22 files changed, 975 insertions, 856 deletions
diff --git a/asmmon.c b/asmmon.c
index 1ad8d98..ce78f5b 100644
--- a/asmmon.c
+++ b/asmmon.c
@@ -64,15 +64,15 @@ void usage() {
 	puts("\thelp, h\t\t\tDisplays this mesage.");
 }
 
-void instinfo(const char *inst) {
+void instinfo(const char *instr) {
 	for(int i = 0; i < OPNUM; i++) {
-		if (inst[0] == mne[i][0]) {
-			if (!strcasecmp(inst, mne[i])) {
+		if (instr[0] == mne[i][0]) {
+			if (!strcasecmp(instr, mne[i])) {
 				printf("%s\t%s\n", mne[i], instdesc[i]);
 				break;
 			}
-		} else if (inst[0] == 'a') {
-			if (!strcasecmp(inst, "all")) {
+		} else if (instr[0] == 'a') {
+			if (!strcasecmp(instr, "all")) {
 				printf("%s\t%s\n", mne[i], instdesc[i]);
 			}
 		}
@@ -174,6 +174,7 @@ void list(uint16_t start, uint16_t end, uint8_t all, uint8_t ln, uint8_t addr, u
 						case IND :
 						case INDX:
 						case INDY: putchar('('); break;
+						case BREG: putchar('b'); break;
 					}
 					break;
 				case TOK_OF:
diff --git a/asmmon.h b/asmmon.h
index 29924e9..c77cfcf 100644
--- a/asmmon.h
+++ b/asmmon.h
@@ -4,10 +4,12 @@
 
 #define MAX_TOK 0x1000
 
-typedef struct tok token ;
-typedef struct ln  line  ;
-typedef struct sym symbol;
-typedef struct fix fixup ;
+typedef struct tok  token      ;
+typedef struct ln   line       ;
+typedef struct sym  symbol     ;
+typedef struct fix  fixup      ;
+typedef struct inst instruction;
+
 
 struct tok {
 	token *next;	/* Pointer to the next token. */
@@ -56,6 +58,12 @@ struct sym {
 	uint16_t id;
 };
 
+struct inst {
+	uint16_t am;	/* Addressing modes. */
+	uint8_t op;	/* Base value used to get the actual opcode. */
+};
+
+
 extern char lexeme[];
 extern char *string[];
 extern char *comment[];
@@ -94,6 +102,7 @@ enum token {
 	TOK_CHAR,
 	TOK_IND,
 	TOK_IMM,
+	TOK_BREG,
 	TOK_OPCODE,
 	TOK_RS,
 	TOK_OF,
@@ -116,6 +125,7 @@ enum pre_token {
 	PTOK_LBRACK,
 	PTOK_RBRACK,
 	PTOK_COMMA,
+	PTOK_B,
 	PTOK_X,
 	PTOK_Y,
 	PTOK_S,
@@ -139,95 +149,143 @@ enum expr {
 	EXPR_NONE
 };
 
-static const uint8_t opcodes[OPNUM][10] = {
-	/*	  IMM	 ZM   ZMX   ZMY   IND  INDX  INDY   ABS   REL  IMPL*/
-	[AAB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x02}, /* AAB */
-	[ABA] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x22}, /* ABA */
-	[ADC] = {0x01, 0x06, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x04, 0xFF, 0xFF}, /* ADC */
-	[AND] = {0x21, 0x26, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x24, 0xFF, 0xFF}, /* AND */
-	[ARB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xF2}, /* ARB */
-	[ASR] = {0xF1, 0xF6, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xF4, 0xFF, 0xFF}, /* ASR */
-	[BCC] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x80, 0xFF}, /* BCC */
-	[BCS] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x70, 0xFF}, /* BCS */
-	[BEQ] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x90, 0xFF}, /* BEQ */
-	[BNE] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xA0, 0xFF}, /* BNE */
-	[BNG] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x60, 0xFF}, /* BNG */
-	[BPO] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x50, 0xFF}, /* BPO */
-	[BRA] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xD0, 0xFF}, /* BRA */
-	[BRK] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x68}, /* BRK */
-	[BVC] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xC0, 0xFF}, /* BVC */
-	[BVS] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xB0, 0xFF}, /* BVS */
-	[CAB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xB2}, /* CAB */
-	[CLC] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x08}, /* CLC */
-	[CLI] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x28}, /* CLI */
-	[CLV] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x48}, /* CLV */
-	[CMP] = {0xB1, 0xB6, 0xFF, 0xFF, 0x25, 0x7D, 0x7C, 0xB4, 0xFF, 0xFF}, /* CMP */
-	[CPB] = {0x2A, 0x2D, 0xFF, 0xFF, 0x55, 0xAD, 0xAC, 0x2C, 0xFF, 0xFF}, /* CPB */
-	[CPS] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x00}, /* CPS */
-	[CPX] = {0x3A, 0x3D, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x3C, 0xFF, 0xFF}, /* CPX */
-	[CPY] = {0x4A, 0x4D, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x4C, 0xFF, 0xFF}, /* CPY */
-	[DAB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xA2}, /* DAB */
-	[DEB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xC2}, /* DEB */
-	[DEC] = {0xFF, 0x0D, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x0C, 0xFF, 0x0A}, /* DEC */
-	[DEX] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x09}, /* DEX */
-	[DEY] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x29}, /* DEY */
-	[DIV] = {0xA1, 0xA6, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xA4, 0xFF, 0xFF}, /* DIV */
-	[INB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xD2}, /* INB */
-	[INC] = {0xFF, 0x1D, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x1C, 0xFF, 0x1A}, /* INC */
-	[INX] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x19}, /* INX */
-	[INY] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x39}, /* INY */
-	[JMP] = {0xFF, 0x30, 0xFF, 0xFF, 0xB5, 0xFF, 0xFF, 0x10, 0xFF, 0xFF}, /* JMP */
-	[JSR] = {0xFF, 0x40, 0xFF, 0xFF, 0xA5, 0xFF, 0xFF, 0x20, 0xFF, 0xFF}, /* JSR */
-	[LDA] = {0xC1, 0xC6, 0xB8, 0x78, 0x05, 0x5D, 0x5C, 0xC4, 0xFF, 0xFF}, /* LDA */
-	[LDB] = {0xD1, 0xD6, 0xD8, 0x98, 0x35, 0x8D, 0x8C, 0xD4, 0xFF, 0xFF}, /* LDB */
-	[LDX] = {0xB9, 0xBD, 0xFF, 0xFF, 0x85, 0xFF, 0xFF, 0xBC, 0xFF, 0xFF}, /* LDX */
-	[LDY] = {0xE1, 0xE6, 0xFF, 0xFF, 0x65, 0xFF, 0xFF, 0xE4, 0xFF, 0xFF}, /* LDY */
-	[LLB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x52}, /* LLB */
-	[LRB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x62}, /* LRB */
-	[LSL] = {0x51, 0x56, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x54, 0xFF, 0xFF}, /* LSL */
-	[LSR] = {0x61, 0x66, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x64, 0xFF, 0xFF}, /* LSR */
-	[MAB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x92}, /* MAB */
-	[MUL] = {0x91, 0x96, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x94, 0xFF, 0xFF}, /* MUL */
-	[NOP] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xEA}, /* NOP */
-	[OAB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x32}, /* OAB */
-	[ORA] = {0x31, 0x36, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x34, 0xFF, 0xFF}, /* ORA */
-	[PHA] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x79}, /* PHA */
-	[PHB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x99}, /* PHB */
-	[PHP] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x59}, /* PHP */
-	[PHX] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xE9}, /* PHX */
-	[PHY] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xC9}, /* PHY */
-	[PLA] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x89}, /* PLA */
-	[PLB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xA9}, /* PLB */
-	[PLP] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x69}, /* PLP */
-	[PLX] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xF9}, /* PLX */
-	[PLY] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xD9}, /* PLY */
-	[RLB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x72}, /* RLB */
-	[ROL] = {0x71, 0x76, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x74, 0xFF, 0xFF}, /* ROL */
-	[ROR] = {0x81, 0x86, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x84, 0xFF, 0xFF}, /* ROR */
-	[RRB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x82}, /* RRB */
-	[RTI] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xF0}, /* RTI */
-	[RTS] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xE0}, /* RTS */
-	[SAB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x12}, /* SAB */
-	[SBC] = {0x11, 0x16, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x14, 0xFF, 0xFF}, /* SBC */
-	[SEC] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x18}, /* SEC */
-	[SEI] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x38}, /* SEI */
-	[STA] = {0xFF, 0xCD, 0xC8, 0x88, 0x15, 0x6D, 0x6C, 0xCC, 0xFF, 0xFF}, /* STA */
-	[STB] = {0xFF, 0xDD, 0xE8, 0xA8, 0x45, 0x9D, 0x9C, 0xDC, 0xFF, 0xFF}, /* STB */
-	[STX] = {0xFF, 0xFD, 0xFF, 0xFF, 0x95, 0xFF, 0xFF, 0xFC, 0xFF, 0xFF}, /* STX */
-	[STY] = {0xFF, 0xED, 0xFF, 0xFF, 0x75, 0xFF, 0xFF, 0xEC, 0xFF, 0xFF}, /* STY */
-	[TAB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x5A}, /* TAB */
-	[TAX] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x9A}, /* TAX */
-	[TAY] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x7A}, /* TAY */
-	[TBA] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x6A}, /* TBA */
-	[TSX] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xDA}, /* TSX */
-	[TXA] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xAA}, /* TXA */
-	[TXS] = {0xFA, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}, /* TXS */
-	[TXY] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xCA}, /* TXY */
-	[TYA] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x8A}, /* TYA */
-	[TYX] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xBA}, /* TYX */
-	[WAI] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x58}, /* WAI */
-	[XAB] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x42}, /* XAB */
-	[XOR] = {0x41, 0x46, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0x44, 0xFF, 0xFF}  /* XOR */
+enum addrmode {
+	AM_IMM    = (1 <<  0),
+	AM_ZM     = (1 <<  1),
+	AM_ZMX    = (1 <<  2),
+	AM_ZMY    = (1 <<  3),
+	AM_IND    = (1 <<  4),
+	AM_INDX   = (1 <<  5),
+	AM_INDY   = (1 <<  6),
+	AM_ABS    = (1 <<  7),
+	AM_REL    = (1 <<  8),
+	AM_BREG   = (1 <<  9),
+	AM_IMPL   = (1 << 10),
+	AM_INDX2  = (1 << 11),
+	AM_ZM2    = (1 << 12)
+};
+
+enum ind {
+	CMP_IND =  0,
+	CMP_IDY =  1,
+	CMP_IDX =  2,
+	CPB_IND =  3,
+	CPB_IDY =  4,
+	CPB_IDX =  5,
+	JMP_IND =  6,
+	JSR_IND =  7,
+	LDA_IND =  8,
+	LDA_IDY =  9,
+	LDB_IND = 10,
+	LDB_IDY = 11,
+	LDX_IND = 12,
+	LDY_IND = 13,
+	STA_IND = 14,
+	STA_IDY = 15,
+	STB_IND = 16,
+	STB_IDY = 17,
+	STX_IND = 18,
+	STY_IND = 19
+};
+
+static const uint8_t ind_ops[20] = {
+	[CMP_IND] = 0x8C,
+	[CMP_IDY] = 0xF9,
+	[CMP_IDX] = 0xAA,
+	[CPB_IND] = 0x7C,
+	[CPB_IDY] = 0xFA,
+	[CPB_IDX] = 0xBA,
+	[JMP_IND] = 0xEC,
+	[JSR_IND] = 0xDC,
+	[LDA_IND] = 0xC4,
+	[LDA_IDY] = 0xD9,
+	[LDB_IND] = 0xE4,
+	[LDB_IDY] = 0xE9,
+	[LDX_IND] = 0xBC,
+	[LDY_IND] = 0xAC,
+	[STA_IND] = 0xD4,
+	[STA_IDY] = 0xCA,
+	[STB_IND] = 0xF4,
+	[STB_IDY] = 0xDA,
+	[STX_IND] = 0xCC,
+	[STY_IND] = 0x9C
+};
+
+static const instruction inst[OPNUM] = {
+	[ADC] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x01},
+	[AND] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x41},
+	[ASR] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x62},
+	[BCC] = {(AM_REL), 0xA0},
+	[BCS] = {(AM_REL), 0x90},
+	[BEQ] = {(AM_REL), 0xB0},
+	[BNE] = {(AM_REL), 0xC0},
+	[BNG] = {(AM_REL), 0x80},
+	[BPO] = {(AM_REL), 0x70},
+	[BRA] = {(AM_REL), 0xF0},
+	[BRK] = {(AM_IMPL), 0x69},
+	[BVC] = {(AM_REL), 0xE0},
+	[BVS] = {(AM_REL), 0xD0},
+	[CLC] = {(AM_IMPL), 0x09},
+	[CLI] = {(AM_IMPL), 0x29},
+	[CLV] = {(AM_IMPL), 0x49},
+	[CMP] = {(AM_IMM|AM_ZM|AM_IND|AM_INDY|AM_ABS|AM_BREG|AM_INDX2), 0x82},
+	[CPB] = {(AM_IMM|AM_ZM|AM_IND|AM_INDY|AM_ABS|AM_INDX2), 0x04},
+	[CPS] = {(AM_IMPL), 0x00},
+	[CPX] = {(AM_IMM|AM_ZM|AM_IND|AM_ABS), 0x24},
+	[CPY] = {(AM_IMM|AM_ZM|AM_IND|AM_ABS), 0x44},
+	[DEB] = {(AM_IMPL), 0x99},
+	[DEC] = {(AM_IMPL|AM_ZM|AM_ABS), 0x84},
+	[DEX] = {(AM_IMPL), 0xB9},
+	[DEY] = {(AM_IMPL), 0x79},
+	[DIV] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x42},
+	[INB] = {(AM_IMPL), 0xA9},
+	[INC] = {(AM_IMPL|AM_ZM|AM_ABS), 0xA4},
+	[INX] = {(AM_IMPL), 0xC9},
+	[INY] = {(AM_IMPL), 0x89},
+	[JMP] = {(AM_ABS|AM_IND|AM_ZM2), 0x00},
+	[JSR] = {(AM_ABS|AM_IND|AM_ZM2), 0x20},
+	[LDA] = {(AM_IMM|AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS), 0xC2},
+	[LDB] = {(AM_IMM|AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS), 0xE2},
+	[LDX] = {(AM_IMM|AM_ZM|AM_IND|AM_ABS), 0x64},
+	[LDY] = {(AM_IMM|AM_ZM|AM_IND|AM_ABS), 0xA2},
+	[LSL] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0xA1},
+	[LSR] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0xC1},
+	[MUL] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x22},
+	[NOP] = {(AM_IMPL), 0xEA},
+	[ORA] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x61},
+	[PHA] = {(AM_IMPL), 0x8E},
+	[PHB] = {(AM_IMPL), 0xAE},
+	[PHP] = {(AM_IMPL), 0x6E},
+	[PHX] = {(AM_IMPL), 0xEE},
+	[PHY] = {(AM_IMPL), 0xCE},
+	[PLA] = {(AM_IMPL), 0x9E},
+	[PLB] = {(AM_IMPL), 0xBE},
+	[PLP] = {(AM_IMPL), 0x7E},
+	[PLX] = {(AM_IMPL), 0xFE},
+	[PLY] = {(AM_IMPL), 0xDE},
+	[ROL] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0xE1},
+	[ROR] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x02},
+	[RTI] = {(AM_IMPL), 0x60},
+	[RTS] = {(AM_IMPL), 0x50},
+	[SBC] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x21},
+	[SEC] = {(AM_IMPL), 0x19},
+	[SEI] = {(AM_IMPL), 0x39},
+	[STA] = {(AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS), 0x28},
+	[STB] = {(AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS), 0x48},
+	[STX] = {(AM_ZM|AM_IND|AM_ABS), 0x68},
+	[STY] = {(AM_ZM|AM_IND|AM_ABS), 0x08},
+	[TAB] = {(AM_IMPL), 0x0A},
+	[TAX] = {(AM_IMPL), 0x4A},
+	[TAY] = {(AM_IMPL), 0x2A},
+	[TBA] = {(AM_IMPL), 0x1A},
+	[TSX] = {(AM_IMPL), 0x8A},
+	[TXA] = {(AM_IMPL), 0x5A},
+	[TXS] = {(AM_IMPL|AM_IMM), 0x9A},
+	[TXY] = {(AM_IMPL), 0x7A},
+	[TYA] = {(AM_IMPL), 0x3A},
+	[TYX] = {(AM_IMPL), 0x6A},
+	[WAI] = {(AM_IMPL), 0x59},
+	[XOR] = {(AM_IMM|AM_ZM|AM_ABS|AM_BREG), 0x81}
 };
 
 static const char *dir_t[7] = {
@@ -247,7 +305,7 @@ static const char *rs_t[4] = {
 	[3] = ".q"
 };
 
