return decode_bo(encoding)
+def decode_reg(field):
+ # decode the field number. "5.v" or "3.s" or "9"
+ field = field.split(".")
+ regmode = 'scalar' # default
+ if len(field) == 2:
+ if field[1] == 's':
+ regmode = 'scalar'
+ elif field[1] == 'v':
+ regmode = 'vector'
+ field = int(field[0]) # actual register number
+ return field, regmode
+
+
+def decode_imm(field):
+ ldst_imm = "(" in field and field[-1] == ')'
+ if ldst_imm:
+ return field[:-1].split("(")
+ else:
+ return None, field
+
# decodes svp64 assembly listings and creates EXT001 svp64 prefixes
class SVP64Asm:
def __init__(self, lst):
extras = OrderedDict()
for idx, (field, regname) in enumerate(opregfields):
extra = svp64_reg_byname.get(regname, None)
- regtype = get_regtype(regname)
- extras[extra] = (idx, field, regname, regtype)
+ imm, regname = decode_imm(regname)
+ rtype = get_regtype(regname)
+ extras[extra] = (idx, field, regname, rtype, imm)
print (" ", extra, extras[extra])
# great! got the extra fields in their associated positions:
ptype = rm['Ptype'] # Predication type: Twin / Single
extra_bits = 0
v30b_newfields = []
- for extra_idx, (idx, field, regname, regtype) in extras.items():
+ for extra_idx, (idx, field, rname, rtype, iname) in extras.items():
# is it a field we don't alter/examine? if so just put it
# into newfields
- if regtype is None:
+ if rtype is None:
v30b_newfields.append(field)
- # first, decode the field number. "5.v" or "3.s" or "9"
- field = field.split(".")
- regmode = 'scalar' # default
- if len(field) == 2:
- if field[1] == 's':
- regmode = 'scalar'
- elif field[1] == 'v':
- regmode = 'vector'
- field = int(field[0]) # actual register number
- print (" ", regmode, field, end=" ")
+ # identify if this is a ld/st immediate(reg) thing
+ ldst_imm = "(" in field and field[-1] == ')'
+ if ldst_imm:
+ immed, field = field[:-1].split("(")
+
+ field, regmode = decode_reg(field)
+ print (" ", rtype, regmode, iname, field, end=" ")
# see Mode field https://libre-soc.org/openpower/sv/svp64/
# XXX TODO: the following is a bit of a laborious repeated
# https://libre-soc.org/openpower/sv/ldst/
# encode SV-GPR field into extra, v3.0field
- if regtype == 'GPR':
+ if rtype == 'GPR':
sv_extra, field = get_extra_gpr(etype, regmode, field)
# now sanity-check. EXTRA3 is ok, EXTRA2 has limits
# (and shrink to a single bit if ok)
# range is r0-r63 in increments of 1
assert (sv_extra >> 1) == 0, \
"scalar GPR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as scalar
sv_extra = sv_extra & 0b01
else:
# range is r0-r127 in increments of 4
assert sv_extra & 0b01 == 0, \
"vector field %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as vector (bit 2 set)
sv_extra = 0b10 | (sv_extra >> 1)
elif regmode == 'vector':
sv_extra |= 0b100
# encode SV-CR 3-bit field into extra, v3.0field
- elif regtype == 'CR_3bit':
+ elif rtype == 'CR_3bit':
sv_extra, field = get_extra_cr_3bit(etype, regmode, field)
# now sanity-check (and shrink afterwards)
if etype == 'EXTRA2':
# range is CR0-CR15 in increments of 1
assert (sv_extra >> 1) == 0, \
"scalar CR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as scalar
sv_extra = sv_extra & 0b01
else:
# range is CR0-CR127 in increments of 16
assert sv_extra & 0b111 == 0, \
"vector CR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as vector (bit 2 set)
sv_extra = 0b10 | (sv_extra >> 3)
else:
# range is CR0-CR31 in increments of 1
assert (sv_extra >> 2) == 0, \
"scalar CR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as scalar
sv_extra = sv_extra & 0b11
else:
# range is CR0-CR127 in increments of 8
assert sv_extra & 0b11 == 0, \
"vector CR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as vector (bit 3 set)
sv_extra = 0b100 | (sv_extra >> 2)
# encode SV-CR 5-bit field into extra, v3.0field
# *sigh* this is the same as 3-bit except the 2 LSBs are
# passed through
- elif regtype == 'CR_5bit':
+ elif rtype == 'CR_5bit':
cr_subfield = field & 0b11
field = field >> 2 # strip bottom 2 bits
sv_extra, field = get_extra_cr_3bit(etype, regmode, field)
# range is CR0-CR15 in increments of 1
assert (sv_extra >> 1) == 0, \
"scalar CR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as scalar
sv_extra = sv_extra & 0b01
else:
# range is CR0-CR127 in increments of 16
assert sv_extra & 0b111 == 0, \
"vector CR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as vector (bit 2 set)
sv_extra = 0b10 | (sv_extra >> 3)
else:
# range is CR0-CR31 in increments of 1
assert (sv_extra >> 2) == 0, \
"scalar CR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as scalar
sv_extra = sv_extra & 0b11
else:
# range is CR0-CR127 in increments of 8
assert sv_extra & 0b11 == 0, \
"vector CR %s cannot fit into EXTRA2 %s" % \
- (regname, str(extras[extra_idx]))
+ (rname, str(extras[extra_idx]))
# all good: encode as vector (bit 3 set)
sv_extra = 0b100 | (sv_extra >> 2)
print ("=>", "%5s" % bin(sv_extra), field)
extras[extra_idx] = sv_extra
- # append altered field value to v3.0b
- v30b_newfields.append(str(field))
+ # append altered field value to v3.0b, differs for LDST
+ if ldst_imm:
+ v30b_newfields.append(("%s(%s)" % (immed, str(field))))
+ else:
+ v30b_newfields.append(str(field))
print ("new v3.0B fields", v30b_op, v30b_newfields)
print ("extras", extras)
print ("new v3.0B fields", v30b_op, v30b_newfields)
if __name__ == '__main__':
- isa = SVP64Asm(['slw 3, 1, 4',
+ lst = ['slw 3, 1, 4',
'extsw 5, 3',
'sv.extsw 5, 3',
'sv.cmpi 5, 1, 3, 2',
'sv.extsw./satu/sz/dz/sm=r3/m=r3 5, 31',
'sv.extsw./pr=eq 5.v, 31',
'sv.add. 5.v, 2.v, 1.v',
- ])
+ ]
+ lst += [
+ 'sv.ld 5.v, 4(4.v)',
+ ]
+ isa = SVP64Asm(lst)
print ("list", list(isa))
csvs = SVP64RM()
projects / soc.git / commitdiff