V2.3 16-Bit Offsets, New PT, ENTER fix

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System Microcode

This page is actually the source code for the M-1 microcode to be used in the microcode-level simulator, as well as the actual bits to be burned into the proms. It is processed by extracting the text and processing with cpp and a Perl script (see the Software page for more details). The created files are:

	mcode.h - Description of the fields within the microinstruction word.
	mcode.c - An initialized array representing the microcode image.
	mcdefs.h - #defines for microcode fields.
	prombits.h - The initialization declaration for the 512 56-bit microinstruction words.
	prom0.hex .. prom4.hex - Hex images of the slices of the microcode store to be fed into the PROM programmer.
	opcodes.h - Opcode strings.

//=====================================================
// BEGIN mcode.h
/* Define for micro instruction word.  Assume I'll be using 512x8 bipolar
 * PROMs.  This version is quite a bit more compact than previous ones,
 * but at the cost of having addition field decoding logic.  Initial plan
 * is to send these signals across the backplane and do decoding on the
 * appropriate card.
 *
 * Note that the encoding here is getting pretty ugly.  I'm trying hard to
 * keep the microcode store down to 5 PROMS - 16 bits for enable signals, 
 * 16 bits for latch signals and 8 bits for the next field. 
 */

typedef struct {
	unsigned next:8;	// Next micro-op to exec. 0x00 means
				// use output of priority encoder, 0xff
				// means use IR[0..7].  Also a significant
				// bit of !(IR[0..7]==0xff) to give the full
				// 9-bit microcode address.
	unsigned latch:4;	// Register latch signal. Value:
				// 0x0 : none
				// 0x1 : MSW (flag nibble only, from Z)
				// 0x2 : C
				// 0x3 : PC
				// 0x4 : DP
				// 0x5 : SP
				// 0x6 : A
				// 0x7 : B
				// 0x8 : MDR (from Z)
				// 0x9 : PTB
				// 0xa : [A low placeholder]
				// 0xb : [A high placeholder]
				// 0xc : [B low placeholder]
				// 0xd : [C low placeholder]
				// 0xe : [SSP placeholder]
				// 0xf : IR_REG (IR[5..7])
	unsigned lmar:1;	// Latch MAR
	unsigned lmdrlo:1;	// Latch MDR(lo) from dbus
	unsigned lmdrhi:1;	// Latch MDR(hi) from dbus
	unsigned emdrlo:1;	// Drive dbus with MDR(lo)
	unsigned emdrhi:1;	// Drive dbus with MDR(hi)
	unsigned priv:1;	// Priviliged instruction
	unsigned lmode:1;	// Latch (M)ode bit in MSW
	unsigned lpaging:1;	// Latch (P)aging enable bit in MSW
	unsigned misc:4;	// Controls signals which never occur at the
				// same time:
				// 0x0 : none
				// 0x1 : 
				// 0x2 : halt
				// 0x3 : 
				// 0x4 : trap on overflow
				// 0x5 : latch PTE
				// 0x6 : set flags (from alu op)
				// 0x7 : init_inst (clear MDR, PC->TPC, latch IR)
				// 0x8 : right shift alu output
				// 0x9 : DMA acknowledge
				// 0xa : latch MSW[ie] (Interrupt Enable)
				// 0xb : do branch
				// 0xc : latch MSW[in_trap]
				// 0xd : commit state
				// 0xe : 
				// 0xf : 
	unsigned e_l:4;		// Enable L bus
				// 0x0 : MAR
				// 0x1 : MSW
				// 0x2 : C
				// 0x3 : PC
				// 0x4 : DP
				// 0x5 : SP
				// 0x6 : A
				// 0x7 : B
				// 0x8 : MDR
				// 0x9 : PTB
				// 0xa : SSP
				// 0xb : TPC
				// 0xc : 
				// 0xd : 
				// 0xe :
				// 0xf : IR_BASE (4+IR[6..7])
	unsigned e_r:2;		// Enable R bus
				// 0x0 : MDR
				// 0x1 : Immediate
				// 0x2 : Fault code/encoder
				// 0x3 :
	unsigned immval:2;	// Immediate value
				// 0x0 : 0
				// 0x1 : 1
				// 0x2 : -2
				// 0x3 : -1
	unsigned aluop_size:1;	// 0x0 -> 16 bits, 0x1 -> 8 bits
	unsigned aluop:2;	// Which alu operation to perform
				// 0x0 : IR[1..3]
				// 0x1 : AND
				// 0x2 : SUB
				// 0x3 : ADD
	unsigned carry:1;	// 0x0 -> 0, 0x1 -> MSW[c]
	unsigned l_size:1;	// 0x0 -> latch byte, 0x1 -> latch word
	unsigned br_sense:1;	// 0x0 -> don't negate, 0x1 -> negate
				// Non-negated branch conditions are:
				// 	0x0 : eq
				// 	0x1 : eq
				// 	0x2 : lt
				// 	0x3 : le
				// 	0x4 : ltu
				// 	0x5 : leu
				// 	0x6 : eq
				// 	0x7 : ne
	unsigned user_ptb:1;	// User page table base override
	unsigned code_ptb:1;	// 0 to select data region of PTB, 1 for code
} mcode_rec_t;