-static const char *lex_tok[18] = {
+static const char *lex_tok[19] = {
 	[TOK_DIR    ] = "TOK_DIR",
 	[TOK_LOCAL  ] = "TOK_LOCAL",
 	[TOK_LABEL  ] = "TOK_LABEL",
@@ -258,6 +316,7 @@ static const char *lex_tok[18] = {
 	[TOK_CHAR   ] = "TOK_CHAR",
 	[TOK_IND    ] = "TOK_IND",
 	[TOK_IMM    ] = "TOK_IMM",
+	[TOK_BREG   ] = "TOK_BREG",
 	[TOK_OPCODE ] = "TOK_OPCODE",
 	[TOK_RS     ] = "TOK_RS",
 	[TOK_OF     ] = "TOK_OF",
@@ -268,7 +327,7 @@ static const char *lex_tok[18] = {
 	[TOK_INCLUDE] = "TOK_INCLUDE"
 };
 
-static const char *adrmode[10] = {
+static const char *adrmode[11] = {
 	[IMM ] = "IMM",
 	[ZM  ] = "ZM",
 	[ZMX ] = "ZMX",
@@ -278,15 +337,13 @@ static const char *adrmode[10] = {
 	[INDY] = "INDY",
 	[ABS ] = "ABS",
 	[REL ] = "REL",
+	[BREG] = "BREG",
 	[IMPL] = "IMPL"
 };
 
 static const char *mne[OPNUM] = {
-	[AAB] = "AAB",
-	[ABA] = "ABA",
 	[ADC] = "ADC",
 	[AND] = "AND",
-	[ARB] = "ARB",
 	[ASR] = "ASR",
 	[BCC] = "BCC",
 	[BCS] = "BCS",
@@ -298,7 +355,6 @@ static const char *mne[OPNUM] = {
 	[BRK] = "BRK",
 	[BVC] = "BVC",
 	[BVS] = "BVS",
-	[CAB] = "CAB",
 	[CLC] = "CLC",
 	[CLI] = "CLI",
 	[CLV] = "CLV",
@@ -307,7 +363,6 @@ static const char *mne[OPNUM] = {
 	[CPS] = "CPS",
 	[CPX] = "CPX",
 	[CPY] = "CPY",
-	[DAB] = "DAB",
 	[DEB] = "DEB",
 	[DEC] = "DEC",
 	[DEX] = "DEX",
@@ -323,14 +378,10 @@ static const char *mne[OPNUM] = {
 	[LDB] = "LDB",
 	[LDX] = "LDX",
 	[LDY] = "LDY",
-	[LLB] = "LLB",
-	[LRB] = "LRB",
 	[LSL] = "LSL",
 	[LSR] = "LSR",
-	[MAB] = "MAB",
 	[MUL] = "MUL",
 	[NOP] = "NOP",
-	[OAB] = "OAB",
 	[ORA] = "ORA",
 	[PHA] = "PHA",
 	[PHB] = "PHB",
@@ -342,13 +393,10 @@ static const char *mne[OPNUM] = {
 	[PLP] = "PLP",
 	[PLX] = "PLX",
 	[PLY] = "PLY",
-	[RLB] = "RLB",
 	[ROL] = "ROL",
 	[ROR] = "ROR",
-	[RRB] = "RRB",
 	[RTI] = "RTI",
 	[RTS] = "RTS",
-	[SAB] = "SAB",
 	[SBC] = "SBC",
 	[SEC] = "SEC",
 	[SEI] = "SEI",
@@ -367,16 +415,12 @@ static const char *mne[OPNUM] = {
 	[TYA] = "TYA",
 	[TYX] = "TYX",
 	[WAI] = "WAI",
-	[XAB] = "XAB",
 	[XOR] = "XOR"
 };
 
 static const char *instdesc[OPNUM] = {
-	[AAB] = "Add Accumulator, with B, carry if needed.",
-	[ABA] = "Bitwise AND Accumulator, with B.",
 	[ADC] = "ADd accumulator, with operand, Carry if needed.",
 	[AND] = "Bitwise AND accumulator, with operand.",
-	[ARB] = "Arithmetic shift Right accumulator, with B.",
 	[ASR] = "Arithmetic Shift Right accumulator, with operand.",
 	[BCC] = "Branch if the Carry flag has been Cleared.",
 	[BCS] = "Branch if the Carry flag is Set.",
@@ -388,7 +432,6 @@ static const char *instdesc[OPNUM] = {
 	[BRK] = "BReaKpoint",
 	[BVC] = "Branch if the oVerflow flag has been Cleared.",
 	[BVS] = "Branch if the oVerflow flag is Set.",
-	[CAB] = "Compare Accumulator, with B.",
 	[CLC] = "CLear the Carry flag.",
 	[CLI] = "CLear the Interrupt flag.",
 	[CLV] = "CLear the oVerflow flag.",
@@ -397,7 +440,6 @@ static const char *instdesc[OPNUM] = {
 	[CPS] = "Clears the Processor Status register.",
 	[CPX] = "ComPare the X register, with operand.",
 	[CPY] = "ComPare the Y register, with operand.",
-	[DAB] = "Divide Accumulator, with B, and put the remainder into the X register.",
 	[DEB] = "DEcrement the B register.",
 	[DEC] = "DECrement accumulator, or memory.",
 	[DEX] = "DEcrement the X register.",
@@ -413,14 +455,10 @@ static const char *instdesc[OPNUM] = {
 	[LDB] = "LoaD the value from the operand, to the B register.",
 	[LDX] = "LoaD the value from the operand, to the X register.",
 	[LDY] = "LoaD the value from the operand, to the Y register.",
-	[LLB] = "Logical Shift Left accumulator, with B.",
-	[LRB] = "Logical Shift Right accumulator, with B.",
 	[LSL] = "Logical Shift Left accumulator, with operand.",
 	[LSR] = "Logical Shift Right accumulator, with operand.",
-	[MAB] = "Multiply Accumulator, with B.",
 	[MUL] = "MULtiply accumulator, with operand.",
 	[NOP] = "NO oPeration",
-	[OAB] = "Bitwise OR Accumulator, with B.",
 	[ORA] = "Bitwise OR Accumulator, with operand.",
 	[PHA] = "PusH the number of bytes specified, from the Accumulator to the stack.",
 	[PHB] = "PusH the number of bytes specified, from the B register to the stack.",
@@ -432,13 +470,10 @@ static const char *instdesc[OPNUM] = {
 	[PLP] = "PuLl the number of bytes specified, from the stack, to the Processor status register.",
 	[PLX] = "PuLl the number of bytes specified, from the stack, to the X register.",
 	[PLY] = "PuLl the number of bytes specified, from the stack, to the Y register.",
-	[RLB] = "Rotate Left accumulator, with B.",
 	[ROL] = "ROtate Left accumulator, with operand.",
 	[ROR] = "ROtate Right accumulator, with operand.",
-	[RRB] = "Rotate Right accumulator, with B.",
 	[RTI] = "ReTurn from an Interrupt.",
 	[RTS] = "ReTurn from a Subroutine.",
-	[SAB] = "Subtract Accumulator, with B, carry if needed.",
 	[SBC] = "SuBtract accumulator, with operand, Carry if needed",
 	[SEC] = "SEt the Carry flag.",
 	[SEI] = "SEt the Interrupt flag.",
@@ -457,7 +492,6 @@ static const char *instdesc[OPNUM] = {
 	[TYA] = "Transfer the value from the Y register, to the Accumulator.",
 	[TYX] = "Transfer the value from the Y register, to the X register.",
 	[WAI] = "WAIt for an interrupt",
-	[XAB] = "Bitwise XOR Accumulator, with B.",
 	[XOR] = "Bitwise XOR Accumulator, with operand."
 };
 
diff --git a/assemble.c b/assemble.c
index 8100485..ed56cc8 100644
--- a/assemble.c
+++ b/assemble.c
@@ -14,7 +14,7 @@ uint8_t isexpr(uint8_t type, uint8_t dbg) {
 	}
 }
 
-uint8_t get_rs(token *t, uint8_t inst, uint8_t dbg) {
+uint8_t get_rs(token *t, uint8_t dbg) {
 	if (t->id == TOK_RS) {
 		return t->type;
 	} else {
@@ -30,6 +30,31 @@ uint8_t get_of(token *t, uint8_t dbg) {
 	}
 }
 
+uint8_t get_ind(uint8_t mne, uint8_t am, uint8_t dbg) {
+	uint8_t base_idx = 0;
+	uint8_t offset = 0;
+	switch (mne) {
+		case CMP: base_idx = CMP_IND; break;
+		case CPB: base_idx = CPB_IND; break;
+		case JMP: base_idx = JMP_IND; break;
+		case JSR: base_idx = JSR_IND; break;
+		case LDA: base_idx = LDA_IND; break;
+		case LDB: base_idx = LDB_IND; break;
+		case LDX: base_idx = LDX_IND; break;
+		case LDY: base_idx = LDY_IND; break;
+		case STA: base_idx = STA_IND; break;
+		case STB: base_idx = STB_IND; break;
+		case STX: base_idx = STX_IND; break;
+		case STY: base_idx = STY_IND; break;
+	}
+	switch (am) {
+		case IND : offset  = 0; break;
+		case INDY: offset += 1; break;
+		case INDX: offset += 2; break;
+	}
+	return base_idx + offset;
+}
+
 uint64_t get_val(token *t, uint64_t addr, uint8_t size, uint8_t dbg) {
 	uint64_t value = 0;
 	uint64_t tmp_val = 0;
@@ -172,9 +197,10 @@ uint64_t handle_directive(token *t, bytecount *bc, uint8_t isasm, uint64_t addre
 uint64_t handle_opcode(token *t, bytecount *bc, uint8_t isasm, uint64_t address, uint8_t dbg) {
 	union reg val;
 	uint8_t opsize;
-	uint8_t inst;
+	uint8_t instr;
 	uint8_t opcode;
 	uint8_t type;
+	uint16_t am = 0;
 	uint8_t tmp = 0;
 	uint8_t prefix = 0;
 	uint8_t rs = 0;
@@ -183,7 +209,7 @@ uint64_t handle_opcode(token *t, bytecount *bc, uint8_t isasm, uint64_t address,
 
 	for (; t; t = t->next) {
 		if (t->id == TOK_OPCODE) {
-			inst = t->byte;
+			instr = t->byte;
 			type = t->type;
 		} else {
 			break;
@@ -192,7 +218,7 @@ uint64_t handle_opcode(token *t, bytecount *bc, uint8_t isasm, uint64_t address,
 		opsize = 1;
 		opcode = 0;
 		if (t->next) {
-			rs = get_rs(t->next, inst, dbg);
+			rs = get_rs(t->next, dbg);
 			t = (rs != 0xFF) ? t->next : t;
 			if (t->next) {
 				of = get_of(t->next, dbg);
@@ -204,12 +230,13 @@ uint64_t handle_opcode(token *t, bytecount *bc, uint8_t isasm, uint64_t address,
 			tmp_prefix |= (of != 0xFF) ? (of << 2) : tmp_prefix;
 		}
 		prefix = (tmp_prefix) ? ((tmp_prefix << 4) | 3) : 0;
-		uint8_t isincdec = (inst == INC || inst == DEC);
+		uint8_t isincdec = (instr == INC || instr == DEC);
 		uint8_t isimplied = (!t->next || (t->next->id == TOK_COMMENT));
-		if (opcodes[inst][IMPL] != 0xFF && isimplied) {
+		am = inst[instr].am;
+		if ((am & AM_IMPL) && isimplied) {
 			type = IMPL;
 		} else {
-			if (opcodes[inst][REL] != 0xFF) {
+			if (inst[instr].am & AM_REL) {
 				type = REL;
 			}
 			if (t->next) {
@@ -217,78 +244,85 @@ uint64_t handle_opcode(token *t, bytecount *bc, uint8_t isasm, uint64_t address,
 			}
 			val.u64 = get_val(t, address, (rs != 0xFF) ? rs : 0, dbg);
 		}
-		opcode = opcodes[inst][type];
 		/* Special case for TXS. */
-		if (inst == TXS) {
+		if (instr == TXS) {
 			if (type == IMM) {
 				rs = 1;
 			} else {
 				type = IMPL;
-				opcode = opcodes[inst][IMM];
 			}
 		}
+		opcode = inst[instr].op;
 		uint64_t saveaddr = address;
 		uint64_t max_val = 0;
 		uint8_t i = 0;
 		uint8_t j = 1;
 		switch (type) {
+			case BREG:
 			case IMPL:
-				if (prefix) {
+				if (instr == CPS) {
+					rs = 0;
+				}
+				if ((am & (AM_IMPL|AM_BREG))) {
+					if ((am & AM_IMPL) && (prefix)) {
+						if (isasm) {
+							addr[address] = prefix;
+						}
+						address++;
+						bc->progsize++;
+					}
 					if (isasm) {
-						addr[address] = prefix;
+						addr[address] = (am & AM_BREG) ? opcode+0x14 : opcode;
 					}
 					address++;
 					bc->progsize++;
 				}
-				if (isasm) {
-					addr[address] = opcode;
-				}
-				address++;
-				bc->progsize++;
 				break;
 			case REL:
 			case IMM:
-				rs = (rs != 0xFF) ? rs : 0;
-				tmp = (1 << rs);
-				if (type == REL) {
-					uint64_t max_sign = 0;
-					uint8_t offset = 1;
-					uint64_t tmp_val;
-					tmp_val = val.u64;
-					offset += (prefix != 0);
-					tmp_val -= offset+tmp;
-					tmp_val -= address;
-					switch (rs) {
-						default: max_sign = (int8_t )(1 <<  7); break;
-						case 1 : max_sign = (int16_t)(1 << 15); break;
-						case 2 : max_sign = (int32_t)(1 << 31); break;
-						case 3 : max_sign = (int64_t)((uint64_t)1 << 63); break;
-					}
-					if ((int64_t)tmp_val > ~(int64_t)max_sign || (int64_t)tmp_val < (int64_t)max_sign) {
-						offset += (!rs);
-						rs += (rs <= 3);
-						tmp = (1 << rs);
+				if (am & (AM_IMM|AM_REL)) {
+					rs = (rs != 0xFF) ? rs : 0;
+					tmp = (1 << rs);
+					if (type == REL) {
+						uint64_t max_sign = 0;
+						uint8_t offset = 1;
+						uint64_t tmp_val;
 						tmp_val = val.u64;
+						offset += (prefix != 0);
 						tmp_val -= offset+tmp;
 						tmp_val -= address;
-						prefix = ((rs << 4) | 3);
+						switch (rs) {
+							default: max_sign = (int8_t )(1 <<  7); break;
+							case 1 : max_sign = (int16_t)(1 << 15); break;
+							case 2 : max_sign = (int32_t)(1 << 31); break;
+							case 3 : max_sign = (int64_t)((uint64_t)1 << 63); break;
+						}
+						if ((int64_t)tmp_val > ~(int64_t)max_sign || (int64_t)tmp_val < (int64_t)max_sign) {
+							offset += (!rs);
+							rs += (rs <= 3);
+							tmp = (1 << rs);
+							tmp_val = val.u64;
+							tmp_val -= offset+tmp;
+							tmp_val -= address;
+							prefix = ((rs << 4) | 3);
+						}
+						val.u64 = tmp_val;
+					}
+					if (prefix) {
+						if (isasm) {
+							addr[address] = prefix;
+						}
+						address++;
+						bc->progsize++;
 					}
-					val.u64 = tmp_val;
-				}
-				if (prefix) {
 					if (isasm) {
-						addr[address] = prefix;
+						addr[address] = opcode;
 					}
 					address++;
 					bc->progsize++;
-				}
-				if (isasm) {
-					addr[address] = opcode;
-				}
-				address++;
-				bc->progsize++;
-				if (isasm) {
-					setreg(addr, +, address, val.u8, +, 0, tmp-1);
+					if (isasm) {
+						setreg(addr, +, address, val.u8, +, 0, tmp-1);
+					}
 				}
 				break;
 			default:
@@ -325,32 +359,69 @@ uint64_t handle_opcode(token *t, bytecount *bc, uint8_t isasm, uint64_t address,
 					}
 					prefix |= amp[opsize-1];
 				}
-				if (prefix) {
+				if (am & (AM_ZM|AM_ZMX|AM_ZMY|AM_IND|AM_INDX|AM_INDY|AM_ABS|AM_INDX2|AM_ZM2)) {
+					switch (type) {
+						case ZM:
+							if (am & AM_ZM) {
+								opcode += 0x04;
+							} else if (am & AM_ZM2) {
+								opcode += 0x20;
+							}
+							break;
+						case ZMX:
+							if (am & AM_ZMX) {
+								opcode += 0x06;
+							}
+							break;
+						case ZMY:
+							if (am & AM_ZMY) {
+								opcode += 0x14;
+							}
+							break;
+						case ABS:
+							if (am & AM_ABS) {
+								opcode += 0x10;
+							}
+							break;
+						case INDX:
+							if (am & AM_INDX) {
+								opcode += 0x16;
+								break;
+							}
+							/* Falls Through. */
+						case IND:
+						case INDY:
+							if (am & (AM_IND|AM_INDY|AM_INDX2)) {
+								opcode = ind_ops[get_ind(instr, type, dbg)];
+							}
+							break;
+					}
+					if (prefix) {
+						if (isasm) {
+							addr[address] = prefix;
+						}
+						address++;
+						bc->progsize++;
+					}
 					if (isasm) {
-						addr[address] = prefix;
+						addr[address] = opcode;
 					}
 					address++;
 					bc->progsize++;
-				}
-				opcode = opcodes[inst][type];
-				if (isasm) {
-					addr[address] = opcode;
-				}
-				address++;
-				bc->progsize++;
-				if (isasm) {
-					switch (opsize-1) {
-						case 7: addr[address+7] = val.u8[7];
-						case 6: addr[address+6] = val.u8[6];
-						case 5: addr[address+5] = val.u8[5];
-						case 4: addr[address+4] = val.u8[4];
-						case 3: addr[address+3] = val.u8[3];
-						case 2: addr[address+2] = val.u8[2];
-						case 1: addr[address+1] = val.u8[1];
-						case 0: addr[address  ] = val.u8[0];
+					if (isasm) {
+						switch (opsize-1) {
+							case 7: addr[address+7] = val.u8[7];
+							case 6: addr[address+6] = val.u8[6];
+							case 5: addr[address+5] = val.u8[5];
+							case 4: addr[address+4] = val.u8[4];
+							case 3: addr[address+3] = val.u8[3];
+							case 2: addr[address+2] = val.u8[2];
+							case 1: addr[address+1] = val.u8[1];
+							case 0: addr[address  ] = val.u8[0];
+						}
 					}
+					tmp = opsize;
 				}
-				tmp = opsize;
 				break;
 		}
 		address += tmp;
diff --git a/disasm.c b/disasm.c
index bbd8d2b..8997baf 100644
--- a/disasm.c
+++ b/disasm.c
@@ -65,7 +65,10 @@ void disasm(struct sux *cpu, uint64_t *operands, uint8_t lines, uint8_t opcode,
 	}
 
