from collections import OrderedDict
from soc.decoder.pseudo.pagereader import ISA
-from soc.decoder.power_enums import get_csv, find_wiki_dir
+from soc.decoder.power_svp64 import SVP64RM
# identifies register by type
return pmap[encoding]
-# gets SVP64 ReMap information
-class SVP64RM:
- def __init__(self):
- self.instrs = {}
- pth = find_wiki_dir()
- for fname in os.listdir(pth):
- if fname.startswith("RM"):
- for entry in get_csv(fname):
- self.instrs[entry['insn']] = entry
+# decodes "Mode" in similar way to BO field (supposed to, anyway)
+def decode_bo(encoding):
+ pmap = { # TODO: double-check that these are the same as Branch BO
+ 'lt' : 0b000,
+ 'nl' : 0b001, 'ge' : 0b001, # same value
+ 'gt' : 0b010,
+ 'ng' : 0b011, 'le' : 0b011, # same value
+ 'eq' : 0b100,
+ 'ne' : 0b101,
+ 'so' : 0b110, 'un' : 0b110, # same value
+ 'ns' : 0b111, 'nu' : 0b111, # same value
+ }
+ assert encoding in pmap, \
+ "encoding %s for BO Mode not recognised" % encoding
+ return pmap[encoding]
+
+# partial-decode fail-first mode
+def decode_ffirst(encoding):
+ if encoding in ['RC1', '~RC1']:
+ return encoding
+ return decode_bo(encoding)
+
# decodes svp64 assembly listings and creates EXT001 svp64 prefixes
if not opcode.startswith('sv.'):
res.append(insn) # unaltered
continue
+ opcode = opcode[3:] # strip leading "sv."
+
+ # start working on decoding the svp64 op: sv.basev30Bop/vec2/mode
+ opmodes = opcode.split("/") # split at "/"
+ v30b_op = opmodes.pop(0) # first is the v3.0B
+ # check instruction ends with dot
+ rc_mode = v30b_op.endswith('.')
+ if rc_mode:
+ v30b_op = v30b_op[:-1]
- # start working on decoding the svp64 op: sv.baseop.vec2.mode
- opmodes = opcode.split(".")[1:] # strip leading "sv."
- v30b_op = opmodes.pop(0) # first is the v3.0B
if v30b_op not in isa.instr:
raise Exception("opcode %s of '%s' not supported" % \
(v30b_op, insn))
if v30b_op not in svp64.instrs:
raise Exception("opcode %s of '%s' not an svp64 instruction" % \
(v30b_op, insn))
- isa.instr[v30b_op].regs[0]
- v30b_regs = isa.instr[v30b_op].regs[0]
- rm = svp64.instrs[v30b_op]
+ v30b_regs = isa.instr[v30b_op].regs[0] # get regs info "RT, RA, RB"
+ rm = svp64.instrs[v30b_op] # one row of the svp64 RM CSV
+ print ("v3.0B op", v30b_op, "Rc=1" if rc_mode else '')
print ("v3.0B regs", opcode, v30b_regs)
print (rm)
rfield = rfield.split(";") # s:RA;d:CR1 etc.
for r in rfield:
rtype = r[0]
+ # TODO: ignoring s/d makes it impossible to do
+ # LD/ST-with-update.
r = r[2:] # ignore s: and d:
svp64_reg_byname[r] = i # this reg in EXTRA position 0-3
# check the regtype (if CR, record that)
# okaaay now we identify the field value (opcode N,N,N) with
# the pseudo-code info (opcode RT, RA, RB)
+ assert len(fields) == len(v30b_regs), \
+ "length of fields %s must match insn `%s`" % \
+ (str(v30b_regs), insn)
opregfields = zip(fields, v30b_regs) # err that was easy
# now for each of those find its place in the EXTRA encoding
has_pmask = False
has_smask = False
+ saturation = None
+ src_zero = 0
+ dst_zero = 0
+ sv_mode = None
+
+ mapreduce = False
+ mapreduce_crm = False
+ mapreduce_svm = False
+
+ predresult = False
+ failfirst = False
+
# ok let's start identifying opcode augmentation fields
for encmode in opmodes:
# predicate mask (dest)
destwid = decode_elwidth(encmode[3:])
elif encmode.startswith("sw="):
srcwid = decode_elwidth(encmode[3:])
+ # saturation
+ elif encmode == 'sats':
+ assert sv_mode is None
+ saturation = 1
+ sv_mode = 0b10
+ elif encmode == 'satu':
+ assert sv_mode is None
+ sv_mode = 0b10
+ saturation = 0
+ # predicate zeroing
+ elif encmode == 'sz':
+ src_zero = 1
+ elif encmode == 'dz':
+ dst_zero = 1
+ # failfirst
+ elif encmode.startswith("ff="):
+ assert sv_mode is None
+ sv_mode = 0b01
+ failfirst = decode_ffirst(encmode[3:])
+ # predicate-result, interestingly same as fail-first
+ elif encmode.startswith("pr="):
+ assert sv_mode is None
+ sv_mode = 0b11
+ predresult = decode_ffirst(encmode[3:])
+ # map-reduce mode