extern mcode_rec_t mcode_store[512];
// END mcode.h

//=====================================================
// BEGIN mcode.c
//
#include "mcode.h"
mcode_rec_t mcode_store[512] = {
#include "prombits.h"
};

// END mcode.c

//=====================================================
// PREPROCESS prombits.h
// BEGIN mcdefs.h

// Register defines for LATCH() and EL() 
#define	R_MSW	1
#define	R_C	2
#define	R_PC	3
#define	R_DP	4
#define	R_SP	5
#define	R_A	6
#define	R_B	7
#define	R_MDR	8
#define	R_PTB	9
#define	R_SSP	10

// Register defines for LATCH()-only
#define	R_NONE	0
#define	R_IR_REG	15

// Register defines for EL()-only
#define	R_MAR	0
#define	R_TPC	11
#define R_FCODE	12
#define	R_IR_BASE	15

// Register defines for ER()
#define	ER_MDR	0
#define	ER_IMM	1
#define	ER_FAULT	2

// Defines for IMMVAL()
#define	IMM_0	0
#define	IMM_1	1
#define	IMM_NEG1	3
#define	IMM_NEG2	2

// Defines for MISC()
#define	M_NONE	0
#define M_SYSCALL 1
#define	M_HALT	2
#define M_BKPT 3
#define	M_TRAPO	4
#define	M_LPTE	5
#define	M_SET_FLAGS	6
#define	M_INIT_INST	7
#define	M_RSHIFT	8
#define	M_DMA_ACK	9
#define	M_LEI	10
#define	M_DO_BRANCH	11
#define M_CLR_TRAP	12
#define M_COMMIT 13

// Defines for ALUOP(op,size,carry)
#define	OP_IR13	0
#define	OP_AND	1
#define	OP_SUB	2
#define	OP_ADD	3
#define	WORD	0
#define	BYTE	1
#define	LWORD	1
#define	LBYTE	0
#define	NO_CARRY	0
#define	CARRY_IN	1

// Defines for CBR()
#define	B_NORMAL	0
#define	B_NEGATED	1

// END mcdefs.h

#define NEXT_POS	 0
#define LATCH_POS	 1
#define LMAR_POS	 2
#define LMDRLO_POS	 3
#define LMDRHI_POS	 4
#define EMDRLO_POS	 5
#define EMDRHI_POS	 6
#define PRIV_POS	 7
#define LMODE_POS	 8
#define LPAGING_POS	 9
#define MISC_POS	 10
#define E_L_POS		 11
#define E_R_POS		 12
#define IMMVAL_POS	 13
#define ALUOP_SIZE_POS	 14
#define ALUOP_POS	 15
#define CARRY_POS	 16
#define L_SIZE_POS	 17
#define BR_SENSE_POS	 18
#define USER_PTB_POS	 19
#define CODE_PTB_POS	 20