 	switch (optype[opcode]) {
-		case IMPL: wprintw(scr, "%s%s" , opname[opcode], postfix); break;
+		case BREG:
+		case IMPL:
+			wprintw(scr, "%s%s" , opname[opcode], postfix);
+			break;
 		case IMM:
 			switch ((1 << ((prefix >> 4) & 3))) {
 				case 1: wprintw(scr, "%s #$%02X" , op, value); break;
diff --git a/disasm.h b/disasm.h
index 6164d94..e56007f 100644
--- a/disasm.h
+++ b/disasm.h
@@ -1,171 +1,171 @@
 static const char *opname[0x100] = {
 	[CPS_IMP ] = "CPS",
 	[ADC_IMM ] = "ADC #",
-	[AAB_IMP ] = "AAB",
-	[ADC_AB  ] = "ADC a",
-	[LDA_IN  ] = "LDA ind",
+	[ROR_IMM ] = "ROR #",
+	[CPB_IMM ] = "CPB #",
 	[ADC_Z   ] = "ADC zm",
+	[ROR_Z   ] = "ROR zm",
+	[CPB_Z   ] = "CPB zm",
 	[CLC_IMP ] = "CLC",
-	[DEX_IMP ] = "DEX",
-	[DEC_IMP ] = "DEC",
-	[DEC_AB  ] = "DEC a",
-	[DEC_Z   ] = "DEC zm",
+	[TAB_IMP ] = "TAB",
+	[STY_Z   ] = "STY zm",
 	[JMP_AB  ] = "JMP a",
+	[ADC_AB  ] = "ADC a",
+	[ROR_AB  ] = "ROR a",
+	[CPB_AB  ] = "CPB a",
+	[ADC_B   ] = "ADC B",
+	[ROR_B   ] = "ROR B",
+	[STY_AB  ] = "STY a",
+	[SEC_IMP ] = "SEC",
+	[TBA_IMP ] = "TBA",
+	[JMP_Z   ] = "JMP zm",
 	[SBC_IMM ] = "SBC #",
-	[SAB_IMP ] = "SAB",
-	[SBC_AB  ] = "SBC a",
-	[STA_IN  ] = "STA ind",
+	[MUL_IMM ] = "MUL #",
+	[CPX_IMM ] = "CPX #",
 	[SBC_Z   ] = "SBC zm",
-	[SEC_IMP ] = "SEC",
-	[INX_IMP ] = "INX",
-	[INC_IMP ] = "INC",
-	[INC_AB  ] = "INC a",
-	[INC_Z   ] = "INC zm",
+	[MUL_Z   ] = "MUL zm",
+	[CPX_Z   ] = "CPX zm",
+	[CLI_IMP ] = "CLI",
+	[TAY_IMP ] = "TAY",
+	[STA_Z   ] = "STA zm",
+	[STA_ZX  ] = "STA zmx",
 	[JSR_AB  ] = "JSR a",
+	[SBC_AB  ] = "SBC a",
+	[MUL_AB  ] = "MUL a",
+	[CPX_AB  ] = "CPX a",
+	[SBC_B   ] = "SBC B",
+	[MUL_B   ] = "MUL B",
+	[STA_AB  ] = "STA a",
+	[SEI_IMP ] = "SEI",
+	[TYA_IMP ] = "TYA",
+	[STA_ZY  ] = "STA zmy",
+	[STA_IX  ] = "STA indx",
+	[JSR_Z   ] = "JSR zm",
 	[AND_IMM ] = "AND #",
-	[ABA_IMP ] = "ABA",
-	[AND_AB  ] = "AND a",
-	[CMP_IN  ] = "CMP ind",
+	[DIV_IMM ] = "DIV #",
+	[CPY_IMM ] = "CPY #",
 	[AND_Z   ] = "AND zm",
-	[CLI_IMP ] = "CLI",
-	[DEY_IMP ] = "DEY",
-	[CPB_IMM ] = "CPB #",
-	[CPB_AB  ] = "CPB a",
-	[CPB_Z   ] = "CPB zm",
-	[JMP_Z   ] = "JMP zm",
-	[ORA_IMM ] = "ORA #",
-	[OAB_IMP ] = "OAB",
-	[ORA_AB  ] = "ORA a",
-	[LDB_IN  ] = "LDB ind",
-	[ORA_Z   ] = "ORA zm",
-	[SEI_IMP ] = "SEI",
-	[INY_IMP ] = "INY",
-	[CPX_IMM ] = "CPX #",
-	[CPX_AB  ] = "CPX a",
+	[DIV_Z   ] = "DIV zm",
 	[CPY_Z   ] = "CPY zm",
-	[JSR_Z   ] = "JSR zm",
-	[XOR_IMM ] = "XOR #",
-	[XAB_IMP ] = "XAB",
-	[XOR_AB  ] = "XOR a",
-	[STB_IN  ] = "STB ind",
-	[XOR_Z   ] = "XOR zm",
 	[CLV_IMP ] = "CLV",
-	[CPY_IMM ] = "CPY #",
+	[TAX_IMP ] = "TAX",
+	[STB_Z   ] = "STB zm",
+	[STB_ZX  ] = "STB zmx",
+	[RTS_IMP ] = "RTS",
+	[AND_AB  ] = "AND a",
+	[DIV_AB  ] = "DIV a",
 	[CPY_AB  ] = "CPY a",
-	[CPX_Z   ] = "CPX zm",
-	[BPO_REL ] = "BPO rel",
-	[LSL_IMM ] = "LSL #",
-	[LLB_IMP ] = "LLB",
-	[LSL_AB  ] = "LSL a",
-	[CPB_IN  ] = "CPB ind",
-	[LSL_Z   ] = "LSL zm",
+	[AND_B   ] = "AND B",
+	[DIV_B   ] = "DIV B",
+	[STB_AB  ] = "STB a",
 	[WAI_IMP ] = "WAI",
-	[PHP_IMP ] = "PHP",
-	[TAB_IMP ] = "TAB",
-	[LDA_IY  ] = "LDA indy",
-	[LDA_IX  ] = "LDA indx",
-	[BNG_REL ] = "BNG rel",
-	[LSR_IMM ] = "LSR #",
-	[LRB_IMP ] = "LRB",
-	[LSR_AB  ] = "LSR a",
-	[LDY_IN  ] = "LDY ind",
-	[LSR_Z   ] = "LSR zm",
+	[TXA_IMP ] = "TXA",
+	[STB_ZY  ] = "STB zmy",
+	[STB_IX  ] = "STB indx",
+	[RTI_IMP ] = "RTI",
+	[ORA_IMM ] = "ORA #",
+	[ASR_IMM ] = "ASR #",
+	[LDX_IMM ] = "LDX #",
+	[ORA_Z   ] = "ORA zm",
+	[ASR_Z   ] = "ASR zm",
+	[LDX_Z   ] = "LDX zm",
 	[BRK_IMP ] = "BRK",
+	[TYX_IMP ] = "TYX",
+	[STX_Z   ] = "STX zm",
+	[PHP_IMP ] = "PHP",
+	[BPO_REL ] = "BPO rel",
+	[ORA_AB  ] = "ORA a",
+	[ASR_AB  ] = "ASR a",
+	[LDX_AB  ] = "LDX a",
+	[ORA_B   ] = "ORA B",
+	[ASR_B   ] = "ASR B",
+	[STX_AB  ] = "STX a",
+	[DEY_IMP ] = "DEY",
+	[TXY_IMP ] = "TXY",
+	[CPB_IN  ] = "CPB ind",
 	[PLP_IMP ] = "PLP",
-	[TBA_IMP ] = "TBA",
-	[STA_IY  ] = "STA indy",
-	[STA_IX  ] = "STA indx",
+	[BNG_REL ] = "BNG rel",
+	[XOR_IMM ] = "XOR #",
+	[CMP_IMM ] = "CMP #",
+	[DEC_IMP ] = "DEC",
+	[XOR_Z   ] = "XOR zm",
+	[CMP_Z   ] = "CMP zm",
+	[DEC_Z   ] = "DEC zm",
+	[INY_IMP ] = "INY",
+	[TSX_IMP ] = "TSX",
+	[CMP_IN  ] = "CMP ind",
+	[PHA_IMP ] = "PHA",
 	[BCS_REL ] = "BCS rel",
-	[ROL_IMM ] = "ROL #",
-	[RLB_IMP ] = "RLB",
-	[ROL_AB  ] = "ROL a",
+	[XOR_AB  ] = "XOR a",
+	[CMP_AB  ] = "CMP a",
+	[DEC_AB  ] = "DEC a",
+	[XOR_B   ] = "XOR B",
+	[CMP_B   ] = "CMP B",
+	[DEB_IMP ] = "DEB",
+	[TXS_IMM ] = "TXS #",
 	[STY_IN  ] = "STY ind",
-	[ROL_Z   ] = "ROL zm",
-	[LDA_ZY  ] = "LDA zmy",
-	[PHA_IMP ] = "PHA",
-	[TAY_IMP ] = "TAY",
-	[CMP_IY  ] = "CMP indy",
-	[CMP_IX  ] = "CMP indx",
-	[BCC_REL ] = "BCC rel",
-	[ROR_IMM ] = "ROR #",
-	[RRB_IMP ] = "RRB",
-	[ROR_AB  ] = "ROR a",
-	[LDX_IN  ] = "LDX ind",
-	[ROR_Z   ] = "ROR zm",
-	[STA_ZY  ] = "STA zmy",
 	[PLA_IMP ] = "PLA",
-	[TYA_IMP ] = "TYA",
-	[LDB_IY  ] = "LDB indy",
-	[LDB_IX  ] = "LDB indx",
-	[BEQ_REL ] = "BEQ rel",
-	[MUL_IMM ] = "MUL #",
-	[MAB_IMP ] = "MAB",
-	[MUL_AB  ] = "MUL a",
-	[STX_IN  ] = "STX ind",
-	[MUL_Z   ] = "MUL zm",
-	[LDB_ZY  ] = "LDB zmy",
+	[BCC_REL ] = "BCC rel",
+	[LSL_IMM ] = "LSL #",
+	[LDY_IMM ] = "LDY #",
+	[INC_IMP ] = "INC",
+	[LSL_Z   ] = "LSL zm",
+	[LDY_Z   ] = "LDY zm",
+	[INC_Z   ] = "INC zm",
+	[INB_IMP ] = "INB",
+	[CMP_IX  ] = "CMP indx",
+	[LDY_IN  ] = "LDY ind",
 	[PHB_IMP ] = "PHB",
-	[TAX_IMP ] = "TAX",
-	[STB_IY  ] = "STB indy",
-	[STB_IX  ] = "STB indx",
-	[BNE_REL ] = "BNE rel",
-	[DIV_IMM ] = "DIV #",
-	[DAB_IMP ] = "DAB",
-	[DIV_AB  ] = "DIV a",
-	[JSR_IN  ] = "JSR ind",
-	[DIV_Z   ] = "DIV zm",
-	[STB_ZY  ] = "STB zmy",
-	[PLB_IMP ] = "PLB",
-	[TXA_IMP ] = "TXA",
-	[CPB_IY  ] = "CPB indy",
+	[BEQ_REL ] = "BEQ rel",
+	[LSL_AB  ] = "LSL a",
+	[LDY_AB  ] = "LDY a",
+	[INC_AB  ] = "INC a",
+	[LSL_B   ] = "LSL B",
+	[DEX_IMP ] = "DEX",
 	[CPB_IX  ] = "CPB indx",
-	[BVS_REL ] = "BVS rel",
-	[CMP_IMM ] = "CMP #",
-	[CAB_IMP ] = "CAB",
-	[CMP_AB  ] = "CMP a",
-	[JMP_IN  ] = "JMP ind",
-	[CMP_Z   ] = "CMP zm",
-	[LDA_ZX  ] = "LDA zmx",
-	[LDX_IMM ] = "LDX #",
-	[TYX_IMP ] = "TYX",
-	[LDX_AB  ] = "LDX a",
-	[LDX_Z   ] = "LDX zm",
-	[BVC_REL ] = "BVC rel",
+	[LDX_IN  ] = "LDX ind",
+	[PLB_IMP ] = "PLB",
+	[BNE_REL ] = "BNE rel",
+	[LSR_IMM ] = "LSR #",
 	[LDA_IMM ] = "LDA #",
-	[DEB_IMP ] = "DEB",
-	[LDA_AB  ] = "LDA a",
+	[LDA_IN  ] = "LDA ind",
+	[LSR_Z   ] = "LSR zm",
 	[LDA_Z   ] = "LDA zm",
-	[STA_ZX  ] = "STA zmx",
+	[LDA_ZX  ] = "LDA zmx",
+	[INX_IMP ] = "INX",
+	[STA_IY  ] = "STA indy",
+	[STX_IN  ] = "STX ind",
 	[PHY_IMP ] = "PHY",
-	[TXY_IMP ] = "TXY",
-	[STA_AB  ] = "STA a",
-	[STA_Z   ] = "STA zm",
-	[BRA_REL ] = "BRA rel",
+	[BVS_REL ] = "BVS rel",
+	[LSR_AB  ] = "LSR a",
+	[LDA_AB  ] = "LDA a",
+	[STA_IN  ] = "STA ind",
+	[LSR_B   ] = "LSR B",
+	[LDA_ZY  ] = "LDA zmy",
+	[LDA_IX  ] = "LDA indx",
+	[LDA_IY  ] = "LDA indy",
+	[STB_IY  ] = "STB indy",
+	[JSR_IN  ] = "JSR ind",
+	[PLY_IMP ] = "PLY",
+	[BVC_REL ] = "BVC rel",
+	[ROL_IMM ] = "ROL #",
 	[LDB_IMM ] = "LDB #",
-	[INB_IMP ] = "INB",
-	[LDB_AB  ] = "LDB a",
+	[LDB_IN  ] = "LDB ind",
+	[ROL_Z   ] = "ROL zm",
 	[LDB_Z   ] = "LDB zm",
 	[LDB_ZX  ] = "LDB zmx",
-	[PLY_IMP ] = "PLY",
-	[TSX_IMP ] = "TSX",
-	[STB_AB  ] = "STB a",
-	[STB_Z   ] = "STB zm",
-	[RTS_IMP ] = "RTS",
-	[LDY_IMM ] = "LDY #",
-	[LDY_AB  ] = "LDY a",
-	[LDY_Z   ] = "LDY zm",
-	[STB_ZX  ] = "STB zmx",
-	[PHX_IMP ] = "PHX",
+	[LDB_IY  ] = "LDB indy",
 	[NOP_IMP ] = "NOP",
-	[STY_AB  ] = "STY a",
-	[STY_Z   ] = "STY zm",
-	[RTI_IMP ] = "RTI",
-	[ASR_IMM ] = "ASR #",
-	[ARB_IMP ] = "ARB",
-	[ASR_AB  ] = "ASR a",
-	[ASR_Z   ] = "ASR zm",
-	[PLX_IMP ] = "PLX",
-	[TXS_IMM ] = "TXS #",
-	[STX_AB  ] = "STX a",
-	[STX_Z   ] = "STX zm"
+	[JMP_IN  ] = "JMP ind",
+	[PHX_IMP ] = "PHX",
+	[BRA_REL ] = "BRA rel",
+	[ROL_AB  ] = "ROL a",
+	[LDB_AB  ] = "LDB a",
+	[STB_IN  ] = "STB ind",
+	[ROL_B   ] = "ROL B",
+	[LDB_ZY  ] = "LDB zmy",
+	[LDB_IX  ] = "LDB indx",
+	[CMP_IY  ] = "CMP indy",
+	[CPB_IY  ] = "CPB indy",
+	[PLX_IMP ] = "PLX"
 };
diff --git a/enums.h b/enums.h
index 83cc7f0..2670397 100644
--- a/enums.h
+++ b/enums.h
@@ -9,6 +9,7 @@ enum am {
 	INDY, /* Indirect Indexed. */
 	ABS,  /* Absolute. */
 	REL,  /* Relative to Program Counter. */
+	BREG, /* B Register. */
 	IMPL, /* Implied. */
 	/* Part of Base Extension. */
 	ABSX, /* Absolute, Indexed with X. */
@@ -23,265 +24,252 @@ enum am {
 };
 
