
+  { "movtst16", "dst16 = src16", "cpu_ccr_update_tst16 (proc, dst16)" },
+  { "mov8",	"dst8 = src8" },
+  { "mov16",	"dst16 = src16" },
+
+  /* Conditional branches.  'addr' is the address of the branch.  */
+  { "bra", "cpu_set_pc (proc, addr)" },
+  { "bhi",
+   "if ((cpu_get_ccr (proc) & (M6811_C_BIT|M6811_Z_BIT)) == 0)\n@ \
+     cpu_set_pc (proc, addr)" },
+  { "bls",
+    "if ((cpu_get_ccr (proc) & (M6811_C_BIT|M6811_Z_BIT)))\n@ \
+     cpu_set_pc (proc, addr)" },
+  { "bcc", "if (!cpu_get_ccr_C (proc))\n@ cpu_set_pc (proc, addr)" },
+  { "bcs", "if (cpu_get_ccr_C (proc))\n@ cpu_set_pc (proc, addr)" },
+  { "bne", "if (!cpu_get_ccr_Z (proc))\n@ cpu_set_pc (proc, addr)" },
+  { "beq", "if (cpu_get_ccr_Z (proc))\n@ cpu_set_pc (proc, addr)" },
+  { "bvc", "if (!cpu_get_ccr_V (proc))\n@ cpu_set_pc (proc, addr)" },
+  { "bvs", "if (cpu_get_ccr_V (proc))\n@ cpu_set_pc (proc, addr)" },
+  { "bpl", "if (!cpu_get_ccr_N (proc))\n@ cpu_set_pc (proc, addr)" },
+  { "bmi", "if (cpu_get_ccr_N (proc))\n@ cpu_set_pc (proc, addr)" },
+  { "bge", "if ((cpu_get_ccr_N (proc) ^ cpu_get_ccr_V (proc)) == 0)\n@ cpu_set_pc (proc, addr)" },
+  { "blt", "if ((cpu_get_ccr_N (proc) ^ cpu_get_ccr_V (proc)))\n@ cpu_set_pc (proc, addr)" },
+  { "bgt",
+    "if ((cpu_get_ccr_Z (proc) | (cpu_get_ccr_N (proc) ^ cpu_get_ccr_V (proc))) == 0)\n@ \
+     cpu_set_pc (proc, addr)" },
+  { "ble",
+    "if ((cpu_get_ccr_Z (proc) | (cpu_get_ccr_N (proc) ^ cpu_get_ccr_V (proc))))\n@ \
+     cpu_set_pc (proc, addr)" },
+
+  /* brclr and brset perform a test and a conditional jump at the same
+     time.  Flags are not changed.  */
+  { "brclr8",
+    "if ((src8 & dst8) == 0)\n@	 cpu_set_pc (proc, addr)" },
+  { "brset8",
+    "if (((~src8) & dst8) == 0)\n@  cpu_set_pc (proc, addr)" },
+  
+
+  { "rts",  "addr = cpu_pop_uint16 (proc); cpu_set_pc (proc, addr); cpu_return(proc)" },
+
+  { "mul16", "dst16 = ((uint16) src8 & 0x0FF) * ((uint16) dst8 & 0x0FF)",
+    "cpu_set_ccr_C (proc, src8 & 0x80)" },
+  { "neg8", "dst8 = - src8",
+    "cpu_set_ccr_C (proc, src8 == 0); cpu_ccr_update_tst8 (proc, dst8)" },
+  { "com8", "dst8 = ~src8",
+    "cpu_set_ccr_C (proc, 1); cpu_ccr_update_tst8 (proc, dst8);" },
+  { "clr8", "dst8 = 0",
+    "cpu_set_ccr (proc, (cpu_get_ccr (proc) & (M6811_S_BIT|M6811_X_BIT|M6811_H_BIT| \
+M6811_I_BIT)) | M6811_Z_BIT)"},
+  { "clr16","dst16 = 0",
+    "cpu_set_ccr (proc, (cpu_get_ccr (proc) & (M6811_S_BIT|M6811_X_BIT|M6811_H_BIT| \
+M6811_I_BIR)) | M6811_Z_BIT)"},
+
+  /* 8-bits shift and rotation.	 */
+  { "lsr8",  "dst8 = src8 >> 1",
+    "cpu_set_ccr_C (proc, src8 & 1); cpu_ccr_update_shift8 (proc, dst8)" },
+  { "lsl8",  "dst8 = src8 << 1",
+    "cpu_set_ccr_C (proc, (src8 & 0x80) >> 7); cpu_ccr_update_shift8 (proc, dst8)" },
+  { "asr8",  "dst8 = (src8 >> 1) | (src8 & 0x80)",
+    "cpu_set_ccr_C (proc, src8 & 1); cpu_ccr_update_shift8 (proc, dst8)" },
+  { "ror8",  "dst8 = (src8 >> 1) | (cpu_get_ccr_C (proc) << 7)",
+    "cpu_set_ccr_C (proc, src8 & 1); cpu_ccr_update_shift8 (proc, dst8)" },
+  { "rol8",  "dst8 = (src8 << 1) | (cpu_get_ccr_C (proc))",
+    "cpu_set_ccr_C (proc, (src8 & 0x80) >> 7); cpu_ccr_update_shift8 (proc, dst8)" },
+
+  /* 16-bits shift instructions.  */
+  { "lsl16",  "dst16 = src16 << 1",
+    "cpu_set_ccr_C (proc, (src16&0x8000) >> 15); cpu_ccr_update_shift16 (proc, dst16)"},
+  { "lsr16",  "dst16 = src16 >> 1",
+    "cpu_set_ccr_C (proc, src16 & 1); cpu_ccr_update_shift16 (proc, dst16)"},
+
+  { "dec8", "dst8 = src8 - 1", "cpu_ccr_update_tst8 (proc, dst8)" },
+  { "inc8", "dst8 = src8 + 1", "cpu_ccr_update_tst8 (proc, dst8)" },
+  { "tst8", 0, "cpu_set_ccr_C (proc, 0); cpu_ccr_update_tst8 (proc, src8)" },
+
+  { "sub8", "cpu_ccr_update_sub8 (proc, dst8 - src8, dst8, src8);\
+dst8 = dst8 - src8", 0 },
+  { "add8", "cpu_ccr_update_add8 (proc, dst8 + src8, dst8, src8);\
+dst8 = dst8 + src8", 0 },
+  { "sbc8", "if (cpu_get_ccr_C (proc))\n@ \
+{\n\
+  cpu_ccr_update_sub8 (proc, dst8 - src8 - 1, dst8, src8);\n\
+  dst8 = dst8 - src8 - 1;\n\
+}\n\
+else\n\
+{\n\
+  cpu_ccr_update_sub8 (proc, dst8 - src8, dst8, src8);\n\
+  dst8 = dst8 - src8;\n\
+}", 0 },
+  { "adc8", "if (cpu_get_ccr_C (proc))\n@ \
+{\n\
+  cpu_ccr_update_add8 (proc, dst8 + src8 + 1, dst8, src8);\n\
+  dst8 = dst8 + src8 + 1;\n\
+}\n\
+else\n\
+{\n\
+  cpu_ccr_update_add8 (proc, dst8 + src8, dst8, src8);\n\
+  dst8 = dst8 + src8;\n\
+}",
+    0 },
+
+  /* 8-bits logical operations.	 */
+  { "and8", "dst8 = dst8 & src8", "cpu_ccr_update_tst8 (proc, dst8)" },
+  { "eor8", "dst8 = dst8 ^ src8", "cpu_ccr_update_tst8 (proc, dst8)" },
+  { "or8",  "dst8 = dst8 | src8", "cpu_ccr_update_tst8 (proc, dst8)" },
+  { "bclr8","dst8 = (~dst8) & src8", "cpu_ccr_update_tst8 (proc, dst8)" },
+
+  /* 16-bits add and subtract instructions.  */
+  { "sub16", "cpu_ccr_update_sub16 (proc, dst16 - src16, dst16, src16);\
+dst16 = dst16 - src16", 0 },
+  { "add16", "cpu_ccr_update_add16 (proc, dst16 + src16, dst16, src16);\
+dst16 = dst16 + src16", 0 },
+  { "inc16", "dst16 = src16 + 1", "cpu_set_ccr_Z (proc, dst16 == 0)" },
+  { "dec16", "dst16 = src16 - 1", "cpu_set_ccr_Z (proc, dst16 == 0)" },
+
+  /* Special increment/decrement for the stack pointer:
+     flags are not changed.  */
+  { "ins16", "dst16 = src16 + 1" },
+  { "des16", "dst16 = src16 - 1" },
+  
+  { "jsr16", "cpu_push_uint16 (proc, cpu_get_pc (proc)); cpu_call (proc, addr)"},
+
+  /* xgdx and xgdx patterns. Flags are not changed.  */
+  { "xgdxy16", "dst16 = cpu_get_d (proc); cpu_set_d (proc, src16)"},
+  { "stop", ""},
+
+  /* tsx, tsy, txs, tys don't affect the flags.	 Sp value is corrected
+     by +/- 1.	*/
+  { "tsxy16", "dst16 = src16 + 1;"},
+  { "txys16", "dst16 = src16 - 1;"},
+
+  /* Add b to X or Y with an unsigned extension 8->16.	Flags not changed.  */
+  { "abxy16","dst16 = dst16 + (uint16) src8"},
+
+  /* After 'daa', the Z flag is undefined. Mark it as changed.	*/
+  { "daa8",  "" },
+  { "nop",  0 },
+
+
+  /* Integer divide:
+     (parallel (set IX (div D IX))
+	       (set D  (mod D IX)))  */
+  { "idiv16", "if (src16 == 0)\n{\n\
+dst16 = 0xffff;\
+}\nelse\n{\n\
+cpu_set_d (proc, dst16 % src16);\
+dst16 = dst16 / src16;\
+}",
+  "cpu_set_ccr_Z (proc, dst16 == 0); cpu_set_ccr_V (proc, 0);\
+cpu_set_ccr_C (proc, src16 == 0)" },
+
+  /* Fractional divide:
+     (parallel (set IX (div (mul D 65536) IX)
+	       (set D  (mod (mul D 65536) IX))))  */
+  { "fdiv16", "if (src16 <= dst16 )\n{\n\
+dst16 = 0xffff;\n\
+cpu_set_ccr_Z (proc, 0);\n\
+cpu_set_ccr_V (proc, 1);\n\
+cpu_set_ccr_C (proc, dst16 == 0);\n\
+}\nelse\n{\n\
+unsigned long l = (unsigned long) (dst16) << 16;\n\
+cpu_set_d (proc, (uint16) (l % (unsigned long) (src16)));\n\
+dst16 = (uint16) (l / (unsigned long) (src16));\n\
+cpu_set_ccr_V (proc, 0);\n\
+cpu_set_ccr_C (proc, 0);\n\
+cpu_set_ccr_Z (proc, dst16 == 0);\n\
+}", 0 },
+
+  /* Operations to get/set the CCR.  */
+  { "clv",  0, "cpu_set_ccr_V (proc, 0)" },
+  { "sev",  0, "cpu_set_ccr_V (proc, 1)" },
+  { "clc",  0, "cpu_set_ccr_C (proc, 0)" },
+  { "sec",  0, "cpu_set_ccr_C (proc, 1)" },
+  { "cli",  0, "cpu_set_ccr_I (proc, 0)" },
+  { "sei",  0, "cpu_set_ccr_I (proc, 1)" },
+
+  /* Some special instructions are implemented by 'cpu_special'.  */
+  { "rti",  "cpu_special (proc, M6811_RTI)" },
+  { "wai",  "cpu_special (proc, M6811_WAI)" },
+  { "test", "cpu_special (proc, M6811_TEST)" },
+  { "swi",  "cpu_special (proc, M6811_SWI)" },
+  { "syscall","cpu_special (proc, M6811_EMUL_SYSCALL)" },
+
+  { "page2", "cpu_page2_interp (proc)", 0 },
+  { "page3", "cpu_page3_interp (proc)", 0 },
+  { "page4", "cpu_page4_interp (proc)", 0 }
+};
+
+/* Definition of an opcode of the 68HC11.  */
+struct m6811_opcode_def
+{
+  const char	 *name;
+  const char	 *operands;
+  const char	 *insn_pattern;
+  unsigned char	 insn_size;
+  unsigned char	 insn_code;
+  unsigned char	 insn_min_cycles;
+  unsigned char	 insn_max_cycles;
+  unsigned char	 set_flags_mask;
+  unsigned char	 clr_flags_mask;
+  unsigned char	 chg_flags_mask;
+};
+
+
+/*
+ *  { "dex", "x->x", "dec16", 1, 0x00, 5, _M,  CHG_NONE },
+ * Name -+					 +----- Insn CCR changes
+ * Operands  ---+			  +------------ Max # cycles
+ * Pattern   -----------+	       +--------------- Min # cycles
+ * Size	     -----------------+	  +-------------------- Opcode
+ *
+ * Operands   Fetch operand		Save result
+ * -------    --------------		------------
+ * x->x	      src16 = x			x = dst16
+ * d->d	      src16 = d			d = dst16
+ * b,a->a     src8 = b dst8 = a		a = dst8
+ * sp->x      src16 = sp		x = dst16
+ * (sp)->a    src8 = pop8		a = dst8
+ * a->(sp)    src8 = a			push8 dst8
+ * (x)->(x)   src8 = (IND, X)		(IND, X) = dst8
+ * (y)->a     src8 = (IND, Y)		a = dst8
+ * ()->b      src8 = (EXT)		b = dst8
+ */
+const struct m6811_opcode_def m6811_page1_opcodes[] = {
+  { "test", 0,		0,	     1, 0x00,  5, _M,  CHG_NONE },
+  { "nop",  0,		0,	     1, 0x01,  2,  2,  CHG_NONE },
+  { "idiv", "x,d->x",	"idiv16",    1, 0x02,  3, 41,  CLR_V_CHG_ZC},
+  { "fdiv", "x,d->x",	"fdiv16",    1, 0x03,  3, 41,  CHG_ZVC},
+  { "lsrd", "d->d",	"lsr16",     1, 0x04,  3,  3,  CLR_N_CHG_ZVC },
+  { "asld", "d->d",	"lsl16",     1, 0x05,  3,  3,  CHG_NZVC },
+  { "lsld", "d->d",	"lsl16",     1, 0x05,  3,  3,  CHG_NZVC },
+  { "tap",  "a->ccr",	"mov8",	     1, 0x06,  2,  2,  CHG_ALL},
+  { "tpa",  "ccr->a",	"mov8",	     1, 0x07,  2,  2,  CHG_NONE },
+  { "inx",  "x->x",	"inc16",     1, 0x08,  3,  3,  CHG_Z },
+  { "dex",  "x->x",	"dec16",     1, 0x09,  3,  3,  CHG_Z },
+  { "clv",  0,		0,	     1, 0x0a,  2,  2,  CLR_V },
+  { "sev",  0,		0,	     1, 0x0b,  2,  2,  SET_V },
+  { "clc",  0,		0,	     1, 0x0c,  2,  2,  CLR_C },
+  { "sec",  0,		0,	     1, 0x0d,  2,  2,  SET_C },
+  { "cli",  0,		0,	     1, 0x0e,  2,  2,  CLR_I },
+  { "sei",  0,		0,	     1, 0x0f,  2,  2,  SET_I },
+  { "sba",  "b,a->a",	"sub8",	     1, 0x10,  2,  2,  CHG_NZVC },
+  { "cba",  "b,a",	"sub8",	     1, 0x11,  2,  2,  CHG_NZVC },
+  { "brset","*,#,r",	"brset8",    4, 0x12,  6,  6, CHG_NONE },
+  { "brclr","*,#,r",	"brclr8",    4, 0x13,  6,  6, CHG_NONE },
+  { "bset", "*,#->*",	"or8",	     3, 0x14,  6,  6, CLR_V_CHG_NZ },
+  { "bclr", "*,#->*",	"bclr8",     3, 0x15,  6,  6, CLR_V_CHG_NZ },
+  { "tab",  "a->b",	"movtst8",   1, 0x16,  2,  2, CLR_V_CHG_NZ },
+  { "tba",  "b->a",	"movtst8",   1, 0x17,  2,  2, CLR_V_CHG_NZ },
+  { "page2", 0,		"page2",     1, 0x18,  0,  0, CHG_NONE },
+  { "page3", 0,		"page3",     1, 0x1a,  0,  0, CHG_NONE },
+
+  /* After 'daa', the Z flag is undefined.  Mark it as changed.	 */
+  { "daa",  "a->a",	"daa8",	     1, 0x19,  2,  2, CHG_NZVC },
+  { "aba",  "b,a->a",	"add8",	     1, 0x1b,  2,  2, CHG_HNZVC},
+  { "bset", "(x),#->(x)","or8",	     3, 0x1c,  7,  7, CLR_V_CHG_NZ },
+  { "bclr", "(x),#->(x)","bclr8",    3, 0x1d,  7,  7, CLR_V_CHG_NZ },
+  { "brset","(x),#,r",	"brset8",    4, 0x1e,  7,  7, CHG_NONE },
+  { "brclr","(x),#,r",	"brclr8",    4, 0x1f,  7,  7, CHG_NONE },
+
+  /* Relative branch.  All of them take 3 bytes.  Flags not changed.  */
+  { "bra",  "r",	0,	     2, 0x20,  3,  3, CHG_NONE },
+  { "brn",  "r",	"nop",	     2, 0x21,  3,  3, CHG_NONE },
+  { "bhi",  "r",	0,	     2, 0x22,  3,  3, CHG_NONE },
+  { "bls",  "r",	0,	     2, 0x23,  3,  3, CHG_NONE },
+  { "bcc",  "r",	0,	     2, 0x24,  3,  3, CHG_NONE },
+  { "bhs",  "r",	0,	     2, 0x24,  3,  3, CHG_NONE },
+  { "bcs",  "r",	0,	     2, 0x25,  3,  3, CHG_NONE },
+  { "blo",  "r",	0,	     2, 0x25,  3,  3, CHG_NONE },
+  { "bne",  "r",	0,	     2, 0x26,  3,  3, CHG_NONE },
+  { "beq",  "r",	0,	     2, 0x27,  3,  3, CHG_NONE },
+  { "bvc",  "r",	0,	     2, 0x28,  3,  3, CHG_NONE },
+  { "bvs",  "r",	0,	     2, 0x29,  3,  3, CHG_NONE },
+  { "bpl",  "r",	0,	     2, 0x2a,  3,  3, CHG_NONE },
+  { "bmi",  "r",	0,	     2, 0x2b,  3,  3, CHG_NONE },
+  { "bge",  "r",	0,	     2, 0x2c,  3,  3, CHG_NONE },
+  { "blt",  "r",	0,	     2, 0x2d,  3,  3, CHG_NONE },
+  { "bgt",  "r",	0,	     2, 0x2e,  3,  3, CHG_NONE },