#define NEXT(VAL)	INIT(NEXT_POS,VAL)
#define LATCH(VAL)	INIT(LATCH_POS,VAL)
#define LMAR(VAL)	INIT(LMAR_POS,VAL)
#define LMDRLO(VAL)	INIT(LMDRLO_POS,VAL)
#define LMDRHI(VAL)	INIT(LMDRHI_POS,VAL)
#define EMDRLO(VAL)	INIT(EMDRLO_POS,VAL)
#define EMDRHI(VAL)	INIT(EMDRHI_POS,VAL)
#define PRIV(VAL)	INIT(PRIV_POS,VAL)
#define LMODE(VAL)	INIT(LMODE_POS,VAL)
#define LPAGING(VAL)	INIT(LPAGING_POS,VAL)
#define MISC(VAL)	INIT(MISC_POS,VAL)
#define E_L(VAL)	INIT(E_L_POS,VAL)
#define E_R(VAL)	INIT(E_R_POS,VAL)
#define IMMVAL(VAL)	INIT(IMMVAL_POS,VAL)
#define ALUOP_SIZE(VAL)	INIT(ALUOP_SIZE_POS,VAL)
#define ALUOP(VAL)	INIT(ALUOP_POS,VAL)
#define CARRY(VAL)	INIT(CARRY_POS,VAL)
#define L_SIZE(VAL)	INIT(L_SIZE_POS,VAL)
#define BR_SENSE(VAL)	INIT(BR_SENSE_POS,VAL)
#define USER_PTB(VAL)	INIT(USER_PTB_POS,VAL)
#define CODE_PTB(VAL)	INIT(CODE_PTB_POS,VAL)
#define CODE_SPACE 1
#define DATA_SPACE 0
#define PTB_OVERRIDE 1
#define PTB_NORMAL 0

#define SET_ADR(IS_CODE,IS_USER) LMAR(1),CODE_PTB(IS_CODE),USER_PTB(IS_USER)
#define CODE SET_ADR(CODE_SPACE,PTB_NORMAL)
#define DATA SET_ADR(DATA_SPACE,PTB_NORMAL)