 enum mne {
-	AAB =  0,
-	ABA =  1,
-	ADC =  2,
-	AND =  3,
-	ARB =  4,
-	ASR =  5,
-	BCC =  6,
-	BCS =  7,
-	BEQ =  8,
-	BNE =  9,
-	BNG = 10,
-	BPO = 11,
-	BRA = 12,
-	BRK = 13,
-	BVC = 14,
-	BVS = 15,
-	CAB = 16,
-	CLC = 17,
-	CLI = 18,
-	CLV = 19,
-	CMP = 20,
-	CPB = 21,
-	CPS = 22,
-	CPX = 23,
-	CPY = 24,
-	DAB = 25,
-	DEB = 26,
-	DEC = 27,
-	DEX = 28,
-	DEY = 29,
-	DIV = 30,
-	INB = 31,
-	INC = 32,
-	INX = 33,
-	INY = 34,
-	JMP = 35,
-	JSR = 36,
-	LDA = 37,
-	LDB = 38,
-	LDX = 39,
-	LDY = 40,
-	LLB = 41,
-	LRB = 42,
-	LSL = 43,
-	LSR = 44,
-	MAB = 45,
-	MUL = 46,
-	NOP = 47,
-	OAB = 48,
-	ORA = 49,
-	PHA = 50,
-	PHB = 51,
-	PHP = 52,
-	PHX = 53,
-	PHY = 54,
-	PLA = 55,
-	PLB = 56,
-	PLP = 57,
-	PLX = 58,
-	PLY = 59,
-	RLB = 60,
-	ROL = 61,
-	ROR = 62,
-	RRB = 63,
-	RTI = 64,
-	RTS = 65,
-	SAB = 66,
-	SBC = 67,
-	SEC = 68,
-	SEI = 69,
-	STA = 70,
-	STB = 71,
-	STX = 72,
-	STY = 73,
-	TAB = 74,
-	TAX = 75,
-	TAY = 76,
-	TBA = 77,
-	TSX = 78,
-	TXA = 79,
-	TXS = 80,
-	TXY = 81,
-	TYA = 82,
-	TYX = 83,
-	WAI = 84,
-	XAB = 85,
-	XOR = 86
+	ADC,
+	AND,
+	ASR,
+	BCC,
+	BCS,
+	BEQ,
+	BNE,
+	BNG,
+	BPO,
+	BRA,
+	BRK,
+	BVC,
+	BVS,
+	CLC,
+	CLI,
+	CLV,
+	CMP,
+	CPB,
+	CPS,
+	CPX,
+	CPY,
+	DEB,
+	DEC,
+	DEX,
+	DEY,
+	DIV,
+	INB,
+	INC,
+	INX,
+	INY,
+	JMP,
+	JSR,
+	LDA,
+	LDB,
+	LDX,
+	LDY,
+	LSL,
+	LSR,
+	MUL,
+	NOP,
+	ORA,
+	PHA,
+	PHB,
+	PHP,
+	PHX,
+	PHY,
+	PLA,
+	PLB,
+	PLP,
+	PLX,
+	PLY,
+	ROL,
+	ROR,
+	RTI,
+	RTS,
+	SBC,
+	SEC,
+	SEI,
+	STA,
+	STB,
+	STX,
+	STY,
+	TAB,
+	TAX,
+	TAY,
+	TBA,
+	TSX,
+	TXA,
+	TXS,
+	TXY,
+	TYA,
+	TYX,
+	WAI,
+	XOR
 };
 