+  { "ble",  "r",	0,	     2, 0x2f,  3,  3, CHG_NONE },
+
+  { "tsx",  "sp->x",	"tsxy16",    1, 0x30,  3,  3, CHG_NONE },
+  { "ins",  "sp->sp",	"ins16",     1, 0x31,  3,  3, CHG_NONE },
+  { "pula", "(sp)->a",	"mov8",	     1, 0x32,  4,  4, CHG_NONE },
+  { "pulb", "(sp)->b",	"mov8",	     1, 0x33,  4,  4, CHG_NONE },
+  { "des",  "sp->sp",	"des16",     1, 0x34,  3,  3, CHG_NONE },
+  { "txs",  "x->sp",	"txys16",    1, 0x35,  3,  3, CHG_NONE },
+  { "psha", "a->(sp)",	"mov8",	     1, 0x36,  3,  3, CHG_NONE },
+  { "pshb", "b->(sp)",	"mov8",	     1, 0x37,  3,  3, CHG_NONE },
+  { "pulx", "(sp)->x",	"mov16",     1, 0x38,  5,  5, CHG_NONE },
+  { "rts",  0,		0,	     1, 0x39,  5,  5, CHG_NONE },
+  { "abx",  "b,x->x",	"abxy16",    1, 0x3a,  3,  3, CHG_NONE },
+  { "rti",  0,		0,	     1, 0x3b, 12, 12, CHG_ALL},
+  { "pshx", "x->(sp)",	"mov16",     1, 0x3c,  4,  4, CHG_NONE },
+  { "mul",  "b,a->d",	"mul16",     1, 0x3d,  3, 10, CHG_C },
+  { "wai",  0,		0,	     1, 0x3e, 14, _M, CHG_NONE },
+  { "swi",  0,		0,	     1, 0x3f, 14, _M, CHG_NONE },
+  { "nega", "a->a",	"neg8",	     1, 0x40,  2,  2, CHG_NZVC },
+  { "syscall", "",	"syscall",   1, 0x41,  2,  2, CHG_NONE },
+  { "coma", "a->a",	"com8",	     1, 0x43,  2,  2, SET_C_CLR_V_CHG_NZ },
+  { "lsra", "a->a",	"lsr8",	     1, 0x44,  2,  2, CLR_N_CHG_ZVC},
+  { "rora", "a->a",	"ror8",	     1, 0x46,  2,  2, CHG_NZVC },
+  { "asra", "a->a",	"asr8",	     1, 0x47,  2,  2, CHG_NZVC },
+  { "asla", "a->a",	"lsl8",	     1, 0x48,  2,  2, CHG_NZVC },
+  { "lsla", "a->a",	"lsl8",	     1, 0x48,  2,  2, CHG_NZVC },
+  { "rola", "a->a",	"rol8",	     1, 0x49,  2,  2, CHG_NZVC },
+  { "deca", "a->a",	"dec8",	     1, 0x4a,  2,  2, CHG_NZV },
+  { "inca", "a->a",	"inc8",	     1, 0x4c,  2,  2, CHG_NZV },
+  { "tsta", "a",	"tst8",	     1, 0x4d,  2,  2, CLR_V_CHG_NZ },
+  { "clra", "->a",	"clr8",	     1, 0x4f,  2,  2, SET_Z_CLR_NVC },
+  { "negb", "b->b",	"neg8",	     1, 0x50,  2,  2, CHG_NZVC },
+  { "comb", "b->b",	"com8",	     1, 0x53,  2,  2, SET_C_CLR_V_CHG_NZ },
+  { "lsrb", "b->b",	"lsr8",	     1, 0x54,  2,  2, CLR_N_CHG_ZVC },
+  { "rorb", "b->b",	"ror8",	     1, 0x56,  2,  2, CHG_NZVC },
+  { "asrb", "b->b",	"asr8",	     1, 0x57,  2,  2, CHG_NZVC },
+  { "aslb", "b->b",	"lsl8",	     1, 0x58,  2,  2, CHG_NZVC },
+  { "lslb", "b->b",	"lsl8",	     1, 0x58,  2,  2, CHG_NZVC },
+  { "rolb", "b->b",	"rol8",	     1, 0x59,  2,  2, CHG_NZVC },
+  { "decb", "b->b",	"dec8",	     1, 0x5a,  2,  2, CHG_NZV },
+  { "incb", "b->b",	"inc8",	     1, 0x5c,  2,  2, CHG_NZV },
+  { "tstb", "b",	"tst8",	     1, 0x5d,  2,  2, CLR_V_CHG_NZ },
+  { "clrb", "->b",	"clr8",	     1, 0x5f,  2,  2, SET_Z_CLR_NVC },
+  { "neg",  "(x)->(x)", "neg8",	     2, 0x60,  6,  6, CHG_NZVC },
+  { "com",  "(x)->(x)", "com8",	     2, 0x63,  6,  6, SET_C_CLR_V_CHG_NZ },
+  { "lsr",  "(x)->(x)", "lsr8",	     2, 0x64,  6,  6, CLR_N_CHG_ZVC },
+  { "ror",  "(x)->(x)", "ror8",	     2, 0x66,  6,  6, CHG_NZVC },
+  { "asr",  "(x)->(x)", "asr8",	     2, 0x67,  6,  6, CHG_NZVC },
+  { "asl",  "(x)->(x)", "lsl8",	     2, 0x68,  6,  6, CHG_NZVC },
+  { "lsl",  "(x)->(x)", "lsl8",	     2, 0x68,  6,  6, CHG_NZVC },
+  { "rol",  "(x)->(x)", "rol8",	     2, 0x69,  6,  6, CHG_NZVC },
+  { "dec",  "(x)->(x)", "dec8",	     2, 0x6a,  6,  6, CHG_NZV },
+  { "inc",  "(x)->(x)", "inc8",	     2, 0x6c,  6,  6, CHG_NZV },
+  { "tst",  "(x)",	"tst8",	     2, 0x6d,  6,  6, CLR_V_CHG_NZ },
+  { "jmp",  "&(x)",	"bra",	     2, 0x6e,  3,  3, CHG_NONE },
+  { "clr",  "->(x)",	"clr8",	     2, 0x6f,  6,  6, SET_Z_CLR_NVC },
+  { "neg",  "()->()",	"neg8",	     3, 0x70,  6,  6, CHG_NZVC },
+  { "com",  "()->()",	"com8",	     3, 0x73,  6,  6, SET_C_CLR_V_CHG_NZ },
+  { "lsr",  "()->()",	"lsr8",	     3, 0x74,  6,  6, CLR_V_CHG_ZVC },
+  { "ror",  "()->()",	"ror8",	     3, 0x76,  6,  6, CHG_NZVC },
+  { "asr",  "()->()",	"asr8",	     3, 0x77,  6,  6, CHG_NZVC },
+  { "asl",  "()->()",	"lsl8",	     3, 0x78,  6,  6, CHG_NZVC },
+  { "lsl",  "()->()",	"lsl8",	     3, 0x78,  6,  6, CHG_NZVC },
+  { "rol",  "()->()",	"rol8",	     3, 0x79,  6,  6, CHG_NZVC },
+  { "dec",  "()->()",	"dec8",	     3, 0x7a,  6,  6, CHG_NZV },
+  { "inc",  "()->()",	"inc8",	     3, 0x7c,  6,  6, CHG_NZV },
+  { "tst",  "()",	"tst8",	     3, 0x7d,  6,  6, CLR_V_CHG_NZ },
+  { "jmp",  "&()",	"bra",	     3, 0x7e,  3,  3, CHG_NONE },
+  { "clr",  "->()",	"clr8",	     3, 0x7f,  6,  6, SET_Z_CLR_NVC },
+  { "suba", "#,a->a",	"sub8",	     2, 0x80,  2,  2, CHG_NZVC },
+  { "cmpa", "#,a",	"sub8",	     2, 0x81,  2,  2, CHG_NZVC },
+  { "sbca", "#,a->a",	"sbc8",	     2, 0x82,  2,  2, CHG_NZVC },
+  { "subd", "#,d->d",	"sub16",     3, 0x83,  4,  4, CHG_NZVC },
+  { "anda", "#,a->a",	"and8",	     2, 0x84,  2,  2, CLR_V_CHG_NZ },
+  { "bita", "#,a",	"and8",	     2, 0x85,  2,  2, CLR_V_CHG_NZ },
+  { "ldaa", "#->a",	"movtst8",   2, 0x86,  2,  2, CLR_V_CHG_NZ },
+  { "eora", "#,a->a",	"eor8",	     2, 0x88,  2,  2, CLR_V_CHG_NZ },
+  { "adca", "#,a->a",	"adc8",	     2, 0x89,  2,  2, CHG_HNZVC },
+  { "oraa", "#,a->a",	"or8",	     2, 0x8a,  2,  2, CLR_V_CHG_NZ },
+  { "adda", "#,a->a",	"add8",	     2, 0x8b,  2,  2, CHG_HNZVC },
+  { "cmpx", "#,x",	"sub16",     3, 0x8c,  4,  4, CHG_NZVC },
+  { "cpx",  "#,x",	"sub16",     3, 0x8c,  4,  4, CHG_NZVC },
+  { "bsr",  "r",	"jsr16",     2, 0x8d,  6,  6, CHG_NONE },
+  { "lds",  "#->sp",	"movtst16",  3, 0x8e,  3,  3, CLR_V_CHG_NZ },
+  { "xgdx", "x->x",	"xgdxy16",   1, 0x8f,  3,  3, CHG_NONE },
+  { "suba", "*,a->a",	"sub8",	     2, 0x90,  3,  3, CHG_NZVC },
+  { "cmpa", "*,a",	"sub8",	     2, 0x91,  3,  3, CHG_NZVC },
+  { "sbca", "*,a->a",	"sbc8",	     2, 0x92,  3,  3, CHG_NZVC },
+  { "subd", "*,d->d",	"sub16",     2, 0x93,  5,  5, CHG_NZVC },
+  { "anda", "*,a->a",	"and8",	     2, 0x94,  3,  3, CLR_V_CHG_NZ },
+  { "bita", "*,a",	"and8",	     2, 0x95,  3,  3, CLR_V_CHG_NZ },
+  { "ldaa", "*->a",	"movtst8",   2, 0x96,  3,  3, CLR_V_CHG_NZ },
+  { "staa", "a->*",	"movtst8",   2, 0x97,  3,  3, CLR_V_CHG_NZ },