#define CBR(SENSE,TGT)	MISC(M_DO_BRANCH),BR_SENSE(SENSE),NEXT(TGT)
#define L(REG,SIZE)	LATCH(REG),L_SIZE(SIZE)
#define	USE_IR	0xff
#define READLO LMDRLO(1)
#define READHI LMDRHI(1)
#define READEXT LMDRLO(1),LMDRHI(1)
#define WRITELO EMDRLO(1)
#define WRITEHI EMDRHI(1)
#define INC_TO_Z(REG) E_L(REG),E_R(ER_IMM),IMMVAL(IMM_1),ALU(OP_ADD,WORD,NO_CARRY)
#define INC2_TO_Z(REG) E_L(REG),E_R(ER_IMM),IMMVAL(IMM_NEG2),ALU(OP_SUB,WORD,NO_CARRY)
#define DEC_TO_Z(REG) E_L(REG),E_R(ER_IMM),IMMVAL(IMM_NEG1),ALU(OP_ADD,WORD,NO_CARRY)
#define ZERO_TO_Z E_L(R_MDR),E_R(ER_IMM),IMMVAL(IMM_0),ALU(OP_AND,WORD,NO_CARRY)
#define NEG1_TO_Z E_L(R_MDR),E_R(ER_IMM),IMMVAL(IMM_NEG1),ALU(OP_ADD,WORD,NO_CARRY)
#define TO_Z(REG) E_L(REG),E_R(ER_IMM),IMMVAL(IMM_NEG1),ALU(OP_AND,WORD,NO_CARRY)
#define TO_Z8(REG) E_L(REG),E_R(ER_IMM),IMMVAL(IMM_NEG1),ALU(OP_AND,BYTE,NO_CARRY)
#define LDHI READHI,INC_TO_Z(R_MAR),DATA
#define LDLO READLO,TO_Z(R_PC),CODE 
#define STHI WRITEHI,INC_TO_Z(R_MAR),DATA
#define STLO WRITELO,TO_Z(R_PC),CODE
#define LDIMMHI READHI,L(R_PC,LWORD),INC_TO_Z(R_PC),CODE
#define LDIMMLO READLO,L(R_PC,LWORD),INC_TO_Z(R_PC),CODE
#define LDIMMEXT READEXT,L(R_PC,LWORD),INC_TO_Z(R_PC),CODE
#define GEN_ADDR(BASE) E_L(BASE),E_R(ER_MDR),ALU(OP_ADD,WORD,NO_CARRY)
#define COMPARE_0(REG) E_L(REG),E_R(ER_IMM),IMMVAL(IMM_0),ALU(OP_SUB,WORD,NO_CARRY)
#define COMPARE8_0(REG) E_L(REG),E_R(ER_IMM),IMMVAL(IMM_0),ALU(OP_SUB,BYTE,NO_CARRY)
#define ALU(OP,SZ,CRY) ALUOP(OP),ALUOP_SIZE(SZ),CARRY(CRY)
#define FETCH_OP READLO,MISC(M_INIT_INST),INC_TO_Z(R_MAR),L(R_PC,LWORD),CODE,NEXT(UNUSABLE)
#define PUSHLO WRITELO,DEC_TO_Z(R_MAR),DATA
#define PUSHHI WRITEHI,DEC_TO_Z(R_MAR),DATA
#define POPLO READLO,INC_TO_Z(R_MAR),DATA
#define POPHI READHI,INC_TO_Z(R_MAR),DATA
#define TO_MDR(REG) TO_Z(REG),L(R_MDR,LWORD)
#define FROM_MDR(REG) TO_Z(R_MDR),L(REG,LWORD)

Bottom half of PROM - (starting point of each instruction, using opcode as direct index)