 enum base_isa {
 	CPS_IMP = 0x00, /* Clear Processor Status. */
 	ADC_IMM = 0x01, /* ADd with Carry. */
-	AAB_IMP = 0x02, /* Add Accumulator with carry by B register. */
-	ADC_AB  = 0x04, /* ADC Absolute. */
-	LDA_IN  = 0x05, /* LDA Indirect */
-	ADC_Z   = 0x06, /* ADC Zero Matrix. */
-	CLC_IMP = 0x08, /* CLear Carry flag. */
-	DEX_IMP = 0x09, /* DEcrement X register. */
-	DEC_IMP = 0x0A, /* DECrement accumulator. */
-	DEC_AB  = 0x0C, /* DEC Absolute. */
-	DEC_Z   = 0x0D, /* DEC Zero Matrix. */
+	ROR_IMM = 0x02, /* ROtate Right. */
+	CPB_IMM = 0x04, /* ComPare B register. */
+	ADC_Z   = 0x05, /* ADC Zero Matrix. */
+	ROR_Z   = 0x06, /* ROR Zero Matrix. */
+	CPB_Z   = 0x08, /* CPB Zero Matrix. */
+	CLC_IMP = 0x09, /* CLear Carry flag. */
+	TAB_IMP = 0x0A, /* Transfer Accumulator to B.  */
+	STY_Z   = 0x0C, /* STore Y register. */
 	JMP_AB  = 0x10, /* JMP Absolute. */
-	SBC_IMM = 0x11, /* SuBtract with Carry. */
-	SAB_IMP = 0x12, /* Subtract Accumulator with carry by B register. */
-	SBC_AB  = 0x14, /* SBC Absolute. */
-	STA_IN  = 0x15, /* STA Indirect */
-	SBC_Z   = 0x16, /* SBC Zero Matrix. */
-	SEC_IMP = 0x18, /* SEt Carry flag. */
-	INX_IMP = 0x19, /* INcrement X register. */
-	INC_IMP = 0x1A, /* INCrement accumulator. */
-	INC_AB  = 0x1C, /* INC Absolute. */
-	INC_Z   = 0x1D, /* INC Zero Matrix. */
-	JSR_AB  = 0x20, /* JSR Absolute. */
-	AND_IMM = 0x21, /* bitwise AND with accumulator. */
-	ABA_IMP = 0x22, /* bitwise And with Accumulator, and B register. */
-	AND_AB  = 0x24, /* AND Absolute. */
-	CMP_IN  = 0x25, /* CMP Indirect */
-	AND_Z   = 0x26, /* AND Zero Matrix. */
-	CLI_IMP = 0x28, /* CLear Interupt flag. */
-	DEY_IMP = 0x29, /* DEcrement Y register. */
-	CPB_IMM = 0x2A, /* ComPare B register. */
-	CPB_AB  = 0x2C, /* CPB Absolute. */
-	CPB_Z   = 0x2D, /* CPB Zero Matrix. */
-	JMP_Z   = 0x30, /* JuMP to memory location. */
-	ORA_IMM = 0x31, /* bitwise OR with Accumulator. */
-	OAB_IMP = 0x32, /* bitwise Or with Accumulator, and B register. */
-	ORA_AB  = 0x34, /* ORA Absolute. */
-	LDB_IN  = 0x35, /* LDB Indirect */
-	ORA_Z   = 0x36, /* ORA Zero Matrix. */
-	SEI_IMP = 0x38, /* SEt Interupt flag. */
-	INY_IMP = 0x39, /* INcrement Y register. */
-	CPX_IMM = 0x3A, /* ComPare X register. */
-	CPX_AB  = 0x3C, /* CPX Absolute. */
-	CPX_Z   = 0x3D, /* CPX Zero Matrix. */
+	ADC_AB  = 0x11, /* ADC Absolute. */
+	ROR_AB  = 0x12, /* ROR Absolute. */
+	CPB_AB  = 0x14, /* CPB Absolute. */
+	ADC_B   = 0x15, /* ADC B Register. */
+	ROR_B   = 0x16, /* ROR B Register. */
+	STY_AB  = 0x18, /* STY Absolute. */
+	SEC_IMP = 0x19, /* SEt Carry flag. */
+	TBA_IMP = 0x1A, /* Transfer B to Accumulator.  */
+	JMP_Z   = 0x20, /* JuMP to memory location. */
+	SBC_IMM = 0x21, /* SuBtract with Carry. */
+	MUL_IMM = 0x22, /* MULtiply accumulator. */
+	CPX_IMM = 0x24, /* ComPare X register. */
+	SBC_Z   = 0x25, /* SBC Zero Matrix. */
+	MUL_Z   = 0x26, /* MUL Zero Matrix. */
+	CPX_Z   = 0x28, /* CPX Zero Matrix. */
+	CLI_IMP = 0x29, /* CLear Interupt flag. */
+	TAY_IMP = 0x2A, /* Transfer Accumulator to Y. */
+	STA_Z   = 0x2C, /* STore Accumulator. */
+	STA_ZX  = 0x2E, /* STA Zero Marrix, Indexed with X. */
+	JSR_AB  = 0x30, /* JSR Absolute. */
+	SBC_AB  = 0x31, /* SBC Absolute. */
+	MUL_AB  = 0x32, /* MUL Absolute. */
+	CPX_AB  = 0x34, /* CPX Absolute. */
+	SBC_B   = 0x35, /* SBC B Register. */
+	MUL_B   = 0x36, /* MUL B Register. */
+	STA_AB  = 0x38, /* STA Absolute. */
+	SEI_IMP = 0x39, /* SEt Interupt flag. */
+	TYA_IMP = 0x3A, /* Transfer Y to Accumulator. */
+	STA_ZY  = 0x3C, /* STA Zero Marrix, Indexed with Y. */
+	STA_IX  = 0x3E, /* STA Indexed Indirect. */
 	JSR_Z   = 0x40, /* Jump to SubRoutine. */
-	XOR_IMM = 0x41, /* bitwise XOR with accumulator. */
-	XAB_IMP = 0x42, /* bitwise Xor with Accumulator, and B register. */
-	XOR_AB  = 0x44, /* XOR Absolute. */
-	STB_IN  = 0x45, /* STB Indirect */
-	XOR_Z   = 0x46, /* XOR Zero Matrix. */
-	CLV_IMP = 0x48, /* CLear oVerflow flag. */
-	CPY_IMM = 0x4A, /* ComPare Y register. */
-	CPY_AB  = 0x4C, /* CPY Absolute. */
-	CPY_Z   = 0x4D, /* CPY Zero Matrix. */
-	BPO_REL = 0x50, /* Branch if POsitive. */
-	LSL_IMM = 0x51, /* Logical Shift Left. */
-	LLB_IMP = 0x52, /* Logical shift Left accumulator by B. */
-	LSL_AB  = 0x54, /* LSL Absolute. */
-	CPB_IN  = 0x55, /* CPB Indirect */
-	LSL_Z   = 0x56, /* LSL Zero Matrix. */
-	WAI_IMP = 0x58, /* WAit for Interrupt. */
-	PHP_IMP = 0x59, /* PusH Processor status to stack. */
-	TAB_IMP = 0x5A, /* Transfer Accumulator to B.  */
-	LDA_IY  = 0x5C, /* LDA Indirect Indexed. */
-	LDA_IX  = 0x5D, /* LDA Indexed Indirect. */
-	BNG_REL = 0x60, /* Branch if NeGative. */
-	LSR_IMM = 0x61, /* Logical Shift Right. */
-	LRB_IMP = 0x62, /* Logical shift Right accumulator by B. */
-	LSR_AB  = 0x64, /* LSR Absolute. */
-	LDY_IN  = 0x65, /* LDY Indirect */
-	LSR_Z   = 0x66, /* LSR Zero Matrix. */
-	BRK_IMP = 0x68, /* BReaK. */
-	PLP_IMP = 0x69, /* PuLl Processor status from stack. */
-	TBA_IMP = 0x6A, /* Transfer B to Accumulator.  */
-	STA_IY  = 0x6C, /* STA Indirect Indexed. */
-	STA_IX  = 0x6D, /* STA Indexed Indirect. */
-	BCS_REL = 0x70, /* Branch if Carry Set. */
-	ROL_IMM = 0x71, /* ROtate Left. */
-	RLB_IMP = 0x72, /* Rotate Left accumulator by B. */
-	ROL_AB  = 0x74, /* ROL Absolute. */
-	STY_IN  = 0x75, /* STY Indirect */
-	ROL_Z   = 0x76, /* ROL Zero Matrix. */
-	LDA_ZY  = 0x78, /* LDA Zero Marrix, Indexed with Y. */
-	PHA_IMP = 0x79, /* PusH Accumulator to stack. */
-	TAY_IMP = 0x7A, /* Transfer Accumulator to Y. */
-	CMP_IY  = 0x7C, /* CMP Indirect Indexed. */
-	CMP_IX  = 0x7D, /* CMP Indexed Indirect. */
-	BCC_REL = 0x80, /* Branch if Carry Clear. */
-	ROR_IMM = 0x81, /* ROtate Right. */
-	RRB_IMP = 0x82, /* Rotate Right accumulator by B. */
-	ROR_AB  = 0x84, /* ROR Absolute. */
-	LDX_IN  = 0x85, /* LDX Indirect */
-	ROR_Z   = 0x86, /* ROR Zero Matrix. */
-	STA_ZY  = 0x88, /* STA Zero Marrix, Indexed with Y. */
-	PLA_IMP = 0x89, /* PuLl Accumulator from stack. */
-	TYA_IMP = 0x8A, /* Transfer Y to Accumulator. */
-	LDB_IY  = 0x8C, /* LDB Indirect Indexed. */
-	LDB_IX  = 0x8D, /* LDB Indexed Indirect. */
-	BEQ_REL = 0x90, /* Branch if EQual. */
-	MUL_IMM = 0x91, /* MULtiply accumulator. */
-	MAB_IMP = 0x92, /* Multiply Accumulator by B. */
-	MUL_AB  = 0x94, /* MUL Absolute. */
-	STX_IN  = 0x95, /* STX Indirect */
-	MUL_Z   = 0x96, /* MUL Zero Matrix. */
-	LDB_ZY  = 0x98, /* LDB Zero Marrix, Indexed with Y. */
-	PHB_IMP = 0x99, /* PusH B register to stack. */
-	TAX_IMP = 0x9A, /* Transfer Accumulator to X. */
-	STB_IY  = 0x9C, /* STB Indirect Indexed. */
-	STB_IX  = 0x9D, /* STB Indexed Indirect. */
-	BNE_REL = 0xA0, /* Branch if Not Equal. */
-	DIV_IMM = 0xA1, /* DIVide with accumulator. */
-	DAB_IMP = 0xA2, /* Divide Accumulator by B. */
-	DIV_AB  = 0xA4, /* DIV Absolute. */
-	JSR_IN  = 0xA5, /* JSR Indirect */
-	DIV_Z   = 0xA6, /* DIV Zero Matrix. */
-	STB_ZY  = 0xA8, /* STB Zero Marrix, Indexed with Y. */
-	PLB_IMP = 0xA9, /* PuLl B register to stack. */
-	TXA_IMP = 0xAA, /* Transfer X to Accumulator. */
-	CPB_IY  = 0xAC, /* CPB Indirect Indexed. */
-	CPB_IX  = 0xAD, /* CPB Indexed Indirect. */
-	BVS_REL = 0xB0, /* Branch if oVerflow Set. */
-	CMP_IMM = 0xB1, /* CoMPare accumulator. */
-	CAB_IMP = 0xB2, /* Compare Accumulator, and B. */
-	CMP_AB  = 0xB4, /* CMP Absolute. */
-	JMP_IN  = 0xB5, /* JMP Indirect */
-	CMP_Z   = 0xB6, /* CMP Zero Matrix. */
-	LDA_ZX  = 0xB8, /* LDA Zero Marrix, Indexed with X. */
-	LDX_IMM = 0xB9, /* LoaD X register. */
-	TYX_IMP = 0xBA, /* Transfer Y to X. */
-	LDX_AB  = 0xBC, /* LDX Absolute. */
-	LDX_Z   = 0xBD, /* LDX Zero Matrix. */
-	BVC_REL = 0xC0, /* Branch if oVerflow Clear. */
-	LDA_IMM = 0xC1, /* LoaD Accumulator. */
-	DEB_IMP = 0xC2, /* Decrement B register. */
-	LDA_AB  = 0xC4, /* LDA Absolute. */
+	AND_IMM = 0x41, /* bitwise AND with accumulator. */
+	DIV_IMM = 0x42, /* DIVide with accumulator. */
+	CPY_IMM = 0x44, /* ComPare Y register. */
+	AND_Z   = 0x45, /* AND Zero Matrix. */
+	DIV_Z   = 0x46, /* DIV Zero Matrix. */
+	CPY_Z   = 0x48, /* CPY Zero Matrix. */
+	CLV_IMP = 0x49, /* CLear oVerflow flag. */
+	TAX_IMP = 0x4A, /* Transfer Accumulator to X. */
+	STB_Z   = 0x4C, /* STore B register. */
+	STB_ZX  = 0x4E, /* STB Zero Marrix, Indexed with X. */
+	RTS_IMP = 0x50, /* ReTurn from Subroutine. */
+	AND_AB  = 0x51, /* AND Absolute. */
+	DIV_AB  = 0x52, /* DIV Absolute. */
+	CPY_AB  = 0x54, /* CPY Absolute. */
+	AND_B   = 0x55, /* AND B Register. */
+	DIV_B   = 0x56, /* DIV B Register. */
+	STB_AB  = 0x58, /* STB Absolute. */
+	WAI_IMP = 0x59, /* WAit for Interrupt. */
+	TXA_IMP = 0x5A, /* Transfer X to Accumulator. */
+	STB_ZY  = 0x5C, /* STB Zero Marrix, Indexed with Y. */
+	STB_IX  = 0x5E, /* STB Indexed Indirect. */
+	RTI_IMP = 0x60, /* ReTurn from Interrupt. */
+	ORA_IMM = 0x61, /* bitwise OR with Accumulator. */
+	ASR_IMM = 0x62, /* Arithmetic Shift Right. */
+	LDX_IMM = 0x64, /* LoaD X register. */
+	ORA_Z   = 0x65, /* ORA Zero Matrix. */
+	ASR_Z   = 0x66, /* ASR Zero Matrix. */
+	LDX_Z   = 0x68, /* LDX Zero Matrix. */
+	BRK_IMP = 0x69, /* BReaK. */
+	TYX_IMP = 0x6A, /* Transfer Y to X. */
+	STX_Z   = 0x6C, /* STore X register. */
+	PHP_IMP = 0x6E, /* PusH Processor status to stack. */
+	BPO_REL = 0x70, /* Branch if POsitive. */
+	ORA_AB  = 0x71, /* ORA Absolute. */
+	ASR_AB  = 0x72, /* ASR Absolute. */
+	LDX_AB  = 0x74, /* LDX Absolute. */
+	ORA_B   = 0x75, /* ORA B Register. */
+	ASR_B   = 0x76, /* ASR B Register. */
+	STX_AB  = 0x78, /* STX Absolute. */
+	DEY_IMP = 0x79, /* DEcrement Y register. */
+	TXY_IMP = 0x7A, /* Transfer X to Y. */
+	CPB_IN  = 0x7C, /* CPB Indirect */
+	PLP_IMP = 0x7E, /* PuLl Processor status from stack. */
+	BNG_REL = 0x80, /* Branch if NeGative. */
+	XOR_IMM = 0x81, /* bitwise XOR with accumulator. */
+	CMP_IMM = 0x82, /* CoMPare accumulator. */
+	DEC_IMP = 0x84, /* DECrement accumulator. */
+	XOR_Z   = 0x85, /* XOR Zero Matrix. */
+	CMP_Z   = 0x86, /* CMP Zero Matrix. */
+	DEC_Z   = 0x88, /* DEC Zero Matrix. */
+	INY_IMP = 0x89, /* INcrement Y register. */
+	TSX_IMP = 0x8A, /* Transfer Stack pointer to X. */
+	CMP_IN  = 0x8C, /* CMP Indirect */
+	PHA_IMP = 0x8E, /* PusH Accumulator to stack. */
+	BCS_REL = 0x90, /* Branch if Carry Set. */
+	XOR_AB  = 0x91, /* XOR Absolute. */
+	CMP_AB  = 0x92, /* CMP Absolute. */
+	DEC_AB  = 0x94, /* DEC Absolute. */
+	XOR_B   = 0x95, /* XOR B Register. */
+	CMP_B   = 0x96, /* CMP B Register. */
+	DEB_IMP = 0x99, /* Decrement B register. */
+	TXS_IMM = 0x9A, /* Transfer X to Stack pointer. */
+	STY_IN  = 0x9C, /* STY Indirect */
+	PLA_IMP = 0x9E, /* PuLl Accumulator from stack. */
+	BCC_REL = 0xA0, /* Branch if Carry Clear. */
+	LSL_IMM = 0xA1, /* Logical Shift Left. */
+	LDY_IMM = 0xA2, /* LoaD Y register. */
+	INC_IMP = 0xA4, /* INCrement accumulator. */
+	LSL_Z   = 0xA5, /* LSL Zero Matrix. */
+	LDY_Z   = 0xA6, /* LDY Zero Matrix. */
+	INC_Z   = 0xA8, /* INC Zero Matrix. */
+	INB_IMP = 0xA9, /* Increment B register. */
+	CMP_IX  = 0xAA, /* CMP Indexed Indirect. */
+	LDY_IN  = 0xAC, /* LDY Indirect */
+	PHB_IMP = 0xAE, /* PusH B register to stack. */
+	BEQ_REL = 0xB0, /* Branch if EQual. */
+	LSL_AB  = 0xB1, /* LSL Absolute. */
+	LDY_AB  = 0xB2, /* LDY Absolute. */
+	INC_AB  = 0xB4, /* INC Absolute. */
+	LSL_B   = 0xB5, /* LSL B Register. */
+	DEX_IMP = 0xB9, /* DEcrement X register. */
+	CPB_IX  = 0xBA, /* CPB Indexed Indirect. */
+	LDX_IN  = 0xBC, /* LDX Indirect */
+	PLB_IMP = 0xBE, /* PuLl B register to stack. */
+	BNE_REL = 0xC0, /* Branch if Not Equal. */
+	LSR_IMM = 0xC1, /* Logical Shift Right. */
+	LDA_IMM = 0xC2, /* LoaD Accumulator. */
+	LDA_IN  = 0xC4, /* LDA Indirect */
+	LSR_Z   = 0xC5, /* LSR Zero Matrix. */
 	LDA_Z   = 0xC6, /* LDA Zero Matrix. */
-	STA_ZX  = 0xC8, /* STA Zero Marrix, Indexed with X. */
-	PHY_IMP = 0xC9, /* PusH Y register to stack. */
-	TXY_IMP = 0xCA, /* Transfer X to Y. */
-	STA_AB  = 0xCC, /* STA Absolute. */
-	STA_Z   = 0xCD, /* STore Accumulator. */
-	BRA_REL = 0xD0, /* BRanch Always. */
-	LDB_IMM = 0xD1, /* LoaD B register. */
-	INB_IMP = 0xD2, /* Increment B register. */
-	LDB_AB  = 0xD4, /* LDB Absolute. */
-	LDB_Z   = 0xD6, /* LDB Zero Matrix. */
-	LDB_ZX  = 0xD8, /* LDB Zero Marrix, Indexed with X. */
-	PLY_IMP = 0xD9, /* PuLl Y register from stack. */
-	TSX_IMP = 0xDA, /* Transfer Stack pointer to X. */
-	STB_AB  = 0xDC, /* STB Absolute. */
-	STB_Z   = 0xDD, /* STore B register. */
-	RTS_IMP = 0xE0, /* ReTurn from Subroutine. */
-	LDY_IMM = 0xE1, /* LoaD Y register. */
-	LDY_AB  = 0xE4, /* LDY Absolute. */
-	LDY_Z   = 0xE6, /* LDY Zero Matrix. */
-	STB_ZX  = 0xE8, /* STB Zero Marrix, Indexed with X. */
-	PHX_IMP = 0xE9, /* PusH X register to stack. */
+	LDA_ZX  = 0xC8, /* LDA Zero Marrix, Indexed with X. */
+	INX_IMP = 0xC9, /* INcrement X register. */
+	STA_IY  = 0xCA, /* STA Indirect Indexed. */
+	STX_IN  = 0xCC, /* STX Indirect */
+	PHY_IMP = 0xCE, /* PusH Y register to stack. */
+	BVS_REL = 0xD0, /* Branch if oVerflow Set. */
+	LSR_AB  = 0xD1, /* LSR Absolute. */
+	LDA_AB  = 0xD2, /* LDA Absolute. */
+	STA_IN  = 0xD4, /* STA Indirect */
+	LSR_B   = 0xD5, /* LSR B Register. */
+	LDA_ZY  = 0xD6, /* LDA Zero Marrix, Indexed with Y. */
+	LDA_IX  = 0xD8, /* LDA Indexed Indirect. */
+	LDA_IY  = 0xD9, /* LDA Indirect Indexed. */
+	STB_IY  = 0xDA, /* STB Indirect Indexed. */
+	JSR_IN  = 0xDC, /* JSR Indirect */
+	PLY_IMP = 0xDE, /* PuLl Y register from stack. */
+	BVC_REL = 0xE0, /* Branch if oVerflow Clear. */
+	ROL_IMM = 0xE1, /* ROtate Left. */
+	LDB_IMM = 0xE2, /* LoaD B register. */
+	LDB_IN  = 0xE4, /* LDB Indirect */
+	ROL_Z   = 0xE5, /* ROL Zero Matrix. */
+	LDB_Z   = 0xE6, /* LDB Zero Matrix. */
+	LDB_ZX  = 0xE8, /* LDB Zero Marrix, Indexed with X. */
+	LDB_IY  = 0xE9, /* LDB Indirect Indexed. */
 	NOP_IMP = 0xEA, /* No OPeration. */
-	STY_AB  = 0xEC, /* STY Absolute. */
-	STY_Z   = 0xED, /* STore Y register. */
-	RTI_IMP = 0xF0, /* ReTurn from Interrupt. */
-	ASR_IMM = 0xF1, /* Arithmetic Shift Right. */
-	ARB_IMP = 0xF2, /* Arithmetic shift Right accumulator by B. */
-	ASR_AB  = 0xF4, /* ASR Absolute. */
-	ASR_Z   = 0xF6, /* ASR Zero Matrix. */
-	PLX_IMP = 0xF9, /* PuLl X register from stack. */
-	TXS_IMM = 0xFA, /* Transfer X to Stack pointer. */
-	STX_AB  = 0xFC, /* STX Absolute. */
-	STX_Z   = 0xFD  /* STore X register. */
+	JMP_IN  = 0xEC, /* JMP Indirect */
+	PHX_IMP = 0xEE, /* PusH X register to stack. */
+	BRA_REL = 0xF0, /* BRanch Always. */
+	ROL_AB  = 0xF1, /* ROL Absolute. */
+	LDB_AB  = 0xF2, /* LDB Absolute. */
+	STB_IN  = 0xF4, /* STB Indirect */
+	ROL_B   = 0xF5, /* ROL B Register. */
+	LDB_ZY  = 0xF6, /* LDB Zero Marrix, Indexed with Y. */
+	LDB_IX  = 0xF8, /* LDB Indexed Indirect. */
+	CMP_IY  = 0xF9, /* CMP Indirect Indexed. */
+	CPB_IY  = 0xFA, /* CPB Indirect Indexed. */
+	PLX_IMP = 0xFE  /* PuLl X register from stack. */
 };
 
 enum base_ext {
diff --git a/lexer.c b/lexer.c
index 19a53ce..0540498 100644
--- a/lexer.c
+++ b/lexer.c
@@ -270,7 +270,7 @@ uint64_t lex(char *str, uint64_t address, uint8_t dbg) {
 			for (; isdelm(str[i], dbg) == 16; i++);
 		}
 		uint8_t ptok = get_ptok(str[i], dbg);
-		if (ptok == PTOK_X || ptok == PTOK_Y || ptok == PTOK_S || ptok == PTOK_P) {
+		if (is_altok(ptok, dbg)) {
 			offset++;
 			if ((ptok == PTOK_S && toupper(str[i+1]) == 'P') || (ptok == PTOK_P && toupper(str[i+1]) == 'C')) {
 				offset++;
@@ -278,6 +278,7 @@ uint64_t lex(char *str, uint64_t address, uint8_t dbg) {
 
 			}
 			switch (get_ptok(str[i+offset], dbg)) {
+				case PTOK_B     :
 				case PTOK_X     :
 				case PTOK_Y     :
 				case PTOK_S     :
@@ -455,6 +456,13 @@ uint64_t lex(char *str, uint64_t address, uint8_t dbg) {
 				lexeme[j+1] = '\0';
 				lexeme[j+2] = '\0';
 				break;
+			case PTOK_B:
+				lexeme[j] = str[i++];
+				lexeme[j+1] = '\0';
+				lexeme[j+2] = '\0';
+				lex_type = TOK_BREG;
+				l->tok->type = BREG;
+				break;
 			case PTOK_X:
 			case PTOK_Y:
 				lexeme[j] = str[i++];
diff --git a/lexer.h b/lexer.h
index 952d525..225a5e5 100644
--- a/lexer.h
+++ b/lexer.h
@@ -44,6 +44,7 @@ static inline uint8_t get_ptok(char c, uint8_t dbg) {
 		  case '(' : return PTOK_LBRACK ;
 		  case ')' : return PTOK_RBRACK ;
 		  case ',' : return PTOK_COMMA  ;
+	case 'B': case 'b' : return PTOK_B      ;
 	case 'X': case 'x' : return PTOK_X	;
 	case 'Y': case 'y' : return PTOK_Y	;
 	case 'S': case 's' : return PTOK_S	;
@@ -64,3 +65,14 @@ static inline uint8_t get_ptok(char c, uint8_t dbg) {
 			}
 	}
 }
+
+static inline uint8_t is_altok(uint8_t ptok, uint8_t dbg) {
+	switch (ptok) {
+		case PTOK_B:
+		case PTOK_X:
+		case PTOK_Y:
+		case PTOK_S:
+		case PTOK_P: return 1;
+		default    : return 0;
+	}
+}
diff --git a/opcode.h b/opcode.h
index 696ad9d..1c48b55 100644
--- a/opcode.h
+++ b/opcode.h
@@ -10,7 +10,7 @@
 #define getclk 0
 #define keypoll 0
 
-#define OPNUM 87
+#define OPNUM 74
 
 #define C (1 << 0) /* Carry flag. */
 #define Z (1 << 1) /* Zero flag. */
diff --git a/programs/sub-suite/declare.s b/programs/sub-suite/declare.s
index 745445b..2991e66 100644
--- a/programs/sub-suite/declare.s
+++ b/programs/sub-suite/declare.s
@@ -108,19 +108,19 @@ scr_ptr3:
 	.res 2
 
