def test_execute_movcond(is16bit, val): state = new_state(AZ=1, rf1=val) instr = (opcode_factory.movcond16(condition=0b0000, rd=0, rn=1) if is16bit else opcode_factory.movcond32(condition=0b0000, rd=0, rn=1)) name, executefn = decode(instr) executefn(state, Instruction(instr, None)) pc_expected = (2 if is16bit else 4) + RESET_ADDR expected_state = StateChecker(pc=pc_expected, rf0=val) expected_state.check(state)
('fmul16', opcode_factory.fmul16(rd=1, rn=0, rm=0)), ('fmadd16', opcode_factory.fmadd16(rd=1, rn=0, rm=0)), ('fmsub16', opcode_factory.fmsub16(rd=1, rn=0, rm=0)), ('float16', opcode_factory.float16(rd=1, rn=0, rm=0)), ('fix16', opcode_factory.fix16(rd=1, rn=0, rm=0)), ('fabs16', opcode_factory.fabs16(rd=1, rn=0, rm=0)), ('fadd32', opcode_factory.fadd32(rd=1, rn=0, rm=0)), ('fsub32', opcode_factory.fsub32(rd=1, rn=0, rm=0)), ('fmul32', opcode_factory.fmul32(rd=1, rn=0, rm=0)), ('fmadd32', opcode_factory.fmadd32(rd=1, rn=0, rm=0)), ('fmsub32', opcode_factory.fmsub32(rd=1, rn=0, rm=0)), ('float32', opcode_factory.float32(rd=1, rn=0, rm=0)), ('fix32', opcode_factory.fix32(rd=1, rn=0, rm=0)), ('fabs32', opcode_factory.fabs32(rd=1, rn=0, rm=0)), ('movcond32', opcode_factory.movcond32(condition=0b0000, rd=0, rn=0)), ('movcond16', opcode_factory.movcond16(condition=0b0000, rd=0, rn=0)), ('movtimm32', opcode_factory.movtimm32(rd=0b1111, imm=0)), ('movimm32', opcode_factory.movimm32(rd=0b1111, imm=0)), ('movimm16', opcode_factory.movimm16(rd=0b1111, imm=0)), ('movfs32', opcode_factory.movfs32(rn=0b110, rd='IRET')), ('movfs16', opcode_factory.movfs16(rn=0b110, rd='IRET')), ('movts32', opcode_factory.movts32(rn='IRET', rd=0b011)), ('movts16', opcode_factory.movts16(rn='IRET', rd=0)), ('gie16', opcode_factory.gie16()), ('gid16', opcode_factory.gid16()), ('nop16', opcode_factory.nop16()), ('idle16', opcode_factory.idle16()), ('bkpt16', opcode_factory.bkpt16()), ('mbkpt16', opcode_factory.mbkpt16()), ('sync16', opcode_factory.sync16()), ('rti16', opcode_factory.rti16()),