0x00	halt	;	MISC(M_HALT),DEC_TO_Z(R_PC),L(R_PC,LWORD),CODE,NEXT(Fetch)
0x01	ld.8 A,#u16_u8_10(SP)	;	LDIMMHI,NEXT(Lda8_16)
0x02	push C	;	TO_Z(R_C),L(R_MDR,LWORD),NEXT(Push16)
0x03	push PC	;	TO_Z(R_TPC),L(R_MDR,LWORD),NEXT(Push16)
0x04	push DP	;	TO_Z(R_DP),L(R_MDR,LWORD),NEXT(Push16)
0x05	ld.8 B,#u16_u8_10(SP)	;	LDIMMHI,NEXT(Ldb8_16)
0x06	push A	;	TO_Z(R_A),L(R_MDR,LWORD),NEXT(Push16)
0x07	push B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Push16)
0x08	br.ne #d16	;	LDIMMHI,NEXT(BrNegated)
0x09	pop MSW	;	TO_Z(R_SP),DATA,NEXT(Pop16)
0x0a	pop C	;	TO_Z(R_SP),DATA,NEXT(Pop16)
0x0b	pop PC	;	TO_Z(R_SP),DATA,NEXT(Pop16)
0x0c	pop DP	;	TO_Z(R_SP),DATA,NEXT(Pop16)
0x0d	pop SP	;	TO_Z(R_SP),DATA,NEXT(Pop16)
0x0e	pop A	;	TO_Z(R_SP),DATA,NEXT(Pop16)
0x0f	pop B	;	TO_Z(R_SP),DATA,NEXT(Pop16)
0x10	ld.8 A,#u16(DP)	;	LDIMMHI,NEXT(Lda8_16)
0x11	ld.8 A,#u8(SP)	;	LDIMMLO,NEXT(Lda8_8)
0x12	ld.8 A,#u16(A)	;	LDIMMHI,NEXT(Lda8_16)
0x13	ld.8 A,#u16(B)	;	LDIMMHI,NEXT(Lda8_16)
0x14	ld.8 B,#u16(DP)	;	LDIMMHI,NEXT(Ldb8_16)
0x15	ld.8 B,#u8(SP)	;	LDIMMLO,NEXT(Ldb8_8)
0x16	ld.8 B,#u16(A)	;	LDIMMHI,NEXT(Ldb8_16)
0x17	ld.8 B,#u16(B)	;	LDIMMHI,NEXT(Ldb8_16)
0x18	ld.16 A,#u16(DP)	;	LDIMMHI,NEXT(Lda16_16)
0x19	ld.16 A,#u16_u8_68(SP)	;	LDIMMHI,NEXT(Lda16_16)
0x1a	ld.16 A,#u16(A)	;	LDIMMHI,NEXT(Lda16_16)
0x1b	ld.16 A,#u16(B)	;	LDIMMHI,NEXT(Lda16_16)
0x1c	ld.16 B,#u16(DP)	;	LDIMMHI,NEXT(Ldb16_16)
0x1d	ld.16 B,#u16_u8_68(SP)	;	LDIMMHI,NEXT(Ldb16_16)
0x1e	ld.16 B,#u16(A)	;	LDIMMHI,NEXT(Ldb16_16)
0x1f	ld.16 B,#u16(B)	;	LDIMMHI,NEXT(Ldb16_16)
0x20	sub.8 A,#u16(DP)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x21	sub.8 A,#u16(SP)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x22	push MSW	;	TO_Z(R_MSW),L(R_MDR,LWORD),NEXT(Push16)
0x23	sub.8 A,#u16(B)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x24	sub.8 A,#i8_1	;	LDIMMLO,NEXT(Aluop8)
0x25	sub.16 (--A),(--B)	;	DEC_TO_Z(R_A),DATA,NEXT(Mop16)
0x26	push SP	;	TO_Z(R_SP),L(R_MDR,LWORD),NEXT(Push16)
0x27	sub.8 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Aluop8)
0x28	sub.16 A,#u16(DP)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x29	sub.16 A,#u16(SP)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x2a	sbc.16 (--A),(--B)	;	DEC_TO_Z(R_A),DATA,NEXT(Mop16Carry)
0x2b	sub.16 A,#u16(B)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x2c	sub.16 A,#i16_exti8	;	LDIMMHI,NEXT(Aluop16_16)
0x2d	sub.16 A,#exti8	;	LDIMMEXT,NEXT(Aluop16)
0x2e	wcpte A,(B)	;	PRIV(1),TO_Z(R_B),SET_ADR(CODE_SPACE,PTB_OVERRIDE),NEXT(Wcpte)
0x2f	sub.16 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Aluop16)
0x30	add.8 A,#u16(DP)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x31	add.8 A,#u16(SP)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x32	br A	;	TO_Z(R_A),L(R_PC,LWORD),CODE,NEXT(Fetch)