 ; Pseudo registers.
-a:
+rega:
 	.res 1
-b:
+regb:
 	.res 1
-c:
+regc:
 	.res 1
-d:
+regd:
 	.res 1
-e:
+rege:
 	.res 1
-f:
+regf:
 	.res 1
-g:
+regg:
 	.res 1
 ; This pseudo register is always zero.
 zero:
diff --git a/programs/sub-suite/lexer.s b/programs/sub-suite/lexer.s
index c144f9a..dc5a3b0 100644
--- a/programs/sub-suite/lexer.s
+++ b/programs/sub-suite/lexer.s
@@ -8,7 +8,7 @@ lex:
 	sty.q idx0	; Clear the first index.
 	sty.q idx1	; Clear the second index.
 	sty.q idx2	; Clear the third index.
-	sty b		; Clear the isop flag.
+	sty regb	; Clear the isop flag.
 ;	lda (ptr), y	; Get a character from the line.
 ;	pha 		; Preserve the character.
 ;	jsr isdigit	; Is this character a digit?
@@ -99,7 +99,7 @@ ptok_dot:
 	ldb #$11	; Set the delimiter comparison value to whitespace.
 	jsr delmcpy	; Copy the string, to the lexeme buffer, until delimiter.
 @isop:
-	lda b		; Has the isop flag been set?
+	lda regb	; Has the isop flag been set?
 	beq @dir	; No, so check for a directive.
 @rs:
 	lda #TOK_RS	; Yes, so set the lexeme type to TOK_RS.
@@ -248,7 +248,7 @@ ptok_alph:
 	tba		; Use isdelm2 for the comparison.
 	jsr delmcpy	; Copy the string, to the lexeme buffer, until delimiter.
 	lda #0		; Reset A.
-	sta b		; Clear the isop flag.
+	sta regb	; Clear the isop flag.
 @isop:
 	ldb #0		; Make the lexeme buffer, the first pointer.
 	stb.q idx1	; Reset the second index.
@@ -272,7 +272,7 @@ ptok_alph:
 @found:
 	lda #TOK_MNE	; Set the lexeme type to TOK_MNE.
 	sta lex_type	;
-	inc b		; Set the isop flag.
+	inc regb	; Set the isop flag.
 @end:
 	jsr make_tok	; Create the token.
 	jsr set_cmdbuf	; Set the first pointer to the command buffer.
@@ -325,23 +325,23 @@ init_lex:
 
 
 delmcpy:
-	sta a		; Save the delimiter check flag.
-	stb c		; Save the delimiter comparison value.
+	sta rega	; Save the delimiter check flag.
+	stb regc	; Save the delimiter comparison value.
 @loop:
 	ldb #0		; Reset the B register.
-	stb g		; Reset the byte count.
+	stb regg	; Reset the byte count.
 	ldy.w idx0	; Get the string index.
 	lda.q (ptr), y	; Get eight bytes from the current line.
 @loop1:
 	pha.q		; Save the string buffer.
 	and #$FF	; Get the current byte.
 	pha 		; Preserve the character.
-	lda a		; Are we calling isdelm2?
+	lda rega	; Are we calling isdelm2?
 	pla		; Get the character back.
 	bne @isdelm2	; Yes, so use isdelm2.
 	jsr isdelm	; No, so get the delimiter value from isdelm.
 @delmchk:
-	and c		; Are both delimiter values, the same?
+	and regc	; Are both delimiter values, the same?
 	pla.q		; Get back the string buffer.
 	bne @end	; Yes, so we're done.
 	bra @copy	; No, so start copying the character.
@@ -354,8 +354,8 @@ delmcpy:
 	inc.w idx0	; Increment the string index.
 	inc.w idx1	; Increment the lexeme index.
 	lsr #8		; Shift in the next byte.
-	inc g		; Increment the byte count.
-	ldb g		; Get back the byte count.
+	inc regg	; Increment the byte count.
+	ldb regg	; Get back the byte count.
 	cpb #7		; Did we shift in eight bytes?
 	beq @loop	; Yes, so get eight more bytes.
 	bra @loop1	; No, so keep shifting in more bytes.
@@ -372,12 +372,12 @@ delmcpy:
 ;	ldy.w idx0	; Get the string index.
 ;	lda (ptr), y	; Get a character from the line.
 ;	pha 		; Preserve the character.
-;	lda a		; Are we calling isdelm2?
+;	lda rega	; Are we calling isdelm2?
 ;	pla 		; Get the character back.
 ;	bne @isdelm2	; Yes, so use isdelm2.
 ;	jsr isdelm	; No, so get the delimiter value from isdelm.
 ;@delmchk:
-;	and c		; Are both delimiter values, the same?
+;	and regc	; Are both delimiter values, the same?
 ;	bne @end	; Yes, so we're done.
 ;	bra @copy	; No, so start copying the character.
 ;@isdelm2:
diff --git a/programs/sub-suite/libc.s b/programs/sub-suite/libc.s
index bd55f9c..d13d983 100644
--- a/programs/sub-suite/libc.s
+++ b/programs/sub-suite/libc.s
@@ -31,7 +31,7 @@ strtoull:
 	lda.q sp+1	; Get the value from the value buffer.
 	mul sp+19	; Multiply the value by the base.
 	clc		; Prepare for a non carrying add.
-	aab		; Add the digit value to the total value.
+	adc b		; Add the digit value to the total value.
 	sta.q sp+1	; Place the value in the value buffer.
 	iny		; Increment the string index.
 	and #0		; Reset A.
@@ -96,7 +96,7 @@ strcasecmp:
 	jsr tolower	; Convert the character of string 2 to lowercase.
 	tab		; Place it in B.
 	pla		; Get the character of string 1 back.
-	cab		; Is the character of both strings, the same?
+	cmp b		; Is the character of both strings, the same?
 	plb		; Get the islong flag back.
 	bne cmpr	; No, so check if we're too short, or too long.
 	iny		; Yes, so increment the index.
diff --git a/programs/sub-suite/subasm.s b/programs/sub-suite/subasm.s
index 0a7640d..ec58a40 100644
--- a/programs/sub-suite/subasm.s
+++ b/programs/sub-suite/subasm.s
@@ -21,7 +21,7 @@ subasm:
 	jsr set_ptr	;
 	deb		; Reset B.
 	tba		; Reset A.
-	lda f		; Get the command ID.
+	lda regf	; Get the command ID.
 	cmp #8		; Is the command ID greater than the command count?
 	bcs @end	; Yes, so we're done.
 	lsl #1		; No, so multiply the command ID by two.
@@ -55,12 +55,12 @@ chk_shcmd:
 @loop:
 	ldb (ptr2), y	; Are we at the end of the table?
 	beq @false	; Yes, so return that we failed.
-	cab		; No, so did the character match?
+	cmp b		; No, so did the character match?
 	beq @found	; Yes, so check if there are any arguments.
 	iny		; No, so check the next command.
 	bra @loop	; Keep looping.
 @found:
-	sty f		; Save the command ID.
+	sty regf	; Save the command ID.
 	ldy #1		; Check the next character in the command buffer.
 	lda (ptr), y	; Is this the end of the buffer?
 	beq @true	; Yes, so return that we succeded.
@@ -105,7 +105,7 @@ chk_cmd:
 	bra @loop	; Keep looping.
 @true:
 	ldb idx1	; Get the command ID.
-	stb f		; Return the command ID.
+	stb regf	; Return the command ID.
 	ldb #1		; Return true.
 	bra @end	; We are done.
 @false:
diff --git a/programs/sub-suite/subeditor.s b/programs/sub-suite/subeditor.s
index 2282a72..fb3f3c4 100644
--- a/programs/sub-suite/subeditor.s
+++ b/programs/sub-suite/subeditor.s
@@ -117,7 +117,7 @@ print_str:
 	tba		; Clear the Accumulator.
 @loop:
 	ldb #1		; Enable replace mode.
-	stb b		;
+	stb regb	;
 	lda.q ptr	; Get the first pointer.
 	cmp.q end	; Did the pointer change?
 	bne @reset	; Yes, so set it back.
@@ -133,7 +133,7 @@ print_str:
 	bra @loop	; Keep looping.
 @end:
 	ldb #0		; Enable insert mode.
-	stb b		;
+	stb regb	;
 	tba		; Reset A.
 	rts		; End of print_str.
 
@@ -159,7 +159,7 @@ getbt1:
 	txy		; Get the byte position.
 	ldb (ptr2), y	; Get one byte of the wrap table.
 	ply.w		; Get the screen index back.
-	aba		; Mask out the bit of the current line number.
+	and b		; Mask out the bit of the current line number.
 	cmp #1		; Set the carry flag, if true.
 	bra bitout	; We are done.
 
@@ -175,7 +175,7 @@ clrbit:
 	phy.w		; Save the screen index.
 	txy		; Get the byte position.
 	ldb (ptr2), y	; Get one byte of the wrap table.
-	aba		; Clear the bit of the current line number.
+	and b		; Clear the bit of the current line number.
 bitsav:
 	sta (ptr2), y	; Update the wrap table.
 	ply.w		; Get the screen index back.
@@ -194,7 +194,7 @@ setbit:
 	phy.w		; Save the screen index.
 	txy		; Get the byte position.
 	ldb (ptr2), y	; Get one byte of the wrap table.
-	oab		; Set the bit of the current line number.
+	ora b		; Set the bit of the current line number.
 	bra bitsav	; Save the bit.
 
 bitpos:
@@ -222,8 +222,8 @@ bitpos:
 
 handle_char:
 	ldb #0		; Reset the B register.
-	stb e		; Set the temporary row position to zero, in case we get a newline.
-	stb b		; Enable insert mode.
+	stb rege	; Set the temporary row position to zero, in case we get a newline.
+	stb regb	; Enable insert mode.
 	pha 		; Save the character.
 	phy.w		; Save the cursor index.
 	cmp #'\n'	; Was the character that was typed, a newline?
@@ -232,16 +232,16 @@ handle_char:
 @print:
 	ply.w		; Get back the cursor index.
 	pla 		; Get back the character.
-	ldb e		; Is the temporary row position non zero?
+	ldb rege	; Is the temporary row position non zero?
 	bne @row	; Yes, so reset the row positon.
 @print1:
 	jsr print_char	; No, so print the character.
-	lda a		; Get the return value.
+	lda rega	; Get the return value.
 	cmp #'\n'	; Is the return value, a newline?
 	beq @true	; Yes, so return true.
 	bra @false	; No, so return false.
 @row:
-	ldb e		; Get the temporary row position.
+	ldb rege	; Get the temporary row position.
 	cpb #maxrow	; Is temporary row position, at, or above the bottom of the screen?
 	beq @row2	; Yes, so leave it as is.
 	bcs @row1	; No, so set it to the bottom of the screen.
@@ -272,7 +272,7 @@ cmd_cpy:
 	clc		; Clear the carry flag, so that nothing odd occurs.
 @start:
 	sta scr_row	; Set the row position to the end of the line.
-	sta e		; Save it into the temporary row posiition.
+	sta rege	; Save it into the temporary row posiition.
 	jsr findst	; Find the start of the line.
 	clc		; Clear the carry flag.
 	lda scr_row	; Get the row position.
@@ -302,12 +302,12 @@ cmd_cpy:
 	iny		; No, so increment the screen index.
 	inb		; Increment the byte count.
 	lsr #8		; Shift in the next byte.
-	stb g		; Save the byte count.
+	stb regg	; Save the byte count.
 	tab		; Save the string buffer.
 	and #$FF	; Is this byte of the buffer, a null terminator?
 	beq @end1	; Yes, so we're done.
 	tba		; No so get back the string buffer.
-	ldb g		; Get back the byte count.
+	ldb regg	; Get back the byte count.
 	cpb #7		; Did we shift in eight bytes?
 	beq @loop	; Yes, so get eight more bytes.
 	bra @loop1	; No, so keep shifting in more bytes.
@@ -365,13 +365,13 @@ findend:
 
 
 print_char:
-	sta a		; Save the typed character for now.
+	sta rega	; Save the typed character for now.
 	ldb #2		; Make sure that set_ptr sets the third pointer.
 	lda.d #buffer	; Set the third pointer to the start of the screen buffer.
 	jsr set_ptr	;
 	ldb #0		; Set B to zero.
 	tba		; Set the Accumulator to zero.
-	lda a		; Get back the character.
+	lda rega	; Get back the character.
 	cmp #$1B	; Did the user type an escape character?
 	beq esc		; Yes, so go check the escape code.
 	cmp #'\n'	; No, but did the user type a newline?
@@ -388,10 +388,10 @@ print_char:
 	beq bs		; Yes, so treat it as a backspace.
 printc:
 	lda #0		; No, so start trying to print a character.
-	sta d		;
+	sta regd	;
 	lda (ptr3), y	; Are we at the end of the string?
 	beq @save	; Yes, so just print the character.
-	lda b		; No, but was the flag set?
+	lda regb	; No, but was the flag set?
 	bne @save	; Yes, so don't shift the line.
 	sty.w scr_ptr	; No, so save the cursor index for later.
 	jsr fndend	; Find the end of the line.
@@ -401,19 +401,19 @@ printc:
 	sta scr_tcol	;
 @update1:
 	jsr findend	; Find the end of the line.
-	sta e		; Use it for redrawing the line.
+	sta rege	; Use it for redrawing the line.
 	sta scr_row	; Set the row position to to the end of the line.
 	jsr findst	; Find the start of the line.
 	lda scr_row	; Get the start of the line.
 @update2:
-	sta f		; Set the starting line, to the start of the line.
+	sta regf	; Set the starting line, to the start of the line.
 	jsr rdrw_ln	; Redraw the line.
 	lda scr_trow	; Get the real row position back.
 	sta scr_row	;
 	lda scr_tcol	; Get the real column position back.
 	sta scr_col	;
 	jsr update_pos	; Update the cursor's position.
-	dec d		;
+	dec regd	;
 	bra @save1	;
 @shift:
 	ldy.w scr_ptr3	;
@@ -421,33 +421,33 @@ printc:
 	tyx		;
 	dey		;
 	ldb #1		;
-	stb d		;
+	stb regd	;
 	jsr shftln	;
 	ldb #1		;
-	stb d		;
-	lda a		;
+	stb regd	;
+	lda rega	;
 	sta (ptr3), y	; store typed character into the input buffer.
 	lda scr_row	;
 	sta scr_trow	;
 	bra @update	;
 @save:
-	ldb d		;
+	ldb regd	;
 	bne @update	;
 @save1:
-	lda a		;
+	lda rega	;
 	sta (ptr3), y	; store typed character into the input buffer.
 @incr:
 	inc scr_col	; Increment the cursor's x coordinate.
 	iny		;
 @wrapped:
 	ldb #1		;
-	stb f		;
+	stb regf	;
 	ldb scr_col	;
 	cpb #maxcol+1	;
 	bcs @scrolled	;
 @print:
 	sta scr		; Echo typed character.
-	ldb f		;
+	ldb regf	;
 	beq @wrap	;
 	bra printc_end	;
 @scrolled:
@@ -456,7 +456,7 @@ printc:
 	bcs @scroll	;
 @wrapped2:
 	ldb #0		;
-	stb f		;
+	stb regf	;
 	bra @print	;
 @scroll:
 	sta scr		; Echo typed character.
@@ -501,7 +501,7 @@ nl:
 	jsr update_pos	; Update the cursor's position.
 @end:
 	lda #'\n'	; Print the newline.
-	sta a		;
+	sta rega	;
 	rts		;
 
 
@@ -580,8 +580,8 @@ bs:
 	jsr update_pos	; Update the cursor's position.
 back:
 	ldb #0		; Reset B, and some flags.
-	stb e		;
-	stb f		;
+	stb rege	;
+	stb regf	;
 	lda scr_row	; Save the current row position for later.
 	sta scr_trow	;
 	jsr findend	; Find the end of the line.
@@ -599,15 +599,15 @@ back:
 	tyx		; Copy the current cursor index to X.
 	iny		; Increment cursor index.
 	ldb #0		; Set shifting direction to left.
-	stb d		;
+	stb regd	;
 	jsr shftln	; Shift line back by one character.
 	lda #$7F	; Print a backspace to the screen.
 	sta scr		;
-	lda e		; Are we updating more than one line?
+	lda rege	; Are we updating more than one line?
 	beq @load	; No, so skip to the next step.
 @find_end:
 	jsr findend	; Yes, so find the end of the line.
-	sta e		; Set the end parameter to it.
+	sta rege	; Set the end parameter to it.
 	lda scr_col	; Save the current column position for now.
 	sta scr_tcol	;
 	jsr rdrw_ln	; Start redrawing the line.
@@ -621,13 +621,13 @@ back:
 	rts		; We are done.
 @update:
 	lda scr_row	; Set the line to start redrawing, to the start of the line.
-	sta f		;
-	inc e		; Set the redraw flag to true.
+	sta regf	;
+	inc rege	; Set the redraw flag to true.
 	bra @shift	; Start shifting the line back.
 
