self.namespace['sz'] = SelectableInt(sz, 1)
self.namespace['SNZ'] = SelectableInt(bc_snz, 1)
- def handle_carry_(self, inputs, output, ca, ca32):
+ def get_kludged_op_add_ca_ov(self, inputs, inp_ca_ov):
+ def ca(a, b, ca_in, width):
+ mask = (1 << width) - 1
+ y = (a & mask) + (b & mask) + ca_in
+ return y >> width
+
+ asmcode = yield self.dec2.dec.op.asmcode
+ insn = insns.get(asmcode)
+ SI = yield self.dec2.dec.SI
+ SI &= 0xFFFF
+ CA, OV = inp_ca_ov
+ inputs = [i.value for i in inputs]
+ if SI & 0x8000:
+ SI -= 0x10000
+ if insn in ("add", "addo", "addc", "addco"):
+ a = inputs[0]
+ b = inputs[1]
+ ca_in = 0
+ elif insn == "addic" or insn == "addic.":
+ a = inputs[0]
+ b = SI
+ ca_in = 0
+ elif insn in ("subf", "subfo", "subfc", "subfco"):
+ a = ~inputs[0]
+ b = inputs[1]
+ ca_in = 1
+ elif insn == "subfic":
+ a = ~inputs[0]
+ b = SI
+ ca_in = 1
+ elif insn == "adde" or insn == "addeo":
+ a = inputs[0]
+ b = inputs[1]
+ ca_in = CA
+ elif insn == "subfe" or insn == "subfeo":
+ a = ~inputs[0]
+ b = inputs[1]
+ ca_in = CA
+ elif insn == "addme" or insn == "addmeo":
+ a = inputs[0]
+ b = ~0
+ ca_in = CA
+ elif insn == "addze" or insn == "addzeo":
+ a = inputs[0]
+ b = 0
+ ca_in = CA
+ elif insn == "subfme" or insn == "subfmeo":
+ a = ~inputs[0]
+ b = ~0
+ ca_in = CA
+ elif insn == "subfze" or insn == "subfzeo":
+ a = ~inputs[0]
+ b = 0
+ ca_in = CA
+ elif insn == "addex":
+ # CA[32] aren't actually written, just generate so we have
+ # something to return
+ ca64 = ov64 = ca(inputs[0], inputs[1], OV, 64)
+ ca32 = ov32 = ca(inputs[0], inputs[1], OV, 32)
+ return ca64, ca32, ov64, ov32
+ elif insn == "neg" or insn == "nego":
+ a = ~inputs[0]
+ b = 0
+ ca_in = 1
+ else:
+ raise NotImplementedError(
+ "op_add kludge unimplemented instruction: ", asmcode, insn)
+
+ ca64 = ca(a, b, ca_in, 64)
+ ca32 = ca(a, b, ca_in, 32)
+ ov64 = ca64 != ca(a, b, ca_in, 63)
+ ov32 = ca32 != ca(a, b, ca_in, 31)
+ return ca64, ca32, ov64, ov32
+
+ def handle_carry_(self, inputs, output, ca, ca32, inp_ca_ov):
+ op = yield self.dec2.e.do.insn_type
+ if op == MicrOp.OP_ADD.value and ca is None and ca32 is None:
+ retval = yield from self.get_kludged_op_add_ca_ov(
+ inputs, inp_ca_ov)
+ ca, ca32, ov, ov32 = retval
+ asmcode = yield self.dec2.dec.op.asmcode
+ if insns.get(asmcode) == 'addex':
+ # TODO: if 32-bit mode, set ov to ov32
+ self.spr['XER'][XER_bits['OV']] = ov
+ self.spr['XER'][XER_bits['OV32']] = ov32
+ else:
+ # TODO: if 32-bit mode, set ca to ca32
+ self.spr['XER'][XER_bits['CA']] = ca
+ self.spr['XER'][XER_bits['CA32']] = ca32
+ return
inv_a = yield self.dec2.e.do.invert_in
if inv_a:
inputs[0] = ~inputs[0]
if ca32 is None: # already written
self.spr['XER'][XER_bits['CA32']] = cy32
- def handle_overflow(self, inputs, output, div_overflow):
+ def handle_overflow(self, inputs, output, div_overflow, inp_ca_ov):
+ op = yield self.dec2.e.do.insn_type
+ if op == MicrOp.OP_ADD.value:
+ retval = yield from self.get_kludged_op_add_ca_ov(
+ inputs, inp_ca_ov)
+ ca, ca32, ov, ov32 = retval
+ # TODO: if 32-bit mode, set ov to ov32
+ self.spr['XER'][XER_bits['OV']] = ov
+ self.spr['XER'][XER_bits['OV32']] = ov32
+ self.spr['XER'][XER_bits['SO']] |= ov
+ return
if hasattr(self.dec2.e.do, "invert_in"):
inv_a = yield self.dec2.e.do.invert_in
if inv_a:
end_loop = no_in_vec or srcstep == vl-1 or dststep == vl-1
self.namespace['end_loop'] = SelectableInt(end_loop, 1)
+ inp_ca_ov = (self.spr['XER'][XER_bits['CA']].value,
+ self.spr['XER'][XER_bits['OV']].value)
+
# execute actual instruction here (finally)
log("inputs", inputs)
results = info.func(self, *inputs)
log("carry already done?", ca, ca32, output_names)
carry_en = yield self.dec2.e.do.output_carry
if carry_en:
- yield from self.handle_carry_(inputs, results[0], ca, ca32)
+ yield from self.handle_carry_(
+ inputs, results[0], ca, ca32, inp_ca_ov=inp_ca_ov)
# get outout named "overflow" and "CR0"
overflow = outs.get('overflow')
ov_ok = yield self.dec2.e.do.oe.ok
log("internal overflow", ins_name, overflow, "en?", ov_en, ov_ok)
if ov_en & ov_ok:
- yield from self.handle_overflow(inputs, results[0], overflow)
+ yield from self.handle_overflow(
+ inputs, results[0], overflow, inp_ca_ov=inp_ca_ov)
# only do SVP64 dest predicated Rc=1 if dest-pred is not enabled
rc_en = False
projects / openpower-isa.git / commitdiff