+  { "eora", "*,a->a",	"eor8",	     2, 0x98,  3,  3, CLR_V_CHG_NZ },
+  { "adca", "*,a->a",	"adc8",	     2, 0x99,  3,  3, CHG_HNZVC },
+  { "oraa", "*,a->a",	"or8",	     2, 0x9a,  3,  3, CLR_V_CHG_NZ },
+  { "adda", "*,a->a",	"add8",	     2, 0x9b,  3,  3, CHG_HNZVC },
+  { "cmpx", "*,x",	"sub16",     2, 0x9c,  5,  5, CHG_NZVC },
+  { "cpx",  "*,x",	"sub16",     2, 0x9c,  5,  5, CHG_NZVC },
+  { "jsr",  "*",	"jsr16",     2, 0x9d,  5,  5, CHG_NONE },
+  { "lds",  "*->sp",	"movtst16",  2, 0x9e,  4,  4, CLR_V_CHG_NZ },
+  { "sts",  "sp->*",	"movtst16",  2, 0x9f,  4,  4, CLR_V_CHG_NZ },
+  { "suba", "(x),a->a", "sub8",	     2, 0xa0,  4,  4, CHG_NZVC },
+  { "cmpa", "(x),a",	"sub8",	     2, 0xa1,  4,  4, CHG_NZVC },
+  { "sbca", "(x),a->a", "sbc8",	     2, 0xa2,  4,  4, CHG_NZVC },
+  { "subd", "(x),d->d", "sub16",     2, 0xa3,  6,  6, CHG_NZVC },
+  { "anda", "(x),a->a", "and8",	     2, 0xa4,  4,  4, CLR_V_CHG_NZ },
+  { "bita", "(x),a",	"and8",	     2, 0xa5,  4,  4, CLR_V_CHG_NZ },
+  { "ldaa", "(x)->a",	"movtst8",   2, 0xa6,  4,  4, CLR_V_CHG_NZ },
+  { "staa", "a->(x)",	"movtst8",   2, 0xa7,  4,  4, CLR_V_CHG_NZ },
+  { "eora", "(x),a->a", "eor8",	     2, 0xa8,  4,  4, CLR_V_CHG_NZ },
+  { "adca", "(x),a->a", "adc8",	     2, 0xa9,  4,  4, CHG_HNZVC },
+  { "oraa", "(x),a->a", "or8",	     2, 0xaa,  4,  4, CLR_V_CHG_NZ },
+  { "adda", "(x),a->a", "add8",	     2, 0xab,  4,  4, CHG_HNZVC },
+  { "cmpx", "(x),x",	"sub16",     2, 0xac,  6,  6, CHG_NZVC },
+  { "cpx",  "(x),x",	"sub16",     2, 0xac,  6,  6, CHG_NZVC },
+  { "jsr",  "&(x)",	"jsr16",     2, 0xad,  6,  6, CHG_NONE },
+  { "lds",  "(x)->sp",	"movtst16",  2, 0xae,  5,  5, CLR_V_CHG_NZ },
+  { "sts",  "sp->(x)",	"movtst16",  2, 0xaf,  5,  5, CLR_V_CHG_NZ },
+  { "suba", "(),a->a",	"sub8",	     3, 0xb0,  4,  4, CHG_NZVC },
+  { "cmpa", "(),a",	"sub8",	     3, 0xb1,  4,  4, CHG_NZVC },
+  { "sbca", "(),a->a",	"sbc8",	     3, 0xb2,  4,  4, CHG_NZVC },
+  { "subd", "(),d->d",	"sub16",     3, 0xb3,  6,  6, CHG_NZVC },
+  { "anda", "(),a->a",	"and8",	     3, 0xb4,  4,  4, CLR_V_CHG_NZ },
+  { "bita", "(),a",	"and8",	     3, 0xb5,  4,  4, CLR_V_CHG_NZ },
+  { "ldaa", "()->a",	"movtst8",   3, 0xb6,  4,  4, CLR_V_CHG_NZ },
+  { "staa", "a->()",	"movtst8",   3, 0xb7,  4,  4, CLR_V_CHG_NZ },
+  { "eora", "(),a->a",	"eor8",	     3, 0xb8,  4,  4, CLR_V_CHG_NZ },
+  { "adca", "(),a->a",	"adc8",	     3, 0xb9,  4,  4, CHG_HNZVC },
+  { "oraa", "(),a->a",	"or8",	     3, 0xba,  4,  4, CLR_V_CHG_NZ },
+  { "adda", "(),a->a",	"add8",	     3, 0xbb,  4,  4, CHG_HNZVC },
+  { "cmpx", "(),x",	"sub16",     3, 0xbc,  5,  5, CHG_NZVC },
+  { "cpx",  "(),x",	"sub16",     3, 0xbc,  5,  5, CHG_NZVC },
+  { "jsr",  "&()",	"jsr16",     3, 0xbd,  6,  6, CHG_NONE },
+  { "lds",  "()->sp",	"movtst16",  3, 0xbe,  5,  5, CLR_V_CHG_NZ },
+  { "sts",  "sp->()",	"movtst16",  3, 0xbf,  5,  5, CLR_V_CHG_NZ },
+  { "subb", "#,b->b",	"sub8",	     2, 0xc0,  2,  2, CHG_NZVC },
+  { "cmpb", "#,b",	"sub8",	     2, 0xc1,  2,  2, CHG_NZVC },
+  { "sbcb", "#,b->b",	"sbc8",	     2, 0xc2,  2,  2, CHG_NZVC },
+  { "addd", "#,d->d",	"add16",     3, 0xc3,  4,  4, CHG_NZVC },
+  { "andb", "#,b->b",	"and8",	     2, 0xc4,  2,  2, CLR_V_CHG_NZ },
+  { "bitb", "#,b",	"and8",	     2, 0xc5,  2,  2, CLR_V_CHG_NZ },
+  { "ldab", "#->b",	"movtst8",   2, 0xc6,  2,  2, CLR_V_CHG_NZ },
+  { "eorb", "#,b->b",	"eor8",	     2, 0xc8,  2,  2, CLR_V_CHG_NZ },
+  { "adcb", "#,b->b",	"adc8",	     2, 0xc9,  2,  2, CHG_HNZVC },
+  { "orab", "#,b->b",	"or8",	     2, 0xca,  2,  2, CLR_V_CHG_NZ },
+  { "addb", "#,b->b",	"add8",	     2, 0xcb,  2,  2, CHG_HNZVC },
+  { "ldd",  "#->d",	"movtst16",  3, 0xcc,  3,  3, CLR_V_CHG_NZ },
+  { "page4",0,		"page4",     1, 0xcd,  0,  0, CHG_NONE },
+  { "ldx",  "#->x",	"movtst16",  3, 0xce,  3,  3, CLR_V_CHG_NZ },
+  { "stop", 0,		0,	     1, 0xcf,  2,  2, CHG_NONE },
+  { "subb", "*,b->b",	"sub8",	     2, 0xd0,  3,  3, CHG_NZVC },
+  { "cmpb", "*,b",	"sub8",	     2, 0xd1,  3,  3, CHG_NZVC },
+  { "sbcb", "*,b->b",	"sbc8",	     2, 0xd2,  3,  3, CHG_NZVC },
+  { "addd", "*,d->d",	"add16",     2, 0xd3,  5,  5, CHG_NZVC },
+  { "andb", "*,b->b",	"and8",	     2, 0xd4,  3,  3, CLR_V_CHG_NZ },
+  { "bitb", "*,b",	"and8",	     2, 0xd5,  3,  3, CLR_V_CHG_NZ },
+  { "ldab", "*->b",	"movtst8",   2, 0xd6,  3,  3, CLR_V_CHG_NZ },
+  { "stab", "b->*",	"movtst8",   2, 0xd7,  3,  3, CLR_V_CHG_NZ },
+  { "eorb", "*,b->b",	"eor8",	     2, 0xd8,  3,  3, CLR_V_CHG_NZ },
+  { "adcb", "*,b->b",	"adc8",	     2, 0xd9,  3,  3, CHG_HNZVC },
+  { "orab", "*,b->b",	"or8",	     2, 0xda,  3,  3, CLR_V_CHG_NZ },
+  { "addb", "*,b->b",	"add8",	     2, 0xdb,  3,  3, CHG_HNZVC },
+  { "ldd",  "*->d",	"movtst16",  2, 0xdc,  4,  4, CLR_V_CHG_NZ },
+  { "std",  "d->*",	"movtst16",  2, 0xdd,  4,  4, CLR_V_CHG_NZ },
+  { "ldx",  "*->x",	"movtst16",  2, 0xde,  4,  4, CLR_V_CHG_NZ },
+  { "stx",  "x->*",	"movtst16",  2, 0xdf,  4,  4, CLR_V_CHG_NZ },
+  { "subb", "(x),b->b", "sub8",	     2, 0xe0,  4,  4, CHG_NZVC },
+  { "cmpb", "(x),b",	"sub8",	     2, 0xe1,  4,  4, CHG_NZVC },
+  { "sbcb", "(x),b->b", "sbc8",	     2, 0xe2,  4,  4, CHG_NZVC },
+  { "addd", "(x),d->d", "add16",     2, 0xe3,  6,  6, CHG_NZVC },
+  { "andb", "(x),b->b", "and8",	     2, 0xe4,  4,  4, CLR_V_CHG_NZ },
+  { "bitb", "(x),b",	"and8",	     2, 0xe5,  4,  4, CLR_V_CHG_NZ },
+  { "ldab", "(x)->b",	"movtst8",   2, 0xe6,  4,  4, CLR_V_CHG_NZ },
+  { "stab", "b->(x)",	"movtst8",   2, 0xe7,  4,  4, CLR_V_CHG_NZ },
+  { "eorb", "(x),b->b", "eor8",	     2, 0xe8,  4,  4, CLR_V_CHG_NZ },
+  { "adcb", "(x),b->b", "adc8",	     2, 0xe9,  4,  4, CHG_HNZVC },
+  { "orab", "(x),b->b", "or8",	     2, 0xea,  4,  4, CLR_V_CHG_NZ },
+  { "addb", "(x),b->b", "add8",	     2, 0xeb,  4,  4, CHG_HNZVC },
+  { "ldd",  "(x)->d",	"movtst16",  2, 0xec,  5,  5, CLR_V_CHG_NZ },
+  { "std",  "d->(x)",	"movtst16",  2, 0xed,  5,  5, CLR_V_CHG_NZ },
+  { "ldx",  "(x)->x",	"movtst16",  2, 0xee,  5,  5, CLR_V_CHG_NZ },
+  { "stx",  "x->(x)",	"movtst16",  2, 0xef,  5,  5, CLR_V_CHG_NZ },
