def get_predint(gpr, mask):
r10 = gpr(10)
r30 = gpr(30)
+ print ("get_predint", mask, SVP64PredInt.ALWAYS.value)
if mask == SVP64PredInt.ALWAYS.value:
return 0xffff_ffff_ffff_ffff
if mask == SVP64PredInt.R3_UNARY.value:
srcmask = get_predcr(self.crl, srcpred, vl)
print (" pmode", pmode)
print (" ptype", sv_ptype)
+ print (" srcpred", bin(srcpred))
+ print (" dstpred", bin(dstpred))
print (" srcmask", bin(srcmask))
print (" dstmask", bin(dstmask))
print (" pred_sz", bin(pred_src_zero))
print (" skip", bin(1<<dststep))
dststep += 1
+ # now work out if the relevant mask bits require zeroing
+ if pred_dst_zero:
+ pred_dst_zero = ((1<<dststep) & dstmask) == 0
+ if pred_src_zero:
+ pred_src_zero = ((1<<srcstep) & srcmask) == 0
+
# update SVSTATE with new srcstep
self.svstate.srcstep[0:7] = srcstep
self.svstate.dststep[0:7] = dststep
self.assertEqual(sim.gpr(9), SelectableInt(0x1234, 64))
self.assertEqual(sim.gpr(10), SelectableInt(0x1235, 64))
- def tst_sv_extsw_intpred(self):
+ def test_sv_extsw_intpred(self):
# extsb, integer twin-pred mask: source is ~r3 (0b01), dest r3 (0b10)
# works as follows, where any zeros indicate "skip element"
# - sources are 9 and 10
sim = self.run_tst_program(program, initial_regs, svstate)
self._check_regs(sim, expected_regs)
- def tst_sv_add_intpred(self):
+ def test_sv_add_intpred(self):
# adds, integer predicated mask r3=0b10
# 1 = 5 + 9 => not to be touched (skipped)
# 2 = 6 + 10 => 0x3334 = 0x2223+0x1111
sim = self.run_tst_program(program, initial_regs, svstate)
self._check_regs(sim, expected_regs)
- def tst_sv_add_cr_pred(self):
+ def test_sv_add_cr_pred(self):
# adds, CR predicated mask CR4.eq = 1, CR5.eq = 0, invert (ne)
# 1 = 5 + 9 => not to be touched (skipped)
# 2 = 6 + 10 => 0x3334 = 0x2223+0x1111
from soc.decoder.pseudo.pagereader import ISA
from soc.decoder.power_svp64 import SVP64RM, get_regtype, decode_extra
from soc.decoder.selectable_int import SelectableInt
+from soc.consts import SVP64MODE
# decode GPR into sv extra
# "normal" mode
if sv_mode is None:
- mode |= (src_zero << 4) | (dst_zero << 3) # predicate zeroing
+ mode |= src_zero << SVP64MODE.SZ # predicate zeroing
+ mode |= dst_zero << SVP64MODE.DZ # predicate zeroing
sv_mode = 0b00
# "mapreduce" modes
elif sv_mode == 0b00:
- mode |= (0b1<<2) # sets mapreduce
+ mode |= (0b1<<SVP64MODE.REDUCE) # sets mapreduce
assert dst_zero == 0, "dest-zero not allowed in mapreduce mode"
if mapreduce_crm:
- mode |= (0b1<<4) # sets CRM mode
+ mode |= (0b1<<SVP64MODE.CRM) # sets CRM mode
assert rc_mode, "CRM only allowed when Rc=1"
# bit of weird encoding to jam zero-pred or SVM mode in.
# SVM mode can be enabled only when SUBVL=2/3/4 (vec2/3/4)
if subvl == 0:
- mode |= (dst_zero << 3) # predicate src-zeroing
+ mode |= dst_zero << SVP64MODE.DZ # predicate zeroing
elif mapreduce_svm:
- mode |= (1 << 3) # SVM mode
+ mode |= (0b1<<SVP64MODE.SVM) # sets SVM mode
# "failfirst" modes
elif sv_mode == 0b01:
assert src_zero == 0, "dest-zero not allowed in failfirst mode"
if failfirst == 'RC1':
- mode |= (0b1<<4) # sets RC1 mode
- mode |= (dst_zero << 3) # predicate src-zeroing
+ mode |= (0b1<<SVP64MODE.RC1) # sets RC1 mode
+ mode |= (dst_zero << SVP64MODE.DZ) # predicate dst-zeroing
assert rc_mode==False, "ffirst RC1 only possible when Rc=0"
elif failfirst == '~RC1':
- mode |= (0b1<<4) # sets RC1 mode...
- mode |= (dst_zero << 3) # predicate src-zeroing
- mode |= (0b1<<2) # ... with inversion
+ mode |= (0b1<<SVP64MODE.RC1) # sets RC1 mode
+ mode |= (dst_zero << SVP64MODE.DZ) # predicate dst-zeroing
+ mode |= (0b1<<SVP64MODE.INV) # ... with inversion
assert rc_mode==False, "ffirst RC1 only possible when Rc=0"
else:
assert dst_zero == 0, "dst-zero not allowed in ffirst BO"
assert rc_mode, "ffirst BO only possible when Rc=1"
- mode |= (failfirst << 2) # set BO
+ mode |= (failfirst << SVP64MODE.BO_LSB) # set BO
# "saturation" modes
elif sv_mode == 0b10:
- mode |= (src_zero << 4) | (dst_zero << 3) # predicate zeroing
- mode |= (saturation<<2) # sets signed/unsigned saturation
+ mode |= src_zero << SVP64MODE.SZ # predicate zeroing
+ mode |= dst_zero << SVP64MODE.DZ # predicate zeroing
+ mode |= (saturation << SVP64MODE.N) # signed/unsigned saturation
# "predicate-result" modes. err... code-duplication from ffirst
elif sv_mode == 0b11:
assert src_zero == 0, "dest-zero not allowed in predresult mode"
if predresult == 'RC1':
- mode |= (0b1<<4) # sets RC1 mode
- mode |= (dst_zero << 3) # predicate src-zeroing
+ mode |= (0b1<<SVP64MODE.RC1) # sets RC1 mode
+ mode |= (dst_zero << SVP64MODE.DZ) # predicate dst-zeroing
assert rc_mode==False, "pr-mode RC1 only possible when Rc=0"
elif predresult == '~RC1':
- mode |= (0b1<<4) # sets RC1 mode...
- mode |= (dst_zero << 3) # predicate src-zeroing
- mode |= (0b1<<2) # ... with inversion
+ mode |= (0b1<<SVP64MODE.RC1) # sets RC1 mode
+ mode |= (dst_zero << SVP64MODE.DZ) # predicate dst-zeroing
+ mode |= (0b1<<SVP64MODE.INV) # ... with inversion
assert rc_mode==False, "pr-mode RC1 only possible when Rc=0"
else:
assert dst_zero == 0, "dst-zero not allowed in pr-mode BO"
assert rc_mode, "pr-mode BO only possible when Rc=1"
- mode |= (predresult << 2) # set BO
+ mode |= (predresult << SVP64MODE.BO_LSB) # set BO
# whewww.... modes all done :)
# now put into svp64_rm
projects / soc.git / commitdiff