 
 shftln:
-	ldb d		; Is the flag not set?
+	ldb regd	; Is the flag not set?
 	beq @dec_loop	; Yes, so shift, and decrement.
 	ldb #0		; Clear the B register.
 	bra @inc_loop	; No, so shift, and increment.
@@ -680,14 +680,14 @@ shftln:
 	sta (ptr3), y	;
 @end1:
 	jsr findend	; Find the ending line.
-	sta d		; Save ending line for later.
+	sta regd	; Save ending line for later.
 	lda (ptr3), y	; Is this character a space?
 	cmp #$20	;
 	bne @end5	; No, so skip the conversion.
 	lda #0		; Yes, so convert it back to zero.
 	sta (ptr3), y	;
 @end2:
-	lda d		; Get the ending line.
+	lda regd	; Get the ending line.
 	cmp scr_row	; Is the ending line greater than the starting line?
 	beq @end5	; No, so we're done.
 	bcs @wrap	; Yes, so set the wrap bit.
@@ -712,23 +712,23 @@ esc:
 	lda status	; No, so wait for the next character.
 	beq @end	; We have an error, so discard it, and go back to getting user input.
 	lda kbd		; Get the escape code.
-	sta c		; Store the escape code, until we need it.
+	sta regc	; Store the escape code, until we need it.
 	lda #0		; Set the D pseudo register to zero.
-	sta d		;
+	sta regd	;
 	jsr isup	; Check if the user pressed up.
-	lda d		; Did the user press up?
+	lda regd	; Did the user press up?
 	bne @end	; Yes, so we're done.
 	jsr isdown	; No, so check if the user pressed down.
-	lda d		; Did the user press down?
+	lda regd	; Did the user press down?
 	bne @end	; Yes, so we're done.
 	lda #0		; No, so check if the user pressed left.
 	jsr isleft	;
-	lda d		; Did the user press left?
+	lda regd	; Did the user press left?
 	bne @end	; Yes, so we're done.
 	jsr isright	; No, so check if the user pressed right.
 @end:
 	lda #0		; Clear the D pseudo register.
-	sta d		;
+	sta regd	;
 	rts		; We are done.
 
 shftesc:
@@ -737,27 +737,27 @@ shftesc:
 	lda status	; Wait for the next character.
 	beq @end	; We have an error, so discard it, and go back to getting user input.
 	lda kbd		; Get the escape code.
-	sta c		; Store the escape code, until we need it.
+	sta regc	; Store the escape code, until we need it.
 	lda #0		; Use the D pseudo register as a skip flag.
-	sta d		;
+	sta regd	;
 	jsr isshftup	; Check if the user pressed shift+up.
-	lda d		; Was it successful?
+	lda regd	; Was it successful?
 	bne @end	; Yes, so we're done.
 	jsr isshftdown	; No, so check if the user pressed shift+down.
 @end:
 	lda #0		; Clear the D pseudo register.
-	sta d		;
+	sta regd	;
 	rts		; We are done.
 
 
 isup:
-	lda c		; Load the escape code into the accumulator.
+	lda regc	; Load the escape code into the accumulator.
 	cmp #'A'	; Did the user press the up arrow key?
 	bne @end	; No, so we're done.
 	lda scr_row	; Yes, but is the cursor at the top of the screen?
 	beq @scroll	; Yes, so check if we need to scroll.
 @check2:
-	lda c		; No, so load the escape code back into the accumulator.
+	lda regc	; No, so load the escape code back into the accumulator.
 	cmp #'A'	; Did the user press the up arrow key?
 	beq @up		; Yes, so move the cursor up.
 	bra @end	; No, so we're done.
@@ -765,26 +765,26 @@ isup:
 	dec scr_row	; Move the cursor up a line.
 	jsr update_pos	; Update it's position.
 	lda #1		; Tell the escape routine that we succeded.
-	sta d		;
+	sta regd	;
 	rts		; We are done.
 @scroll:
 	lda scr_str	; Are we at the top of the screen buffer?
 	beq @end	; Yes, so we're done.
 	jsr scrl_up	; No, so scroll up.
 	lda #1		; Tell the escape routine that we were successful.
-	sta d		;
+	sta regd	;
 @end:
 	rts		; End of isup.
 
 
 isdown:
-	lda c		; Load the escape code into the accumulator.
+	lda regc	; Load the escape code into the accumulator.
 	cmp #'B'	; Did the user press the down arrow key?
 	bne @end	; No, so we're done.
 	lda scr_row	; Yes, so start checking the y coordinate of the cursor.
 	cmp #maxrow	; Is the cursor at the bottom of the screen?
 	beq @scroll	; Yes, so scroll down.
-	lda c		; No, so load the escape code back into the accumulator.
+	lda regc	; No, so load the escape code back into the accumulator.
 	cmp #'B'	; Did the user press the down arrow key?
 	beq @down	; Yes, so move the cursor down.
 	bra @end	; No, so we're done.
@@ -792,7 +792,7 @@ isdown:
 	inc scr_row	; Move the cursor down a line.
 	jsr update_pos	; Update it's position.
 	lda #1		; Tell the escape routine that we succeded.
-	sta d		;
+	sta regd	;
 	rts		; We are done.
 @scroll:
 	lda scr_row	; Save the cursor's row number.
@@ -805,13 +805,13 @@ isdown:
 	lda scr_tcol	; Load the cursor's column number.
 	sta scr_col	;
 	lda #1		; Tell the escape routine that we were successful.
-	sta d		;
+	sta regd	;
 @end:
 	rts		; End of isdown.
 
 
 isright:
-	lda c		; Load the escape code into the accumulator.
+	lda regc	; Load the escape code into the accumulator.
 	cmp #'C'	; Did the user press the right arrow key?
 	bne @end2	; No, so we're done.
 	lda scr_col	; Yes, so start checking the x coordinate of the cursor.
@@ -854,12 +854,12 @@ isright:
 
 
 isleft:
-	lda c		; Load the escape code into the accumulator.
+	lda regc	; Load the escape code into the accumulator.
 	cmp #'C'	; Did the user press right?
 	beq @end1	; Yes, so we're done
 	lda scr_col	; No, but is the cursor at the far left of the screen?
 	beq @wrap	; Yes, so start checking if this is a wrapped line.
-	lda c		; No, so load the escape code back into the accumulator.
+	lda regc	; No, so load the escape code back into the accumulator.
 	cmp #'D'	; Did the user press the left arrow key?
 	beq @left	; Yes, so move the cursor left.
 	bra @end1	; No, so we're done.
@@ -877,7 +877,7 @@ isleft:
 	lda #maxcol	; Move the Cursor to the far right of the screen.
 	sta scr_col	;
 	lda #1		; Tell the escape routine that we were successful.
-	sta d		;
+	sta regd	;
 	lda scr_row	; Are we at the top of the screen?
 	beq @scroll	; Yes, so check if we need to scroll.
 	bra @end	; No, so we're done.
@@ -892,7 +892,7 @@ isleft:
 	dec scr_col	; Move the cursor left a character.
 	jsr update_pos	; Update it's position.
 	lda #1		; Tell the escape routine that we succeded.
-	sta d		;
+	sta regd	;
 	rts		; We are done
 @end:
 	jsr update_pos	; Update the cursor position.
@@ -903,34 +903,34 @@ isleft:
 
 
 isshftup:
-	lda c		; Load the escape code back into the accumulator.
+	lda regc	; Load the escape code back into the accumulator.
 	cmp #'A'	; Did the user press the up arrow key?
 	bne @end	;
 	lda #1		;
-	sta d		;
+	sta regd	;
 	lda scr_str	;
 	beq @end	;
 @shftup:
 	jsr scrl_up	;
 	lda #1		;
-	sta d		;
+	sta regd	;
 @end:
 	rts		;
 
 
 isshftdown:
-	lda c		; Load the escape code back into the accumulator.
+	lda regc	; Load the escape code back into the accumulator.
 	cmp #'B'	; Did the user press the down arrow key?
 	bne @end	;
 	lda #1		;
-	sta d		;
+	sta regd	;
 	lda scr_end	;
 	cmp #71		;
 	bcs @end	;
 @shftdown:
 	jsr scrl_down	;
 	lda #1		;
-	sta d		;
+	sta regd	;
 @end:
 	rts		;
 
@@ -948,7 +948,7 @@ update_ptr:
 
 update_pos:
 	ldb #1		; Set the F pseudo register to one, to fix some bugs.
-	stb f		;
+	stb regf	;
 	jsr update_ptr	; Update the screen buffer index.
 	tay		; Place the index into the Y register.
 	tba		; Reset A.
@@ -1070,14 +1070,14 @@ rdrw_row:
 rdrw_ln:
 	lda scr_row	;
 	pha 		;
-	lda f		;
+	lda regf	;
 	sta scr_row	;
 	lda scr_col	;
 	pha 		;
 	jsr update_pos	;
 @loop:
 	lda scr_row	;
-	cmp e		;
+	cmp rege	;
 	beq @loop1	;
 	bcs @end	;
 @loop1:
@@ -1092,8 +1092,8 @@ rdrw_ln:
 	sta scr_row	;
 	jsr update_pos	;
 	lda #0		;
-	sta e		;
-	sta f		;
+	sta rege	;
+	sta regf	;
 	rts		;
 
 
diff --git a/programs/sub-suite/subsuite.s b/programs/sub-suite/subsuite.s
index 36ac541..d425550 100644
--- a/programs/sub-suite/subsuite.s
+++ b/programs/sub-suite/subsuite.s
@@ -18,5 +18,7 @@
 .qword reset
 a
 ;l a
+;.org reset
+;v
 ;q
 d
diff --git a/programs/sub-suite/utils.s b/programs/sub-suite/utils.s
index 046164a..3ab948b 100644
--- a/programs/sub-suite/utils.s
+++ b/programs/sub-suite/utils.s
@@ -176,7 +176,7 @@ isdelm2:
 @loop:
 	ldb dtab2, x	; Get the compare value.
 	beq @other	; We hit the end of the table, so check for the others.
-	cab		; Are they the same?
+	cmp b		; Are they the same?
 	beq @r1		; Yes, so return 1.
 	inx		; No, so increment the table index.
 	bra @loop	; Keep looping.
@@ -202,11 +202,11 @@ isdelm2:
 
 isdelm:
 	ldx #0		; Reset X.
-	stx a		; Reset the shift value.
+	stx rega	; Reset the shift value.
 @loop:
 	ldb dtab, x	; Get the compare value.
 	beq @other	; We hit the end of the table, so check for the others.
-	cab		; Are they the same?
+	cmp b		; Are they the same?
 	beq @rshft	; Yes, so return 1 << index.
 	inx		; No, so increment the table index.
 	bra @loop	; Keep looping.
@@ -222,10 +222,10 @@ isdelm:
 	lda #0		; Return 0.
 	rts		; End of isdelm.
 @rshft:
-	stx a		; Save the shift value.
+	stx rega	; Save the shift value.
 	ldx #0		; Reset X.
 	lda #1		; Set up the bitshift.
-	lsl a		; Return 1 << X.
+	lsl rega	; Return 1 << X.
 	rts		; End of isdelm.
 
 
@@ -235,7 +235,7 @@ get_ptok:
 @loop:
 	ldb ptok_tab, x	; Get the compare value.
 	beq @other	; We hit the end of the table, so check for the others.
-	cab		; Are they the same?
+	cmp b		; Are they the same?
 	beq @rtab	; Yes, so return X.
 	inx		; No, so increment the table index.
 	bra @loop	; Keep looping.
diff --git a/sux.c b/sux.c
index f6d01e7..4a08d59 100644
--- a/sux.c
+++ b/sux.c
@@ -182,7 +182,7 @@ void *run(void *args) {
 			case CPS_IMP: /* Clear Processor Status. */
 				cpu->ps.u64 = 0;
 				break;
-			case AAB_IMP: /* Add Accumulator with carry by B register. */
+			case ADC_B: /* ADC B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case ADC_IMM:  /* ADC Immediate. */
 			case ADC_AB: /* ADC Absolute. */
@@ -212,7 +212,7 @@ void *run(void *args) {
 			case JMP_IN: /* JMP Indirect. */
 				cpu->pc = address.u64;
 				break;
-			case SAB_IMP: /* Subtract Accumulator with carry by B register. */
+			case SBC_B: /* SBC B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case SBC_IMM: /* SBC Immediate. */
 			case SBC_AB: /* SBC Absolute. */
@@ -225,7 +225,7 @@ void *run(void *args) {
 			case PLY_IMP: cpu->y             = pull(cpu, size, thread); break; /* PuLl Y register from stack. */
 			case PLX_IMP: cpu->x             = pull(cpu, size, thread); break; /* PuLl X register from stack. */
 				break;
-			case ABA_IMP: /* bitwise And with Accumulator, and B register. */
+			case AND_B: /* AND B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case AND_IMM: /* AND Immediate. */
 			case AND_AB: /* AND Absolute. */
@@ -237,7 +237,7 @@ void *run(void *args) {
 					cpu->pc = address.u64;
 				}
 				break;
-			case OAB_IMP: /* bitwise Or with Accumulator, and B register. */
+			case ORA_B: /* ORA B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case ORA_IMM: /* ORA Immediate. */
 			case ORA_AB: /* ORA Absolute. */
@@ -252,7 +252,7 @@ void *run(void *args) {
 					cpu->pc = address.u64;
 				}
 				break;
-			case XAB_IMP: /* bitwise Xor with Accumulator, and B register. */
+			case XOR_B: /* XOR B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case XOR_IMM: /* XOR Immediate. */
 			case XOR_AB: /* XOR Absolute. */
@@ -267,7 +267,7 @@ void *run(void *args) {
 					cpu->pc = address.u64;
 				}
 				break;
-			case LLB_IMP: /* Logical shift Left accumulator by B. */
+			case LSL_B: /* LSL B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case LSL_IMM: /* LSL Immediate. */
 			case LSL_AB: /* LSL Absolute. */
@@ -310,14 +310,14 @@ void *run(void *args) {
 					cpu->pc = address.u64;
 				}
 				break;
-			case LRB_IMP: /* Logical shift Right accumulator by B. */
+			case LSR_B: /* LSR B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case LSR_IMM: /* LSR Immediate. */
 			case LSR_AB: /* LSR Absolute. */
 			case LSR_Z: /* LSR Zero Matrix. */
 				lsr(cpu, value.u64, thread);
 				break;
-			case ARB_IMP: /* Arithmetic shift Right accumulator by B. */
+			case ASR_B: /* ASR B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case ASR_IMM: /* ASR Immediate. */
 			case ASR_AB: /* ASR Absolute. */
@@ -364,7 +364,7 @@ void *run(void *args) {
 					cpu->pc = address.u64;
 				}
 				break;
-			case RLB_IMP: /* Rotate Left accumulator by B. */
+			case ROL_B: /* ROL B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case ROL_IMM: /* ROL Immediate. */
 			case ROL_AB: /* ROL Absolute. */
@@ -376,7 +376,7 @@ void *run(void *args) {
 					cpu->pc = address.u64;
 				}
 				break;
-			case RRB_IMP: /* Rotate Right accumulator by B. */
+			case ROR_B: /* ROR B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case ROR_IMM: /* ROR Immediate. */
 			case ROR_AB: /* ROR Absolute. */
@@ -388,7 +388,7 @@ void *run(void *args) {
 					cpu->pc = address.u64;
 				}
 				break;
-			case MAB_IMP: /* Multiply Accumulator by B. */
+			case MUL_B: /* MUL B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case MUL_IMM: /* MUL Immediate. */
 			case MUL_AB: /* MUL Absolute. */
@@ -401,7 +401,7 @@ void *run(void *args) {
 				}
 				break;
 			case DIV_IMM: /* DIV Immediate. */
-			case DAB_IMP: /* Divide Accumulator by B. */
+			case DIV_B: /* DIV B register. */
 			case DIV_AB: /* DIV Absolute. */
 			case DIV_Z: /* DIV Zero Matrix. */
 				divd(cpu, value.u64, opcode, thread);
@@ -417,7 +417,7 @@ void *run(void *args) {
 			case CPB_IY: /* CPB Indirect Indexed. */
 				cmp(cpu, value.u64, cpu->b, thread);
 				break;
-			case CAB_IMP: /* Compare Accumulator, and B. */
+			case CMP_B: /* CMP B register. */
 				value.u64 = cpu->b; /* Falls Through. */
 			case CMP_IMM: /* CMP Immediate. */
 			case CMP_AB: /* CMP Absolute. */
diff --git a/sux.h b/sux.h
index 4ff992e..abc6b7f 100644
--- a/sux.h
+++ b/sux.h
@@ -50,6 +50,7 @@ static inline uint64_t get_addr(struct sux *cpu, uint64_t *tmpaddr, uint8_t opco
 	address.u64 = 0;
 	value.u64 = 0;
 	switch (optype[opcode]) {
+		case BREG:
 		case IMPL:
 			break;
 		case IMM:
@@ -125,6 +126,7 @@ static inline uint64_t get_addr(struct sux *cpu, uint64_t *tmpaddr, uint8_t opco
 						iclk++;
 						#endif
 					}
+					/* Falls Through. */
 				case IND:
 					setreg(value.u8, +, 0, addr, +, address.u64, 7);
 					#if getclk
@@ -293,7 +295,7 @@ static inline void mul(struct sux *cpu, uint64_t value, uint8_t thread) {
 