+  { "subb", "(),b->b",	"sub8",	     3, 0xf0,  4,  4, CHG_NZVC },
+  { "cmpb", "(),b",	"sub8",	     3, 0xf1,  4,  4, CHG_NZVC },
+  { "sbcb", "(),b->b",	"sbc8",	     3, 0xf2,  4,  4, CHG_NZVC },
+  { "addd", "(),d->d",	"add16",     3, 0xf3,  6,  6, CHG_NZVC },
+  { "andb", "(),b->b",	"and8",	     3, 0xf4,  4,  4, CLR_V_CHG_NZ },
+  { "bitb", "(),b",	"and8",	     3, 0xf5,  4,  4, CLR_V_CHG_NZ },
+  { "ldab", "()->b",	"movtst8",   3, 0xf6,  4,  4, CLR_V_CHG_NZ },
+  { "stab", "b->()",	"movtst8",   3, 0xf7,  4,  4, CLR_V_CHG_NZ },
+  { "eorb", "(),b->b",	"eor8",	     3, 0xf8,  4,  4, CLR_V_CHG_NZ },
+  { "adcb", "(),b->b",	"eor8",	     3, 0xf9,  4,  4, CHG_HNZVC },
+  { "orab", "(),b->b",	"or8",	     3, 0xfa,  4,  4, CLR_V_CHG_NZ },
+  { "addb", "(),b->b",	"add8",	     3, 0xfb,  4,  4, CHG_HNZVC },
+  { "ldd",  "()->d",	"movtst16",  3, 0xfc,  5,  5, CLR_V_CHG_NZ },
+  { "std",  "d->()",	"movtst16",  3, 0xfd,  5,  5, CLR_V_CHG_NZ },
+  { "ldx",  "()->x",	"movtst16",  3, 0xfe,  5,  5, CLR_V_CHG_NZ },
+  { "stx",  "x->()",	"movtst16",  3, 0xff,  5,  5, CLR_V_CHG_NZ }
+};
+
+
+/* Page 2 opcodes */
+/*
+ *  { "dex", "x->x", "dec16", 1, 0x00, 5, _M,  CHG_NONE },
+ * Name -+					 +----- Insn CCR changes
+ * Operands  ---+			  +------------ Max # cycles
+ * Pattern   -----------+	       +--------------- Min # cycles
+ * Size	     -----------------+	  +-------------------- Opcode
+ */
+const struct m6811_opcode_def m6811_page2_opcodes[] = {
+  { "iny",  "y->y",	"inc16",     2, 0x08, 4, 4, CHG_Z },
+  { "dey",  "y->y",	"dec16",     2, 0x09, 4, 4, CHG_Z },
+  { "bset", "(y),#->(y)","or8",	     4, 0x1c, 8, 8, CLR_V_CHG_NZ },
+  { "bclr", "(y),#->(y)","bclr8",    4, 0x1d, 8, 8, CLR_V_CHG_NZ },
+  { "brset","(y),#,r",	 "brset8",   5, 0x1e, 8, 8, CHG_NONE },
+  { "brclr","(y),#,r",	"brclr8",    5, 0x1f, 8, 8, CHG_NONE },
+  { "tsy",  "sp->y",	"tsxy16",    2, 0x30, 4, 4, CHG_NONE },
+  { "tys",  "y->sp",	"txys16",    2, 0x35, 4, 4, CHG_NONE },
+  { "puly", "(sp)->y",	"mov16",     2, 0x38, 6, 6, CHG_NONE },
+  { "aby",  "b,y->y",	"abxy16",    2, 0x3a, 4, 4, CHG_NONE },
+  { "pshy", "y->(sp)",	"mov16",     2, 0x3c, 5, 5, CHG_NONE },
+  { "neg",  "(y)->(y)", "neg8",	     3, 0x60, 7, 7, CHG_NZVC },
+  { "com",  "(y)->(y)", "com8",	     3, 0x63, 7, 7, SET_C_CLR_V_CHG_NZ},
+  { "lsr",  "(y)->(y)", "lsr8",	     3, 0x64, 7, 7, CLR_V_CHG_ZVC },
+  { "ror",  "(y)->(y)", "ror8",	     3, 0x66, 7, 7, CHG_NZVC },
+  { "asr",  "(y)->(y)", "asr8",	     3, 0x67, 7, 7, CHG_NZVC },
+  { "asl",  "(y)->(y)", "lsl8",	     3, 0x68, 7, 7, CHG_NZVC },
+  { "lsl",  "(y)->(y)", "lsl8",	     3, 0x68, 7, 7, CHG_NZVC },
+  { "rol",  "(y)->(y)", "rol8",	     3, 0x69, 7, 7, CHG_NZVC },
+  { "dec",  "(y)->(y)", "dec8",	     3, 0x6a, 7, 7, CHG_NZV },
+  { "inc",  "(y)->(y)", "inc8",	     3, 0x6c, 7, 7, CHG_NZV },
+  { "tst",  "(y)",	"tst8",	     3, 0x6d, 7, 7, CLR_V_CHG_NZ },
+  { "jmp",  "&(y)",	"bra",	     3, 0x6e, 4, 4, CHG_NONE },
+  { "clr",  "->(y)",	"clr8",	     3, 0x6f, 7, 7, SET_Z_CLR_NVC },
+  { "cmpy", "#,y",	"sub16",     4, 0x8c, 5, 5, CHG_NZVC },
+  { "cpy",  "#,y",	"sub16",     4, 0x8c, 5, 5, CHG_NZVC },
+  { "xgdy", "y->y",	"xgdxy16",   2, 0x8f, 4, 4, CHG_NONE },
+  { "cmpy", "*,y",	"sub16",     3, 0x9c, 6, 6, CHG_NZVC },
+  { "cpy",  "*,y",	"sub16",     3, 0x9c, 6, 6, CHG_NZVC },
+  { "suba", "(y),a->a", "sub8",	     3, 0xa0, 5, 5, CHG_NZVC },
+  { "cmpa", "(y),a",	"sub8",	     3, 0xa1, 5, 5, CHG_NZVC },
+  { "sbca", "(y),a->a", "sbc8",	     3, 0xa2, 5, 5, CHG_NZVC },
+  { "subd", "(y),d->d", "sub16",     3, 0xa3, 7, 7, CHG_NZVC },
+  { "anda", "(y),a->a", "and8",	     3, 0xa4, 5, 5, CLR_V_CHG_NZ },
+  { "bita", "(y),a",	"and8",	     3, 0xa5, 5, 5, CLR_V_CHG_NZ },
+  { "ldaa", "(y)->a",	"movtst8",   3, 0xa6, 5, 5, CLR_V_CHG_NZ },
+  { "staa", "a->(y)",	"movtst8",   3, 0xa7, 5, 5, CLR_V_CHG_NZ },
+  { "eora", "(y),a->a", "eor8",	     3, 0xa8, 5, 5, CLR_V_CHG_NZ },
+  { "adca", "(y),a->a", "adc8",	     3, 0xa9, 5, 5, CHG_HNZVC },
+  { "oraa", "(y),a->a", "or8",	     3, 0xaa, 5, 5, CLR_V_CHG_NZ },
+  { "adda", "(y),a->a", "add8",	     3, 0xab, 5, 5, CHG_HNZVC },
+  { "cmpy", "(y),y",	"sub16",     3, 0xac, 7, 7, CHG_NZVC },
+  { "cpy",  "(y),y",	"sub16",     3, 0xac, 7, 7, CHG_NZVC },
+  { "jsr",  "&(y)",	"jsr16",     3, 0xad, 6, 6, CHG_NONE },
+  { "lds",  "(y)->sp",	"movtst16",  3, 0xae, 6, 6, CLR_V_CHG_NZ },
+  { "sts",  "sp->(y)",	"movtst16",  3, 0xaf, 6, 6, CLR_V_CHG_NZ },
+  { "cmpy", "(),y",	"sub16",     4, 0xbc, 7, 7, CHG_NZVC },
+  { "cpy",  "(),y",	"sub16",     4, 0xbc, 7, 7, CHG_NZVC },
+  { "ldy",  "#->y",	"movtst16",  4, 0xce, 4, 4, CLR_V_CHG_NZ },
+  { "ldy",  "*->y",	"movtst16",  3, 0xde, 5, 5, CLR_V_CHG_NZ },
+  { "sty",  "y->*",	"movtst16",  3, 0xdf, 5, 5, CLR_V_CHG_NZ },
+  { "subb", "(y),b->b", "sub8",	     3, 0xe0, 5, 5, CHG_NZVC },
+  { "cmpb", "(y),b",	"sub8",	     3, 0xe1, 5, 5, CHG_NZVC },
+  { "sbcb", "(y),b->b", "sbc8",	     3, 0xe2, 5, 5, CHG_NZVC },
+  { "addd", "(y),d->d", "add16",     3, 0xe3, 7, 7, CHG_NZVC },
+  { "andb", "(y),b->b", "and8",	     3, 0xe4, 5, 5, CLR_V_CHG_NZ },
+  { "bitb", "(y),b",	"and8",	     3, 0xe5, 5, 5, CLR_V_CHG_NZ },
+  { "ldab", "(y)->b",	"movtst8",   3, 0xe6, 5, 5, CLR_V_CHG_NZ },
+  { "stab", "b->(y)",	"movtst8",   3, 0xe7, 5, 5, CLR_V_CHG_NZ },
+  { "eorb", "(y),b->b", "eor8",	     3, 0xe8, 5, 5, CLR_V_CHG_NZ },
+  { "adcb", "(y),b->b", "adc8",	     3, 0xe9, 5, 5, CHG_HNZVC },
+  { "orab", "(y),b->b", "or8",	     3, 0xea, 5, 5, CLR_V_CHG_NZ },
+  { "addb", "(y),b->b", "add8",	     3, 0xeb, 5, 5, CHG_HNZVC },
+  { "ldd",  "(y)->d",	"movtst16",  3, 0xec, 6, 6, CLR_V_CHG_NZ },
+  { "std",  "d->(y)",	"movtst16",  3, 0xed, 6, 6, CLR_V_CHG_NZ },
+  { "ldy",  "(y)->y",	"movtst16",  3, 0xee, 6, 6, CLR_V_CHG_NZ },
+  { "sty",  "y->(y)",	"movtst16",  3, 0xef, 6, 6, CLR_V_CHG_NZ },
+  { "ldy",  "()->y",	"movtst16",  4, 0xfe, 6, 6, CLR_V_CHG_NZ },
+  { "sty",  "y->()",	"movtst16",  4, 0xff, 6, 6, CLR_V_CHG_NZ }
+};
+
+/* Page 3 opcodes */
