Microcontroller User's Manual
MOTOROLA Chapter 29. Debug Support 29-41
Processor Status, DDATA Definition
bclr #imm,<ea>x PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bclr Dy,<ea>x PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bra.{b,w} PST = 0x5
bset #imm,<ea>x PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bset Dy,<ea>x PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bsr.{b,w} PST = 0x5, {PST = 0xB, DD = destination operand}
btst #imm,<ea>x PST = 0x1, {PST = 0x8, DD = source operand}
btst Dy,<ea>x PST = 0x1, {PST = 0x8, DD = source operand}
clr.b <ea>x PST = 0x1, {PST = 0x8, DD = destination operand}
clr.l <ea>x PST = 0x1, {PST = 0xB, DD = destination operand}
clr.w <ea>x PST = 0x1, {PST = 0x9, DD = destination operand}
cmp.l <ea>y,Rx PST = 0x1, {PST = 0xB, DD = source operand}
cmpi.l #imm,Dx PST = 0x1
divs.l <ea>y,Dx PST = 0x1, {PST = 0xB, DD = source operand}
divs.w <ea>y,Dx PST = 0x1, {PST = 0x9, DD = source operand}
divu.l <ea>y,Dx PST = 0x1, {PST = 0xB, DD = source operand}
divu.w <ea>y,Dx PST = 0x1, {PST = 0x9, DD = source operand}
eor.l Dy,<ea>x PST = 0x1, {PST = 0xB, DD = source}, {PST = 0xB, DD = destination}
eori.l #imm,Dx PST = 0x1
ext.l Dx PST = 0x1
ext.w Dx PST = 0x1
extb.l Dx PST = 0x1
ff1.l Dx PST = 0x1
jmp <ea>x PST = 0x5, {PST = [0x9AB], DD = target address}
1
jsr <ea>x PST = 0x5, {PST = [0x9AB], DD = target address},
{PST = 0xB , DD = destination operand}
1
lea <ea>y,Ax PST = 0x1
link.w Ay,#imm PST = 0x1, {PST = 0xB, DD = destination operand}
lsl.l {Dy,#imm},Dx PST = 0x1
lsr.l {Dy,#imm},Dx PST = 0x1
move.b <ea>y,<ea>x PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
move.l <ea>y,<ea>x PST = 0x1, {PST = 0xB, DD = source}, {PST = 0xB, DD = destination}
move.w <ea>y,<ea>x PST = 0x1, {PST = 0x9, DD = source}, {PST = 0x9, DD = destination}
move.w CCR,Dx PST = 0x1
Table 29-22. PST/DDATA Specification for User-Mode Instructions (continued)
Instruction Operand Syntax PST/DDATA