 static inline void divd(struct sux *cpu, uint64_t value, uint8_t opcode, uint8_t thread) {
 	uint64_t sum = cpu->a/value;
-	if (opcode != DAB_IMP) {
+	if (opcode != DIV_B) {
 		cpu->b = cpu->a % value;
 	} else {
 		value = cpu->b;
@@ -364,4 +366,3 @@ static inline void store(struct sux *cpu, uint64_t address, uint64_t reg, uint8_
 	#endif
 	#endif
 }
-
diff --git a/tables.h b/tables.h
index 0c955dd..16d5563 100644
--- a/tables.h
+++ b/tables.h
@@ -3,171 +3,171 @@
 static const uint8_t optype[0x100] = {
 	[CPS_IMP ] = IMPL,
 	[ADC_IMM ] = IMM,
-	[AAB_IMP ] = IMPL,
-	[ADC_AB  ] = ABS,
-	[LDA_IN  ] = IND,
+	[ROR_IMM ] = IMM,
+	[CPB_IMM ] = IMM,
 	[ADC_Z   ] = ZM,
+	[ROR_Z   ] = ZM,
+	[CPB_Z   ] = ZM,
 	[CLC_IMP ] = IMPL,
-	[DEX_IMP ] = IMPL,
-	[DEC_IMP ] = IMPL,
-	[DEC_AB  ] = ABS,
-	[DEC_Z   ] = ZM,
+	[TAB_IMP ] = IMPL,
+	[STY_Z   ] = ZM,
 	[JMP_AB  ] = ABS,
+	[ADC_AB  ] = ABS,
+	[ROR_AB  ] = ABS,
+	[CPB_AB  ] = ABS,
+	[ADC_B   ] = BREG,
+	[ROR_B   ] = BREG,
+	[STY_AB  ] = ABS,
+	[SEC_IMP ] = IMPL,
+	[TBA_IMP ] = IMPL,
+	[JMP_Z   ] = ZM,
 	[SBC_IMM ] = IMM,
-	[SAB_IMP ] = IMPL,
-	[SBC_AB  ] = ABS,
-	[STA_IN  ] = IND,
+	[MUL_IMM ] = IMM,
+	[CPX_IMM ] = IMM,
 	[SBC_Z   ] = ZM,
-	[SEC_IMP ] = IMPL,
-	[INX_IMP ] = IMPL,
-	[INC_IMP ] = IMPL,
-	[INC_AB  ] = ABS,
-	[INC_Z   ] = ZM,
+	[MUL_Z   ] = ZM,
+	[CPX_Z   ] = ZM,
+	[CLI_IMP ] = IMPL,
+	[TAY_IMP ] = IMPL,
+	[STA_Z   ] = ZM,
+	[STA_ZX  ] = ZMX,
 	[JSR_AB  ] = ABS,
+	[SBC_AB  ] = ABS,
+	[MUL_AB  ] = ABS,
+	[CPX_AB  ] = ABS,
+	[SBC_B   ] = BREG,
+	[MUL_B   ] = BREG,
+	[STA_AB  ] = ABS,
+	[SEI_IMP ] = IMPL,
+	[TYA_IMP ] = IMPL,
+	[STA_ZY  ] = ZMY,
+	[STA_IX  ] = INDX,
+	[JSR_Z   ] = ZM,
 	[AND_IMM ] = IMM,
-	[ABA_IMP ] = IMPL,
-	[AND_AB  ] = ABS,
-	[CMP_IN  ] = IND,
+	[DIV_IMM ] = IMM,
+	[CPY_IMM ] = IMM,
 	[AND_Z   ] = ZM,
-	[CLI_IMP ] = IMPL,
-	[DEY_IMP ] = IMPL,
-	[CPB_IMM ] = IMM,
-	[CPB_AB  ] = ABS,
-	[CPB_Z   ] = ZM,
-	[JMP_Z   ] = ZM,
-	[ORA_IMM ] = IMM,
-	[OAB_IMP ] = IMPL,
-	[ORA_AB  ] = ABS,
-	[LDB_IN  ] = IND,
-	[ORA_Z   ] = ZM,
-	[SEI_IMP ] = IMPL,
-	[INY_IMP ] = IMPL,
-	[CPX_IMM ] = IMM,
-	[CPX_AB  ] = ABS,
+	[DIV_Z   ] = ZM,
 	[CPY_Z   ] = ZM,
-	[JSR_Z   ] = ZM,
-	[XOR_IMM ] = IMM,
-	[XAB_IMP ] = IMPL,
-	[XOR_AB  ] = ABS,
-	[STB_IN  ] = IND,
-	[XOR_Z   ] = ZM,
 	[CLV_IMP ] = IMPL,
-	[CPY_IMM ] = IMM,
+	[TAX_IMP ] = IMPL,
+	[STB_Z   ] = ZM,
+	[STB_ZX  ] = ZMX,
+	[RTS_IMP ] = IMPL,
+	[AND_AB  ] = ABS,
+	[DIV_AB  ] = ABS,
 	[CPY_AB  ] = ABS,
-	[CPX_Z   ] = ZM,
-	[BPO_REL ] = REL,
-	[LSL_IMM ] = IMM,
-	[LLB_IMP ] = IMPL,
-	[LSL_AB  ] = ABS,
-	[CPB_IN  ] = IND,
-	[LSL_Z   ] = ZM,
+	[AND_B   ] = BREG,
+	[DIV_B   ] = BREG,
+	[STB_AB  ] = ABS,
 	[WAI_IMP ] = IMPL,
-	[PHP_IMP ] = IMPL,
-	[TAB_IMP ] = IMPL,
-	[LDA_IY  ] = INDY,
-	[LDA_IX  ] = INDX,
-	[BNG_REL ] = REL,
-	[LSR_IMM ] = IMM,
-	[LRB_IMP ] = IMPL,
-	[LSR_AB  ] = ABS,
-	[LDY_IN  ] = IND,
-	[LSR_Z   ] = ZM,
+	[TXA_IMP ] = IMPL,
+	[STB_ZY  ] = ZMY,
+	[STB_IX  ] = INDX,
+	[RTI_IMP ] = IMPL,
+	[ORA_IMM ] = IMM,
+	[ASR_IMM ] = IMM,
+	[LDX_IMM ] = IMM,
+	[ORA_Z   ] = ZM,
+	[ASR_Z   ] = ZM,
+	[LDX_Z   ] = ZM,
 	[BRK_IMP ] = IMPL,
+	[TYX_IMP ] = IMPL,
+	[STX_Z   ] = ZM,
+	[PHP_IMP ] = IMPL,
+	[BPO_REL ] = REL,
+	[ORA_AB  ] = ABS,
+	[ASR_AB  ] = ABS,
+	[LDX_AB  ] = ABS,
+	[ORA_B   ] = BREG,
+	[ASR_B   ] = BREG,
+	[STX_AB  ] = ABS,
+	[DEY_IMP ] = IMPL,
+	[TXY_IMP ] = IMPL,
+	[CPB_IN  ] = IND,
 	[PLP_IMP ] = IMPL,
-	[TBA_IMP ] = IMPL,
-	[STA_IY  ] = INDY,
-	[STA_IX  ] = INDX,
+	[BNG_REL ] = REL,
+	[XOR_IMM ] = IMM,
+	[CMP_IMM ] = IMM,
+	[DEC_IMP ] = IMPL,
+	[XOR_Z   ] = ZM,
+	[CMP_Z   ] = ZM,
+	[DEC_Z   ] = ZM,
+	[INY_IMP ] = IMPL,
+	[TSX_IMP ] = IMPL,
+	[CMP_IN  ] = IND,
+	[PHA_IMP ] = IMPL,
 	[BCS_REL ] = REL,
-	[ROL_IMM ] = IMM,
-	[RLB_IMP ] = IMPL,
-	[ROL_AB  ] = ABS,
+	[XOR_AB  ] = ABS,
+	[CMP_AB  ] = ABS,
+	[DEC_AB  ] = ABS,
+	[XOR_B   ] = BREG,
+	[CMP_B   ] = BREG,
+	[DEB_IMP ] = IMPL,
+	[TXS_IMM ] = IMM,
 	[STY_IN  ] = IND,
-	[ROL_Z   ] = ZM,
-	[LDA_ZY  ] = ZMY,
-	[PHA_IMP ] = IMPL,
-	[TAY_IMP ] = IMPL,
-	[CMP_IY  ] = INDY,
-	[CMP_IX  ] = INDX,
-	[BCC_REL ] = REL,
-	[ROR_IMM ] = IMM,
-	[RRB_IMP ] = IMPL,
-	[ROR_AB  ] = ABS,
-	[LDX_IN  ] = IND,
-	[ROR_Z   ] = ZM,
-	[STA_ZY  ] = ZMY,
 	[PLA_IMP ] = IMPL,
-	[TYA_IMP ] = IMPL,
-	[LDB_IY  ] = INDY,
-	[LDB_IX  ] = INDX,
-	[BEQ_REL ] = REL,
-	[MUL_IMM ] = IMM,
-	[MAB_IMP ] = IMPL,
-	[MUL_AB  ] = ABS,
-	[STX_IN  ] = IND,
-	[MUL_Z   ] = ZM,
-	[LDB_ZY  ] = ZMY,
+	[BCC_REL ] = REL,
+	[LSL_IMM ] = IMM,
+	[LDY_IMM ] = IMM,
+	[INC_IMP ] = IMPL,
+	[LSL_Z   ] = ZM,
+	[LDY_Z   ] = ZM,
+	[INC_Z   ] = ZM,
+	[INB_IMP ] = IMPL,
+	[CMP_IX  ] = INDX,
+	[LDY_IN  ] = IND,
 	[PHB_IMP ] = IMPL,
-	[TAX_IMP ] = IMPL,
-	[STB_IY  ] = INDY,
-	[STB_IX  ] = INDX,
-	[BNE_REL ] = REL,
-	[DIV_IMM ] = IMM,
-	[DAB_IMP ] = IMPL,
-	[DIV_AB  ] = ABS,
-	[JSR_IN  ] = IND,
-	[DIV_Z   ] = ZM,
-	[STB_ZY  ] = ZMY,
-	[PLB_IMP ] = IMPL,
-	[TXA_IMP ] = IMPL,
-	[CPB_IY  ] = INDY,
+	[BEQ_REL ] = REL,
+	[LSL_AB  ] = ABS,
+	[LDY_AB  ] = ABS,
+	[INC_AB  ] = ABS,
+	[LSL_B   ] = BREG,
+	[DEX_IMP ] = IMPL,
 	[CPB_IX  ] = INDX,
-	[BVS_REL ] = REL,
-	[CMP_IMM ] = IMM,
-	[CAB_IMP ] = IMPL,
-	[CMP_AB  ] = ABS,
-	[JMP_IN  ] = IND,
-	[CMP_Z   ] = ZM,
-	[LDA_ZX  ] = ZMX,
-	[LDX_IMM ] = IMM,
-	[TYX_IMP ] = IMPL,
-	[LDX_AB  ] = ABS,
-	[LDX_Z   ] = ZM,
-	[BVC_REL ] = REL,
+	[LDX_IN  ] = IND,
+	[PLB_IMP ] = IMPL,
+	[BNE_REL ] = REL,
+	[LSR_IMM ] = IMM,
 	[LDA_IMM ] = IMM,
-	[DEB_IMP ] = IMPL,
-	[LDA_AB  ] = ABS,
+	[LDA_IN  ] = IND,
+	[LSR_Z   ] = ZM,
 	[LDA_Z   ] = ZM,
-	[STA_ZX  ] = ZMX,
+	[LDA_ZX  ] = ZMX,
+	[INX_IMP ] = IMPL,
+	[STA_IY  ] = INDY,
+	[STX_IN  ] = IND,
 	[PHY_IMP ] = IMPL,
-	[TXY_IMP ] = IMPL,
-	[STA_AB  ] = ABS,
-	[STA_Z   ] = ZM,
-	[BRA_REL ] = REL,
+	[BVS_REL ] = REL,
+	[LSR_AB  ] = ABS,
+	[LDA_AB  ] = ABS,
+	[STA_IN  ] = IND,
+	[LSR_B   ] = BREG,
+	[LDA_ZY  ] = ZMY,
+	[LDA_IX  ] = INDX,
+	[LDA_IY  ] = INDY,
+	[STB_IY  ] = INDY,
+	[JSR_IN  ] = IND,
+	[PLY_IMP ] = IMPL,
+	[BVC_REL ] = REL,
+	[ROL_IMM ] = IMM,
 	[LDB_IMM ] = IMM,
-	[INB_IMP ] = IMPL,
-	[LDB_AB  ] = ABS,
+	[LDB_IN  ] = IND,
+	[ROL_Z   ] = ZM,
 	[LDB_Z   ] = ZM,
 	[LDB_ZX  ] = ZMX,
-	[PLY_IMP ] = IMPL,
-	[TSX_IMP ] = IMPL,
-	[STB_AB  ] = ABS,
-	[STB_Z   ] = ZM,
-	[RTS_IMP ] = IMPL,
-	[LDY_IMM ] = IMM,
-	[LDY_AB  ] = ABS,
-	[LDY_Z   ] = ZM,
-	[STB_ZX  ] = ZMX,
-	[PHX_IMP ] = IMPL,
+	[LDB_IY  ] = INDY,
 	[NOP_IMP ] = IMPL,
-	[STY_AB  ] = ABS,
-	[STY_Z   ] = ZM,
-	[RTI_IMP ] = IMPL,
-	[ASR_IMM ] = IMM,
-	[ARB_IMP ] = IMPL,
-	[ASR_AB  ] = ABS,
-	[ASR_Z   ] = ZM,
-	[PLX_IMP ] = IMPL,
-	[TXS_IMM ] = IMM,
-	[STX_AB  ] = ABS,
-	[STX_Z   ] = ZM
+	[JMP_IN  ] = IND,
+	[PHX_IMP ] = IMPL,
+	[BRA_REL ] = REL,
+	[ROL_AB  ] = ABS,
+	[LDB_AB  ] = ABS,
+	[STB_IN  ] = IND,
+	[ROL_B   ] = BREG,
+	[LDB_ZY  ] = ZMY,
+	[LDB_IX  ] = INDX,
+	[CMP_IY  ] = INDY,
+	[CPB_IY  ] = INDY,
+	[PLX_IMP ] = IMPL
 };
diff --git a/test/fib2.s b/test/fib2.s
index 9bb2406..ee58697 100644
--- a/test/fib2.s
+++ b/test/fib2.s
@@ -11,7 +11,7 @@ start:
 	clc		;
 fib:
 	tya		;
-	aab		; Add x with y. But did we also carry over?
+	adc b		; Add x with y. But did we also carry over?
 	bcs start	; Yes, so restart.
 	tax		;
 	tya		;
diff --git a/test/ind-addr.s b/test/ind-addr.s
index 005c016..aa4686b 100644
--- a/test/ind-addr.s
+++ b/test/ind-addr.s
@@ -14,11 +14,11 @@ main:
 	jmp main
 
 rotate_left:
-	rlb
+	rol b
 	rts
 
 rotate_right:
-	rrb
+	ror b
 	rts
 
 .org $FFC0
@@ -26,4 +26,3 @@ rotate_right:
 
 a
 d
-
diff --git a/test/popcnt2.s b/test/popcnt2.s
index aaa4743..503b074 100644
--- a/test/popcnt2.s
+++ b/test/popcnt2.s
@@ -10,7 +10,7 @@ popcnt:
 	tab		; Place the value in the B register.
 	deb		; Decrement the temp value by one.
 	iny		; Increment the bit count.
-	aba		; AND value with value-1.
+	and b		; AND value with value-1.
 	bra @loop	; Keep looping.
 @end:
 	tya		; Return the bit count.