+/*
+ *  { "dex", "x->x", "dec16", 1, 0x00, 5, _M,  CHG_NONE },
+ * Name -+					 +----- Insn CCR changes
+ * Operands  ---+			  +------------ Max # cycles
+ * Pattern   -----------+	       +--------------- Min # cycles
+ * Size	     -----------------+	  +-------------------- Opcode
+ */
+const struct m6811_opcode_def m6811_page3_opcodes[] = {
+  { "cmpd", "#,d",	"sub16",     4, 0x83, 5, 5, CHG_NZVC },
+  { "cpd",  "#,d",	"sub16",     4, 0x83, 5, 5, CHG_NZVC },
+  { "cmpd", "*,d",	"sub16",     3, 0x93, 6, 6, CHG_NZVC },
+  { "cpd",  "*,d",	"sub16",     3, 0x93, 6, 6, CHG_NZVC },
+  { "cmpd", "(x),d",	"sub16",     3, 0xa3, 7, 7, CHG_NZVC },
+  { "cpd",  "(x),d",	"sub16",     3, 0xa3, 7, 7, CHG_NZVC },
+  { "cmpy", "(x),y",	"sub16",     3, 0xac, 7, 7, CHG_NZVC },
+  { "cpy",  "(x),y",	"sub16",     3, 0xac, 7, 7, CHG_NZVC },
+  { "cmpd", "(),d",	"sub16",     4, 0xb3, 7, 7, CHG_NZVC },
+  { "cpd",  "(),d",	"sub16",     4, 0xb3, 7, 7, CHG_NZVC },
+  { "ldy",  "(x)->y",	"movtst16",  3, 0xee, 6, 6, CLR_V_CHG_NZ },
+  { "sty",  "y->(x)",	"movtst16",  3, 0xef, 6, 6, CLR_V_CHG_NZ }
+};
+
+/* Page 4 opcodes */
+/*
+ *  { "dex", "x->x", "dec16", 1, 0x00, 5, _M,  CHG_NONE },
+ * Name -+					 +----- Insn CCR changes
+ * Operands  ---+			  +------------ Max # cycles
+ * Pattern   -----------+	       +--------------- Min # cycles
+ * Size	     -----------------+	  +-------------------- Opcode
+ */
+const struct m6811_opcode_def m6811_page4_opcodes[] = {
+  { "syscall", "",	"syscall",   2, 0x03, 6, 6, CHG_NONE },
+  { "cmpd", "(y),d",	"sub16",     3, 0xa3, 7, 7, CHG_NZVC },
+  { "cpd",  "(y),d",	"sub16",     3, 0xa3, 7, 7, CHG_NZVC },
+  { "cmpx", "(y),x",	"sub16",     3, 0xac, 7, 7, CHG_NZVC },
+  { "cpx",  "(y),x",	"sub16",     3, 0xac, 7, 7, CHG_NZVC },
+  { "ldx",  "(y)->x",	"movtst16",  3, 0xee, 6, 6, CLR_V_CHG_NZ },
+  { "stx",  "x->(y)",	"movtst16",  3, 0xef, 6, 6, CLR_V_CHG_NZ }
+};
+
+void fatal_error (const struct m6811_opcode_def*, const char*);
+void print (FILE*, int, const char*,...);
+int gen_fetch_operands (FILE*, int, const struct m6811_opcode_def*,
+			const char*);
+void gen_save_result (FILE*, int, const struct m6811_opcode_def*,
+		      int, const char*);
+const struct m6811_opcode_pattern*
+find_opcode_pattern (const struct m6811_opcode_def*);
+void gen_interp (FILE*, int, const struct m6811_opcode_def*);
+void gen_interpreter_for_table (FILE*, int,
+				const struct m6811_opcode_def*,
+				int, const char*);
+void gen_interpreter (FILE*);
+
+
+static int indent_level = 2;
+static int current_insn_size = 0;
+
+/* Fatal error message and exit.  This method is called when an inconsistency
+   is detected in the generation table.	 */
+void
+fatal_error (const struct m6811_opcode_def *opcode, const char *msg)
+{
+  fprintf (stderr, "Fatal error: %s\n", msg);
+  if (opcode)
+    {
+      fprintf (stderr, "Opcode: 0x%02x %s %s\n",
+	       opcode->insn_code, opcode->name, opcode->operands);
+    }
+  exit (1);
+}
+
+
+/* Format and pretty print for the code generation.  (printf like format).  */
+void
+print (FILE *fp, int col, const char *msg, ...)
+{
+  va_list argp;
+  char buf[1024];
+  int cur_col = -1;
+  int i;
+
+  /* Format in a buffer.  */
+  va_start (argp, msg);
+  vsprintf (buf, msg, argp);
+  va_end (argp);
+
+  /* Basic pretty print:
+     - Every line is indented at column 'col',
+     - Indentation is updated when '{' and '}' are found,
+     - Indentation is incremented by the special character '@' (not displayed).
+     - New lines inserted automatically after ';'  */
+  for (i = 0; buf[i]; i++)
+    {
+      if (buf[i] == '{')
+	col += indent_level;
+      else if (buf[i] == '}')
+	col -= indent_level;
+      else if (buf[i] == '@')
+	{
+	  col += indent_level;
+	  continue;
+	}
+      if (cur_col == -1 && buf[i] != ' ' && buf[i] != '\t' && buf[i] != '\n')
+	{
+	  cur_col = 0;
+	  while (cur_col < col)
+	    {
+	      fputc (' ', fp);
+	      cur_col++;
+	    }
+	}
+      if (buf[i] == '}')
+	col -= indent_level;
+      else if (buf[i] == '{')
+	col += indent_level;
+      else if (buf[i] == '\n')
+	cur_col = -1;
+
+      if (cur_col != -1 || buf[i] == '\n')
+	fputc (buf[i], fp);
+
+      if (buf[i] == ';')
+	{
+	  fputc ('\n', fp);
+	  cur_col = -1;
+	}
+    }
+}
+
+
+/* Generate the code to obtain the operands before execution of the
+   instruction.	 Operands are copied in local variables.  This allows to
+   have the same instruction pattern and different operand formats.
+   There is a maximum of 3 variables:
+ 
+		       8-bits	       16-bits
+   1st operand:		src8		src16
+   2nd operand:		dst8		dst16
+   alt operand:		addr		addr
+  
+   The operand string is interpreted as follows:
+ 
+   a	Copy A register in the local 8-bits variable.
+   b	"    B "
+   ccr	"    ccr "
+   d	"    D "	"      "    16-bits variable.
+   x	"    X "
+   y	"    Y "
+   sp	"    SP "
+   *	68HC11 page0 memory pointer.
+	Get 8-bits page0 offset from program, set up 'addr' local
+	variable to refer to the location in page0.
+	Copy the 8/16-bits value pointed to by 'addr' in a 8/16-bits variable.
+   (x)	68HC11 indirect access with X register.
+	Get 8-bits unsigned offset from program, set up 'addr' = X + offset.
+	Copy the 8/16-bits value pointed to by 'addr' in a 8/16-bits variable.
+   (y)	Same as (x) with Y register.
+   ()	68HC11 extended address mode (global variable).
+	Get 16-bits address from program and set 'addr'.
+	Copy the 8/16-bits value pointed to by 'addr' in a 8/16-bits variable.
+   (sp) Pop
+	Pop a 8/16-bits value from stack and set in a 8/16-bits variable.
+   r	Relative branch
+	Get 8-bits relative branch, compute absolute address and set 'addr'
+   #	68HC11 immediate value
+	Get a 8/16-bits value from program and set a 8/16-bits variable.
+   &(x)
+   &(y)
+   &()	Similar to (x), (y) and () except that we don't read the
+	value pointed to by 'addr' (ie, only 'addr' is setup). Used by jmp/jsr.
+   ,	Operand separator.
+   -	End of input operands.