0x33	add.8 A,#u16(B)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x34	add.8 A,#i8_1	;	LDIMMLO,NEXT(Aluop8)
0x35	add.16 (--A),(--B)	;	DEC_TO_Z(R_A),DATA,NEXT(Mop16)
0x36	add.8 A,A	;	TO_Z(R_A),L(R_MDR,LWORD),NEXT(Aluop8)
0x37	add.8 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Aluop8)
0x38	add.16 A,#u16(DP)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x39	add.16 A,#u16(SP)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x3a	syscall #sys_num8	;	LDIMMLO,NEXT(Syscall)
0x3b	add.16 A,#u16(B)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x3c	add.16 A,#i16_exti8	;	LDIMMHI,NEXT(Aluop16_16)
0x3d	add.16 A,#exti8	;	LDIMMEXT,NEXT(Aluop16)
0x3e	add.16 A,A	;	TO_Z(R_A),L(R_MDR,LWORD),NEXT(Aluop16)
0x3f	add.16 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Aluop16)
0x40	cmp.8 A,#u16(DP)	;	LDIMMHI,NEXT(Cmp8_indir16)
0x41	cmp.8 A,#u16(SP)	;	LDIMMHI,NEXT(Cmp8_indir16)
0x42	copy C,B	;	TO_Z(R_B),L(R_C,LWORD),NEXT(Fetch)
0x43	cmp.8 A,#u16(B)	;	LDIMMHI,NEXT(Cmp8_indir16)
0x44	cmp.8 A,#i8_0	;	LDIMMLO,NEXT(Cmp8)
0x45	cmp.8 A,#0	;	E_L(R_A),E_R(ER_MDR),ALU(OP_SUB,BYTE,NO_CARRY),MISC(M_SET_FLAGS),NEXT(Fetch)
0x46	xor.16 A,A	;	TO_Z(R_A),L(R_MDR,LWORD),NEXT(Aluop16)
0x47	cmp.8 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Cmp8)
0x48	cmp.16 A,#u16(DP)	;	LDIMMHI,NEXT(Cmp16_indir16)
0x49	cmp.16 A,#u16(SP)	;	LDIMMHI,NEXT(Cmp16_indir16)
0x4a	sh0add B,A,B	;	TO_Z(R_A),L(R_MDR,LWORD),NEXT(LeaB1)
0x4b	cmp.16 A,#u16(B)	;	LDIMMHI,NEXT(Cmp16_indir16)
0x4c	cmp.16 A,#i16_exti8_0	;	LDIMMHI,NEXT(Cmp16_16)
0x4d	cmp.16 A,#exti8_0	;	LDIMMEXT,NEXT(Cmp16)
0x4e	cmp.16 A,#0	;	E_L(R_A),E_R(ER_MDR),ALU(OP_SUB,WORD,NO_CARRY),MISC(M_SET_FLAGS),NEXT(Fetch)
0x4f	cmp.16 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Cmp16)
0x50	or.8 A,#u16(DP)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x51	or.8 A,#u16(SP)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x52	sex A	;	TO_Z8(R_A),L(R_A,LWORD),NEXT(Fetch)
0x53	or.8 A,#u16(B)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x54	or.8 A,#i8_1	;	LDIMMLO,NEXT(Aluop8)
0x55	or.16 (--A),(--B)	;	DEC_TO_Z(R_A),DATA,NEXT(Mop16)
0x56	br.leu #d16	;	LDIMMHI,NEXT(BrNormal)
0x57	or.8 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Aluop8)
0x58	or.16 A,#u16(DP)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x59	or.16 A,#u16(SP)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x5a	sh1add A,B,A	;	TO_Z(R_A),L(R_MDR,LWORD),NEXT(LeaABA2)
0x5b	or.16 A,#u16(B)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x5c	or.16 A,#i16_exti8	;	LDIMMHI,NEXT(Aluop16_16)
0x5d	or.16 A,#exti8	;	LDIMMEXT,NEXT(Aluop16)
0x5e	br.gtu #d16	;	LDIMMHI,NEXT(BrNegated)