+ elif encmode == 'mr':
+ assert sv_mode is None
+ sv_mode = 0b00
+ mapreduce = True
+ elif encmode == 'crm': # CR on map-reduce
+ assert sv_mode is None
+ sv_mode = 0b00
+ mapreduce_crm = True
+ elif encmode == 'svm': # sub-vector mode
+ mapreduce_svm = True
# sanity-check that 2Pred mask is same mode
if has_pmask and has_smask:
assert has_smask == False, \
"source-mask can only be specified on Twin-predicate ops"
+ # construct the mode field, doing sanity-checking along the way
+
+ if mapreduce_svm:
+ assert sv_mode == 0b00, "sub-vector mode in mapreduce only"
+ assert subvl != 0, "sub-vector mode not possible on SUBVL=1"
+
+ if src_zero:
+ assert has_smask, "src zeroing requires a source predicate"
+ if dst_zero:
+ assert has_pmask, "dest zeroing requires a dest predicate"
+
+ # "normal" mode
+ if sv_mode is None:
+ mode |= (src_zero << 3) | (dst_zero << 4) # predicate zeroing
+ sv_mode = 0b00
+
+ # "mapreduce" modes
+ elif sv_mode == 0b00:
+ mode |= (0b1<<2) # sets mapreduce
+ assert dst_zero == 0, "dest-zero not allowed in mapreduce mode"
+ if mapreduce_crm:
+ mode |= (0b1<<4) # 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 |= (src_zero << 3) # predicate src-zeroing
+ elif mapreduce_svm:
+ mode |= (1 << 3) # SVM mode
+
+ # "failfirst" modes
+ elif sv_mode == 0b01:
+ assert dst_zero == 0, "dest-zero not allowed in failfirst mode"
+ if failfirst == 'RC1':
+ mode |= (0b1<<4) # sets RC1 mode
+ mode |= (src_zero << 3) # predicate src-zeroing
+ assert rc_mode==False, "ffirst RC1 only possible when Rc=0"
+ elif failfirst == '~RC1':
+ mode |= (0b1<<4) # sets RC1 mode...
+ mode |= (src_zero << 3) # predicate src-zeroing
+ mode |= (0b1<<2) # ... with inversion
+ assert rc_mode==False, "ffirst RC1 only possible when Rc=0"
+ else:
+ assert src_zero == 0, "src-zero not allowed in ffirst BO"
+ assert rc_mode, "ffirst BO only possible when Rc=1"
+ mode |= (failfirst << 2) # set BO
+
+ # "saturation" modes
+ elif sv_mode == 0b10:
+ mode |= (src_zero << 3) | (dst_zero << 4) # predicate zeroing
+ mode |= (saturation<<2) # sets signed/unsigned saturation
+
+ # "predicate-result" modes. err... code-duplication from ffirst
+ elif sv_mode == 0b11:
+ assert dst_zero == 0, "dest-zero not allowed in predresult mode"
+ if predresult == 'RC1':
+ mode |= (0b1<<4) # sets RC1 mode
+ mode |= (src_zero << 3) # predicate src-zeroing
+ assert rc_mode==False, "pr-mode RC1 only possible when Rc=0"
+ elif predresult == '~RC1':
+ mode |= (0b1<<4) # sets RC1 mode...
+ mode |= (src_zero << 3) # predicate src-zeroing
+ mode |= (0b1<<2) # ... with inversion
+ assert rc_mode==False, "pr-mode RC1 only possible when Rc=0"
+ else:
+ assert src_zero == 0, "src-zero not allowed in pr-mode BO"
+ assert rc_mode, "pr-mode BO only possible when Rc=1"
+ mode |= (predresult << 2) # set BO
+
+ # whewww.... modes all done :)
+ # now put into svp64_rm
+ mode |= sv_mode
+ svp64_rm |= (mode << 19) # mode: bits 19-23
+
# put in predicate masks into svp64_rm
if ptype == '2P':
svp64_rm |= (smask << 16) # source pred: bits 16-18
svp64_rm += (srcwid << 6) # srcwid: bits 6-7
svp64_rm += (destwid << 4) # destwid: bits 4-5
+ # nice debug printout. (and now for something completely different)
+ # https://youtu.be/u0WOIwlXE9g?t=146
print ("svp64_rm", hex(svp64_rm), bin(svp64_rm))
print (" mmode 0 :", bin(mmode))
print (" pmask 1-3 :", bin(pmask))
print (" dstwid 4-5 :", bin(destwid))
print (" srcwid 6-7 :", bin(srcwid))
print (" subvl 8-9 :", bin(subvl))
+ print (" mode 19-23:", bin(mode))
offs = 2 if etype == 'EXTRA2' else 3 # 2 or 3 bits
for idx, sv_extra in extras.items():
if idx is None: continue
'sv.cmpi 5, 1, 3, 2',
'sv.setb 5, 31',
'sv.isel 64.v, 3, 2, 65.v',
- 'sv.setb.m=r3.sm=1<<r3 5, 31',
- 'sv.setb.vec2 5, 31',
- 'sv.setb.sw=8.ew=16 5, 31',
+ 'sv.setb/m=r3/sm=1<<r3 5, 31',
+ 'sv.setb/vec2 5, 31',
+ 'sv.setb/sw=8/ew=16 5, 31',
+ 'sv.extsw./ff=eq 5, 31',
+ 'sv.extsw./satu/sz/dz/sm=r3/m=r3 5, 31',
+ 'sv.extsw./pr=eq 5.v, 31',
])
csvs = SVP64RM()