+  
+   Example:
+       (x),a->a	      addr = x + (uint16) (fetch8 (proc));
+		      src8 = a
+       *,#,r	      addr = (uint16) (fetch8 (proc))  <- Temporary 'addr'
+		      src8 = read_mem8 (proc, addr)
+		      dst8 = fetch8 (proc)
+		      addr = fetch_relbranch (proc)    <- Final 'addr'
+  
+   Returns 1 if the 'addr' operand is set, 0 otherwise.	 */
+int
+gen_fetch_operands (FILE *fp, int col,
+		    const struct m6811_opcode_def *opcode,
+		    const char *operand_size)
+{
+  static char *vars[2] = {
+    "src",
+    "dst"
+  };
+  char c;
+  int addr_set = 0;
+  int cur_var = 0;
+  const char *operands = opcode->operands;
+  
+  if (operands == 0)
+    operands = "";
+
+  while ((c = *operands++) != 0)
+    {
+      switch (c)
+	{
+	case 'a':
+	  if (cur_var >= 2)
+	    fatal_error (opcode, "Too many locals");
+	  
+	  print (fp, col, "%s8 = cpu_get_a (proc);", vars[cur_var]);
+	  break;
+
+	case 'b':
+	  if (cur_var >= 2)
+	    fatal_error (opcode, "Too many locals");
+
+	  print (fp, col, "%s8 = cpu_get_b (proc);", vars[cur_var]);
+	  break;
+
+	case 'd':
+	  if (cur_var >= 2)
+	    fatal_error (opcode, "Too many locals");
+
+	  print (fp, col, "%s16 = cpu_get_d (proc);", vars[cur_var]);
+	  break;
+
+	case 'x':
+	  if (cur_var >= 2)
+	    fatal_error (opcode, "Too many locals");
+
+	  print (fp, col, "%s16 = cpu_get_x (proc);", vars[cur_var]);
+	  break;
+
+	case 'y':
+	  if (cur_var >= 2)
+	    fatal_error (opcode, "Too many locals");
+
+	  print (fp, col, "%s16 = cpu_get_y (proc);", vars[cur_var]);
+	  break;
+
+	case '*':
+	  if (cur_var >= 2)
+	    fatal_error (opcode, "Too many locals");
+
+	  if (addr_set)
+	    fatal_error (opcode, "Wrong use of '*', 'addr' already used");
+	  
+	  addr_set = 1;
+	  current_insn_size += 1;
+	  print (fp, col, "addr = (uint16) cpu_fetch8 (proc);");
+	  print (fp, col, "%s%s = memory_read%s (proc, addr);",
+		 vars[cur_var], operand_size, operand_size);
+	  break;
+
+	case '&':
+	  if (addr_set)
+	    fatal_error (opcode, "Wrong use of '&', 'addr' already used");
+	  
+	  addr_set = 1;
+	  if (strncmp (operands, "(x)", 3) == 0)
+	    {
+	      current_insn_size += 1;
+	      print (fp, col, "addr = cpu_get_x (proc) + (uint16) cpu_fetch8 (proc);");
+	      operands += 3;
+	    }
+	  else if (strncmp (operands, "(y)", 3) == 0)
+	    {
+	      current_insn_size += 1;
+	      print (fp, col, "addr = cpu_get_y (proc) + (uint16) cpu_fetch8 (proc);");
+	      operands += 3;
+	    }
+	  else if (strncmp (operands, "()", 2) == 0)
+	    {
+	      current_insn_size += 2;
+	      print (fp, col, "addr = cpu_fetch16 (proc);");
+	      operands += 2;
+	    }
+	  else
+	    {
+	      fatal_error (opcode, "Unknown operand");
+	    }
+	  break;
+	  
+	case '(':
+	  if (cur_var >= 2)
+	    fatal_error (opcode, "Too many locals");
+	  
+	  if (addr_set)
+	    fatal_error (opcode, "Wrong use of '(', 'addr' already used");
+	  
+	  if (strncmp (operands, "x)", 2) == 0)
+	    {
+	      addr_set = 1;
+	      current_insn_size += 1;
+	      print (fp, col, "addr = cpu_get_x (proc) + (uint16) cpu_fetch8 (proc);");
+	      print (fp, col, "%s%s = memory_read%s (proc, addr);",
+		     vars[cur_var], operand_size, operand_size);
+	      operands += 2;
+	    }
+	  else if (strncmp (operands, "y)", 2) == 0)
+	    {
+	      addr_set = 1;
+	      current_insn_size += 1;
+	      print (fp, col, "addr = cpu_get_y (proc) + (uint16) cpu_fetch8 (proc);");
+	      print (fp, col, "%s%s = memory_read%s (proc, addr);",
+		     vars[cur_var], operand_size, operand_size);
+	      operands += 2;
+	    }
+	  else if (strncmp (operands, ")", 1) == 0)
+	    {
+	      addr_set = 1;
+	      current_insn_size += 2;
+	      print (fp, col, "addr = cpu_fetch16 (proc);");
+	      print (fp, col, "%s%s = memory_read%s (proc, addr);",
+		     vars[cur_var], operand_size, operand_size);
+	      operands++;
+	    }
+	  else if (strncmp (operands, "sp)", 3) == 0)
+	    {
+	      print (fp, col, "%s%s = cpu_pop_uint%s (proc);",
+		     vars[cur_var], operand_size, operand_size);
+	      operands += 3;
+	    }
+	  else
+	    {
+	      fatal_error (opcode, "Unknown operand");
+	    }
+	  break;
+
+	case 's':
+	  if (cur_var >= 2)
+	    fatal_error (opcode, "Too many locals");
+	  
+	  if (strncmp (operands, "p", 1) == 0)
+	    {
+	      print (fp, col, "%s16 = cpu_get_sp (proc);", vars[cur_var]);
+	      operands++;
+	    }
+	  else
+	    {
+	      fatal_error (opcode, "Unknown operands");
+	    }
+	  break;
+
+	case 'c':
+	  if (strncmp (operands, "cr", 2) == 0)
+	    {
+	      print (fp, col, "%s8 = cpu_get_ccr (proc);", vars[cur_var]);
+	      operands += 2;
+	    }
+	  else
+	    {
+	      fatal_error (opcode, "Unknown operands");
+	    }
+	  break;
+	  
+	case 'r':
+	  if (addr_set && cur_var != 2)
+	    fatal_error (opcode, "Wrong use of 'r'");
+
+	  addr_set = 1;
+	  current_insn_size += 1;
+	  print (fp, col, "addr = cpu_fetch_relbranch (proc);");
+	  break;
+
+	case '#':
+	  if (strcmp (operand_size, "8") == 0)
+	    {
+	      current_insn_size += 1;
+	    }
+	  else
+	    {
+	      current_insn_size += 2;
+	    }
+	  print (fp, col, "%s%s = cpu_fetch%s (proc);", vars[cur_var],
+		 operand_size, operand_size);
+	  break;
+	  
+	case ',':
+	  cur_var ++;
+	  break;
+
+	case '-':
+	  return addr_set;
+
+	default:
+	  fatal_error (opcode, "Invalid operands");
+	  break;
+	}
+    }
+  return addr_set;
+}
+
+
+/* Generate the code to save the instruction result.  The result is in
+   a local variable: either 'dst8' or 'dst16'.
+   There may be only one result.  Instructions with 2 results (ie idiv
+   and fdiv), take care of saving the first value.
+  
+   The operand string is the same as for 'gen_fetch_operands'.
+   Everything before '->' is ignored.  If the '->' is not found, it
+   is assumed that there is nothing to save.  After '->', the operand
+   string is interpreted as follows:
+  
+   a	Save 'dst8' in A register
+   b	"	       B "
+   ccr	"	       CCR "
+   d	"    'dst16'   D "
+   x	"	       X "
+   y	"	       Y "
+   sp	"	       SP "
+   *	68HC11 page0 memory pointer.
+   (x)	68HC11 indirect access with X register.
+   (y)	Same as (x) with Y register.
+   ()	68HC11 extended address mode (global variable).
+	For these modes, if they were used as an input operand,
+	the 'addr' variable contains the address of memory where
+	the result must be saved.
+	If they were not used an input operand, 'addr' is computed
+	(as in gen_fetch_operands()), and the result is saved.
+   (sp) Push
+	Push the 8/16-bits result on the stack.	 */
+void
+gen_save_result (FILE *fp, int col,
+		 const struct m6811_opcode_def *opcode,
+		 int addr_set,
+		 const char *operand_size)
+{
+  char c;
+  const char *operands = opcode->operands;
+
+  /* When the result is saved, 'result_size' is a string which
+     indicates the size of the saved result ("8" or "16").  This
+     is a sanity check with 'operand_size' to detect inconsistencies
+     in the different tables.  */
+  const char *result_size = 0;
+  
+  if (operands == 0)
+    operands = "";
+
+  operands = strchr (operands, '-');
+  if (operands == 0)
+    return;
+
+  operands++;
+  if (*operands++ != '>')
+    {
+      fatal_error (opcode, "Invalid operand");
+    }
+
+  c = *operands++;
+  switch (c)
+    {
+    case 'a':
+      result_size = "8";
+      print (fp, col, "cpu_set_a (proc, dst8);");
+      break;
+
+    case 'b':
+      result_size = "8";
+      print (fp, col, "cpu_set_b (proc, dst8);");
+      break;
+
+    case 'd':
+      result_size = "16";
+      print (fp, col, "cpu_set_d (proc, dst16);");
+      break;
+
+    case 'x':
+      result_size = "16";
+      print (fp, col, "cpu_set_x (proc, dst16);");
+      break;
+
+    case 'y':
+      result_size = "16";
+      print (fp, col, "cpu_set_y (proc, dst16);");
+      break;
+
+    case '*':
+      if (addr_set == 0)
+	{
+	  current_insn_size += 1;
+	  print (fp, col, "addr = (uint16) cpu_fetch8 (proc);");
+	}
+      result_size = operand_size;
+      print (fp, col, "memory_write%s (proc, addr, dst%s);",
+	     operand_size, operand_size);
+      break;
+
+    case '(':
+      if (strncmp (operands, "x)", 2) == 0)
+	{
+	  if (addr_set == 0)
+	    {
+	      current_insn_size += 1;
+	      print (fp, col, "addr = cpu_get_x (proc) + cpu_fetch8 (proc);");
+	    }
+	  print (fp, col, "memory_write%s (proc, addr, dst%s);",
+		 operand_size, operand_size);
+	  operands += 2;
+	  result_size = operand_size;
+	}
+      else if (strncmp (operands, "y)", 2) == 0)
+	{
+	  if (addr_set == 0)
+	    {
+	      current_insn_size += 1;
+	      print (fp, col, "addr = cpu_get_y (proc) + cpu_fetch8 (proc);");
+	    }
