out_bitfield = yield dec2.dec_cr_out.cr_bitfield.data
sv_cr_out = yield op.sv_cr_out
spec = yield dec2.crout_svdec.spec
+ sv_override = yield dec2.dec_cr_out.sv_override
# get the IN1/2/3 from the decoder (includes SVP64 remap and isvec)
out = yield dec2.e.write_cr.data
o_isvec = yield dec2.o_isvec
print (" sv_cr_out", sv_cr_out)
print (" cr_bf", out_bitfield)
print (" spec", spec)
+ print (" override", sv_override)
# identify which regnames map to out / o2
if name == 'CR0':
if out_sel == CROutSel.CR0.value:
rc_en = False
if rc_en:
regnum, is_vec = yield from get_pdecode_cr_out(self.dec2, "CR0")
- regnum = 0 # TODO fix
self.handle_comparison(results, regnum)
# svp64 loop can end early if the dest is scalar
initial_regs[6] = 0x2223
# SVSTATE (in this case, VL=2)
svstate = SVP64State()
- svstate.vl[0:7] = 1 # VL
- svstate.maxvl[0:7] = 1 # MAXVL
+ svstate.vl[0:7] = 2 # VL
+ svstate.maxvl[0:7] = 2 # MAXVL
print ("SVSTATE", bin(svstate.spr.asint()))
# copy before running
expected_regs = deepcopy(initial_regs)
with Program(lst, bigendian=False) as program:
sim = self.run_tst_program(program, initial_regs, svstate)
- print ("CR0", sim.crl[0].get_range().value)
- print ("CR1", sim.crl[1].get_range().value)
+ # XXX TODO, these need to move to higher range (offset)
+ CR0 = sim.crl[0].get_range().value
+ CR1 = sim.crl[1].get_range().value
+ print ("CR0", CR0)
+ print ("CR1", CR1)
self._check_regs(sim, expected_regs)
- self.assertEqual(sim.crl[0].get_range().value,
- SelectableInt(4, 4))
-
+ self.assertEqual(CR0, SelectableInt(2, 4))
+ self.assertEqual(CR1, SelectableInt(4, 4))
def run_tst_program(self, prog, initial_regs=[0] * 32,
svstate=None):
self.cr_bitfield_b = Data(3, "cr_bitfield_b")
self.cr_bitfield_o = Data(3, "cr_bitfield_o")
self.whole_reg = Data(8, "cr_fxm")
+ self.sv_override = Signal(2, reset_less=True) # do not do EXTRA spec
def elaborate(self, platform):
m = Module()
comb += self.cr_bitfield_b.ok.eq(0)
comb += self.cr_bitfield_o.ok.eq(0)
comb += self.whole_reg.ok.eq(0)
+ comb += self.sv_override.eq(0)
# select the relevant CR bitfields
with m.Switch(self.sel_in):
with m.Case(CRInSel.CR0):
comb += self.cr_bitfield.data.eq(0) # CR0 (MSB0 numbering)
comb += self.cr_bitfield.ok.eq(1)
+ comb += self.sv_override.eq(1)
with m.Case(CRInSel.CR1):
comb += self.cr_bitfield.data.eq(1) # CR1 (MSB0 numbering)
comb += self.cr_bitfield.ok.eq(1)
+ comb += self.sv_override.eq(2)
with m.Case(CRInSel.BI):
comb += self.cr_bitfield.data.eq(self.dec.BI[2:5])
comb += self.cr_bitfield.ok.eq(1)
self.insn_in = Signal(32, reset_less=True)
self.cr_bitfield = Data(3, "cr_bitfield")
self.whole_reg = Data(8, "cr_fxm")
+ self.sv_override = Signal(2, reset_less=True) # do not do EXTRA spec
def elaborate(self, platform):
m = Module()
comb += self.cr_bitfield.ok.eq(0)
comb += self.whole_reg.ok.eq(0)
+ comb += self.sv_override.eq(0)
with m.Switch(self.sel_in):
with m.Case(CROutSel.NONE):
with m.Case(CROutSel.CR0):
comb += self.cr_bitfield.data.eq(0) # CR0 (MSB0 numbering)
comb += self.cr_bitfield.ok.eq(self.rc_in) # only when RC=1
+ comb += self.sv_override.eq(1)
with m.Case(CROutSel.CR1):
comb += self.cr_bitfield.data.eq(1) # CR1 (MSB0 numbering)
comb += self.cr_bitfield.ok.eq(self.rc_in) # only when RC=1
+ comb += self.sv_override.eq(2)
with m.Case(CROutSel.BF):
comb += self.cr_bitfield.data.eq(self.dec.FormX.BF)
comb += self.cr_bitfield.ok.eq(1)
comb += e.write_fast2.eq(dec_o2.fast_out)
# condition registers (CR)
- for to_reg, fromreg, svdec in (
- (e.read_cr1, self.dec_cr_in.cr_bitfield, crin_svdec),
- (e.read_cr2, self.dec_cr_in.cr_bitfield_b, crin_svdec_b),
- (e.read_cr3, self.dec_cr_in.cr_bitfield_o, crin_svdec_o),
- (e.write_cr, self.dec_cr_out.cr_bitfield, crout_svdec)):
+ for to_reg, cr, name, svdec in (
+ (e.read_cr1, self.dec_cr_in, "cr_bitfield", crin_svdec),
+ (e.read_cr2, self.dec_cr_in, "cr_bitfield_b", crin_svdec_b),
+ (e.read_cr3, self.dec_cr_in, "cr_bitfield_o", crin_svdec_o),
+ (e.write_cr, self.dec_cr_out, "cr_bitfield", crout_svdec)):
+ fromreg = getattr(cr, name)
comb += svdec.extra.eq(extra) # EXTRA field of SVP64 RM
comb += svdec.etype.eq(op.SV_Etype) # EXTRA2/3 for this insn
comb += svdec.cr_in.eq(fromreg.data) # 3-bit (CR0/BC/BFA)
with m.If(svdec.isvec):
- comb += to_reg.data.eq(srcstep+svdec.cr_out) # 7-bit output
+ # check if this is CR0 or CR1: treated differently
+ # (does not "listen" to EXTRA2/3 spec
+ with m.If(cr.sv_override == 1): # CR0
+ comb += to_reg.data.eq(srcstep+0) # XXX TODO CR0 offset
+ with m.Elif(cr.sv_override == 2): # CR1
+ comb += to_reg.data.eq(srcstep+1) # XXX TODO CR1 offset
+ with m.Else():
+ comb += to_reg.data.eq(srcstep+svdec.cr_out) # 7-bit output
with m.Else():
comb += to_reg.data.eq(svdec.cr_out) # 7-bit output
comb += to_reg.ok.eq(fromreg.ok)
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