0x5f	or.16 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Aluop16)
0x60	and.8 A,#u16(DP)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x61	and.8 A,#u16(SP)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x62	sh1add B,A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(LeaBAB2)
0x63	and.8 A,#u16(B)	;	LDIMMHI,NEXT(Aluop8_indir16)
0x64	and.8 A,#i8_1	;	LDIMMLO,NEXT(Aluop8)
0x65	and.16 (--A),(--B)	;	DEC_TO_Z(R_A),DATA,NEXT(Mop16)
0x66	nop	;	NEXT(Fetch)
0x67	and.8 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Aluop8)
0x68	and.16 A,#u16(DP)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x69	and.16 A,#u16(SP)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x6a	sh1add B,B,A	;	TO_Z(R_A),L(R_MDR,LWORD),NEXT(LeaBBA2)
0x6b	and.16 A,#u16(B)	;	LDIMMHI,NEXT(Aluop16_indir16)
0x6c	and.16 A,#i16_exti8	;	LDIMMHI,NEXT(Aluop16_16)
0x6d	and.16 A,#exti8	;	LDIMMEXT,NEXT(Aluop16)
0x6e	strcopy	;	TO_Z(R_B),DATA,NEXT(Strcopy)
0x6f	and.16 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Aluop16)
0x70	lea A,#u16(DP)	;	LDIMMHI,NEXT(LdaA_16)
0x71	lea A,#u16(SP)	;	LDIMMHI,NEXT(LdaA_16)
0x72	lea A,#u16(A)	;	LDIMMHI,NEXT(LdaA_16)
0x73	lea A,#u16(B)	;	LDIMMHI,NEXT(LdaA_16)
0x74	lea B,#u16(DP)	;	LDIMMHI,NEXT(LdaB_16)
0x75	lea B,#u16(SP)	;	LDIMMHI,NEXT(LdaB_16)
0x76	lea B,#u16(A)	;	LDIMMHI,NEXT(LdaB_16)
0x77	lea B,#u16(B)	;	LDIMMHI,NEXT(LdaB_16)
0x78	ld.8 A,#u8	;	LDIMMLO,NEXT(LdiA8)
0x79	ld.8 B,#u8	;	LDIMMLO,NEXT(LdiB8)
0x7a	ld.16 A,#exti8_u16	;	LDIMMEXT,NEXT(LdiA16)
0x7b	ld.16 B,#exti8_u16	;	LDIMMEXT,NEXT(LdiB16)
0x7c	ld.16 A,#u16	;	LDIMMHI,NEXT(LdiA16_lo)
0x7d	ld.16 B,#u16	;	LDIMMHI,NEXT(LdiB16_lo)
0x7e	adc.16 A,A	;	TO_Z(R_A),L(R_MDR,LWORD),NEXT(Adc16)
0x7f	adc.16 A,B	;	TO_Z(R_B),L(R_MDR,LWORD),NEXT(Adc16)
0x80	call #d16	;	LDIMMHI,NEXT(CallImm)
0x81	ld.16 A,#u8(SP)	;	LDIMMLO,NEXT(Lda16_8)
0x82	call A	;	TO_Z(R_PC),L(R_MDR,LWORD),NEXT(CallA)
0x83	br #d16_d8	;	LDIMMHI,NEXT(RelBrLo)
0x84	sbr #d8	;	LDIMMEXT,NEXT(RelBr)
0x85	ld.16 B,#u8(SP)	;	LDIMMLO,NEXT(Ldb16_8)
0x86	lea A,#u8(SP)	;	LDIMMLO,NEXT(LeaShort)
0x87	lea B,#u8(SP)	;	LDIMMLO,NEXT(LeaShort)
0x88	copy A,MSW	;	TO_Z(R_MSW),L(R_A,LWORD),NEXT(Fetch)
0x89	br.eq #d16	;	LDIMMHI,NEXT(BrNormal)
0x8a	reti	;	PRIV(1),NEXT(Reti)
0x8b	trapo	;	MISC(M_TRAPO),NEXT(Fetch)
0x8c	bset.8 A,#mask8,#d8	;	LDIMMLO,NEXT(Bset8)
0x8d	bclr.8 A,#mask8,#d8	;	LDIMMLO,NEXT(Bclr8)
0x8e	bset.16 A,#mask16,#d8	;	LDIMMHI,NEXT(Bset16)
0x8f	bclr.16 A,#mask16,#d8	;	LDIMMHI,NEXT(Bclr16)
0x90	cmpb.eq.8 A,#u16(DP),#d8	;	LDIMMHI,NEXT(Cmpb8_indir16)
0x91	cmpb.eq.8 A,#u16(SP),#d8	;	LDIMMHI,NEXT(Cmpb8_indir16)
0x92	copy B,A	;	TO_Z(R_A),L(R_B,LWORD),NEXT(Fetch)
0x93	cmpb.eq.8 A,#u16(B),#d8	;	LDIMMHI,NEXT(Cmpb8_indir16)
0x94	cmpb.eq.8 A,#i8_0,#d8	;	LDIMMLO,NEXT(Cmpb8)
0x95