+	  print (fp, col, "memory_write%s (proc, addr, dst%s);",
+		 operand_size, operand_size);
+	  operands += 2;
+	  result_size = operand_size;
+	}
+      else if (strncmp (operands, ")", 1) == 0)
+	{
+	  if (addr_set == 0)
+	    {
+	      current_insn_size += 2;
+	      print (fp, col, "addr = cpu_fetch16 (proc);");
+	    }
+	  print (fp, col, "memory_write%s (proc, addr, dst%s);",
+		 operand_size, operand_size);
+	  operands++;
+	  result_size = operand_size;
+	}
+      else if (strncmp (operands, "sp)", 3) == 0)
+	{
+	  print (fp, col, "cpu_push_uint%s (proc, dst%s);",
+		 operand_size, operand_size);
+	  operands += 3;
+	  result_size = operand_size;
+	}
+      else
+	{
+	  fatal_error (opcode, "Invalid operand");
+	}
+      break;
+
+    case 's':
+      if (strncmp (operands, "p", 1) == 0)
+	{
+	  print (fp, col, "cpu_set_sp (proc, dst16);");
+	  operands++;
+	  result_size = "16";
+	}
+      else
+	{
+	  fatal_error (opcode, "Invalid operand");
+	}
+      break;
+
+    case 'c':
+      if (strncmp (operands, "cr", 2) == 0)
+	{
+	  print (fp, col, "cpu_set_ccr (proc, dst8);");
+	  operands += 2;
+	  result_size = "8";
+	}
+      else
+	{
+	  fatal_error (opcode, "Invalid operand");
+	}
+      break;
+	  
+    default:
+      fatal_error (opcode, "Invalid operand");
+      break;
+    }
+
+  if (*operands != 0)
+    fatal_error (opcode, "Garbage at end of operand");
+  
+  if (result_size == 0)
+    fatal_error (opcode, "? No result seems to be saved");
+
+  if (strcmp (result_size, operand_size) != 0)
+    fatal_error (opcode, "Result saved different than pattern size");
+}
+
+
+/* Find the instruction pattern for a given instruction.  */
+const struct m6811_opcode_pattern*
+find_opcode_pattern (const struct m6811_opcode_def *opcode)
+{
+  int i;
+  const char *pattern = opcode->insn_pattern;
+  
+  if (pattern == 0)
+    {
+      pattern = opcode->name;
+    }
+  for (i = 0; i < TABLE_SIZE(m6811_opcode_patterns); i++)
+    {
+      if (strcmp (m6811_opcode_patterns[i].name, pattern) == 0)
+	{
+	  return &m6811_opcode_patterns[i];
+	}
+    }
+  fatal_error (opcode, "Unknown instruction pattern");
+  return 0;
+}
+
+
+/* Generate the code for interpretation of instruction 'opcode'.  */
+void
+gen_interp (FILE *fp, int col, const struct m6811_opcode_def *opcode)
+{
+  const char *operands = opcode->operands;
+  int addr_set;
+  const char *pattern = opcode->insn_pattern;
+  const struct m6811_opcode_pattern *op;
+  const char *operand_size;
+  
+  if (pattern == 0)
+    {
+      pattern = opcode->name;
+    }
+
+  /* Find out the size of the operands: 8 or 16-bits.  */
+  if (strcmp(&pattern[strlen(pattern) - 1], "8") == 0)
+    {
+      operand_size = "8";
+    }
+  else if (strcmp (&pattern[strlen(pattern) - 2], "16") == 0)
+    {
+      operand_size = "16";
+    }
+  else
+    {
+      operand_size = "";
+    }
+  
+  if (operands == 0)
+    operands = "";
+
+  /* Generate entry point for the instruction.	*/
+  print (fp, col, "case 0x%02x: /* %s %s */\n", opcode->insn_code,
+	 opcode->name, operands);
+  col += indent_level;
+
+  /* Generate the code to get the instruction operands.	 */
+  addr_set = gen_fetch_operands (fp, col, opcode, operand_size);
+
+  /* Generate instruction interpretation.  */
+  op = find_opcode_pattern (opcode);
+  if (op->pattern)
+    {
+      print (fp, col, "%s;", op->pattern);
+    }
+
+  /* Generate the code to save the result.  */
+  gen_save_result (fp, col, opcode, addr_set, operand_size);
+
+  /* For some instructions, generate the code to update the flags.  */
+  if (op && op->ccr_update)
+    {
+      print (fp, col, "%s;", op->ccr_update);
+    }
+  print (fp, col, "break;");
+}
+
+
+/* Generate the interpretor for a given 68HC11 page set.  */
+void
+gen_interpreter_for_table (FILE *fp, int col,
+			   const struct m6811_opcode_def *table,
+			   int size,
+			   const char *cycles_table_name)
+{
+  int i;
+  int init_size;
+
+  init_size = table == m6811_page1_opcodes ? 1 : 2;
+  
+  /* Get the opcode and dispatch directly.  */
+  print (fp, col, "op = cpu_fetch8 (proc);");
+  print (fp, col, "cpu_add_cycles (proc, %s[op]);", cycles_table_name);
+  
+  print (fp, col, "switch (op)\n");
+  col += indent_level;
+  print (fp, col, "{\n");
+  
+  for (i = 0; i < size; i++)
+    {
+      /* The table contains duplicate entries (ie, instruction aliases).  */
+      if (i > 0 && table[i].insn_code == table[i - 1].insn_code)
+	continue;
+
+      current_insn_size = init_size;
+      gen_interp (fp, col, &table[i]);
+      if (current_insn_size != table[i].insn_size)
+	{
+	  fatal_error (&table[i], "Insn size inconsistency");
+	}
+    }
+
+  print (fp, col, "default:\n");
+  print (fp, col + indent_level, "cpu_special (proc, M6811_ILLEGAL);");
+  print (fp, col + indent_level, "break;");
+  print (fp, col, "}\n");
+}
+
+/* Generate the table of instruction cycle.  These tables are indexed
+   by the opcode number to allow a fast cycle time computation.	 */
+void
+gen_cycle_table (FILE *fp, const char *name,
+		 const struct m6811_opcode_def *table,
+		 int size)
+{
+  int i;
+  char cycles[256];
+  int page1;
+
+  page1 = table == m6811_page1_opcodes;
+
+  /* Build the cycles table.  The table is indexed by the opcode.  */
+  memset (cycles, 0, sizeof (cycles));
+  while (--size >= 0)
+    {
+      if (table->insn_min_cycles > table->insn_max_cycles)
+	fatal_error (table, "Wrong insn cycles");
+
+      if (table->insn_max_cycles == _M)
+	cycles[table->insn_code] = table->insn_min_cycles;
+      else
+	cycles[table->insn_code] = table->insn_max_cycles;
+
+      table++;
+    }
+
+  /* Some check: for the page1 opcode, the cycle type of the page2/3/4
+     opcode must be 0.	*/
+  if (page1 && (cycles[M6811_OPCODE_PAGE2] != 0
+		|| cycles[M6811_OPCODE_PAGE3] != 0
+		|| cycles[M6811_OPCODE_PAGE4] != 0))
+      fatal_error (0, "Invalid cycle table");
+
+  /* Generates the cycles table.  */
+  print (fp, 0, "static const unsigned char %s[256] = {\n", name);
+  for (i = 0; i < 256; i++)
+    {
+      if ((i % 16) == 0)
+	{
+	  print (fp, indent_level, "/* %3d */ ", i);
+	}
+      fprintf (fp, "%2d", cycles[i]);
+      if (i != 255)
+	fprintf (fp, ",");
+
+      if ((i % 16) != 15)
+	fprintf (fp, " ");
+      else
+	fprintf (fp, "\n");
+    }
+  print (fp, 0, "};\n\n");
+}
+
+void
+gen_function_entry (FILE *fp, const char *name)
+{
+  /* Generate interpretor entry point.	*/
+  print (fp, 0, "%s (proc)\n", name);
+  print (fp, indent_level, "struct _sim_cpu* proc;");
+  print (fp, indent_level, "{\n");
+
+  /* Interpretor local variables.  */
+  print (fp, indent_level, "unsigned char op;");
+  print (fp, indent_level, "uint16 addr, src16, dst16;");
+  print (fp, indent_level, "uint8 src8, dst8;\n");
+}
+
+void
+gen_function_close (FILE *fp)
+{
+  print (fp, 0, "}\n");
+}
+
+void
+gen_interpreter (FILE *fp)
+{
+  int col = 0;
+
+  /* Generate header of interpretor.  */
+  print (fp, col, "/* File generated automatically by gencode. */\n");
+  print (fp, col, "#include \"sim-main.h\"\n\n");
+
+  gen_cycle_table (fp, "cycles_page1", m6811_page1_opcodes,
+		   TABLE_SIZE (m6811_page1_opcodes));
+  gen_cycle_table (fp, "cycles_page2", m6811_page2_opcodes,
+		   TABLE_SIZE (m6811_page2_opcodes));
+  gen_cycle_table (fp, "cycles_page3", m6811_page3_opcodes,
+		   TABLE_SIZE (m6811_page3_opcodes));
+  gen_cycle_table (fp, "cycles_page4", m6811_page4_opcodes,
+		   TABLE_SIZE (m6811_page4_opcodes));
+
+  /* Generate the page 2, 3 and 4 handlers.  */
+  gen_function_entry (fp, "static void\ncpu_page2_interp");
+  gen_interpreter_for_table (fp, indent_level,
+			     m6811_page2_opcodes,
+			     TABLE_SIZE(m6811_page2_opcodes),
+			     "cycles_page2");
+  gen_function_close (fp);
+  
+  gen_function_entry (fp, "static void\ncpu_page3_interp");
+  gen_interpreter_for_table (fp, indent_level,
+			     m6811_page3_opcodes,
+			     TABLE_SIZE(m6811_page3_opcodes),
+			     "cycles_page3");
+  gen_function_close (fp);
+  
+  gen_function_entry (fp, "static void\ncpu_page4_interp");
+  gen_interpreter_for_table (fp, indent_level,
+			     m6811_page4_opcodes,
+			     TABLE_SIZE(m6811_page4_opcodes),
+			     "cycles_page4");
+  gen_function_close (fp);
+
+  /* Generate the interpretor entry point.  */
+  gen_function_entry (fp, "void\ncpu_interp");
+
+  gen_interpreter_for_table (fp, indent_level, m6811_page1_opcodes,
+			     TABLE_SIZE(m6811_page1_opcodes),
+			     "cycles_page1");
+  gen_function_close (fp);
+}
+
+int
+main (int argc, char *argv[])
+{
+  gen_interpreter (stdout);
+  if (fclose (stdout) != 0)
+    {
+      fprintf (stderr, "Error while generating the interpreter: %d\n",
+	       errno);
+      return 1;
+    }
+  return 0;
+}