Motorola ColdFire MCF5281 User Manual
Page 658
Debug Support
30-40
Freescale Semiconductor
addq.l
#imm,
PST = 0x1, {PST = 0xB, DD = source}, {PST = 0xB, DD = destination}
addx.l
Dy,Dx
PST = 0x1
and.l
PST = 0x1, {PST = 0xB, DD = source operand}
and.l
Dy,
PST = 0x1, {PST = 0xB, DD = source}, {PST = 0xB, DD = destination}
andi.l
#imm,Dx
PST = 0x1
asl.l
{Dy,#imm},Dx
PST = 0x1
asr.l
{Dy,#imm},Dx
PST = 0x1
bitrev.l
Dx
PST = 0x1
byterev.l
Dx
PST = 0x1
bcc.{b,w}
if taken, then PST = 0x5, else PST = 0x1
bchg
#imm,
PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bchg
Dy,
PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bclr
#imm,
PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bclr
Dy,
PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bra.{b,w}
PST = 0x5
bset
#imm,
PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bset
Dy,
PST = 0x1, {PST = 0x8, DD = source}, {PST = 0x8, DD = destination}
bsr.{b,w}
PST = 0x5, {PST = 0xB, DD = destination operand}
btst
#imm,
PST = 0x1, {PST = 0x8, DD = source operand}
btst
Dy,
PST = 0x1, {PST = 0x8, DD = source operand}
clr.b
PST = 0x1, {PST = 0x8, DD = destination operand}
clr.l
PST = 0x1, {PST = 0xB, DD = destination operand}
clr.w
PST = 0x1, {PST = 0x9, DD = destination operand}
cmp.l
PST = 0x1, {PST = 0xB, DD = source operand}
cmpi.l
#imm,Dx
PST = 0x1
divs.l
PST = 0x1, {PST = 0xB, DD = source operand}
divs.w
PST = 0x1, {PST = 0x9, DD = source operand}
divu.l
PST = 0x1, {PST = 0xB, DD = source operand}
divu.w
PST = 0x1, {PST = 0x9, DD = source operand}
eor.l
Dy,
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
Table 30-22. PST/DDATA Specification for User-Mode Instructions (continued)
Instruction
Operand Syntax
PST/DDATA
MCF5282 and MCF5216 ColdFire Microcontroller User’s Manual, Rev. 3