from nmutil.iocontrol import RecordObject
from nmutil.extend import exts
+from soc.decoder.power_regspec_map import regspec_decode_read
+from soc.decoder.power_regspec_map import regspec_decode_write
from soc.decoder.power_decoder import create_pdecode
from soc.decoder.power_enums import (InternalOp, CryIn, Function,
CRInSel, CROutSel,
LdstLen, In1Sel, In2Sel, In3Sel,
OutSel, SPR, RC)
+from soc.decoder.decode2execute1 import Decode2ToExecute1Type, Data
from soc.regfile.regfiles import FastRegs
+# see traptype (and trap main_stage.py)
+
+TT_FP = 1<<0
+TT_PRIV = 1<<1
+TT_TRAP = 1<<2
+TT_ADDR = 1<<3
+
+def decode_spr_num(spr):
+ return Cat(spr[5:10], spr[0:5])
+
+
+def instr_is_priv(m, op, insn):
+ """determines if the instruction is privileged or not
+ """
+ comb = m.d.comb
+ Signal = is_priv_insn(reset_less=True)
+ with m.Switch(op):
+ with m.Case(InternalOp.OP_ATTN) : comb += is_priv_insn.eq(1)
+ with m.Case(InternalOp.OP_MFMSR) : comb += is_priv_insn.eq(1)
+ with m.Case(InternalOp.OP_MTMSRD): comb += is_priv_insn.eq(1)
+ with m.Case(InternalOp.OP_RFID) : comb += is_priv_insn.eq(1)
+ with m.Case(InternalOp.OP_TLBIE) : comb += is_priv_insn.eq(1)
+ with m.If(op == OP_MFSPR | op == OP_MTSPR):
+ with m.If(insn[20]): # field XFX.spr[-1] i think
+ comb += is_priv_insn.eq(1)
+ return is_priv_insn
+
+
class DecodeA(Elaboratable):
"""DecodeA from instruction
self.reg_out = Data(5, name="reg_a")
self.immz_out = Signal(reset_less=True)
self.spr_out = Data(10, "spr_a")
+ self.fast_out = Data(3, "fast_a")
def elaborate(self, platform):
m = Module()
comb += self.reg_out.data.eq(self.dec.RS)
comb += self.reg_out.ok.eq(1)
- # decode SPR1 based on instruction type
+ # decode Fast-SPR based on instruction type
op = self.dec.op
- # BC or BCREG: potential implicit register (CTR)
- with m.If((op.internal_op == InternalOp.OP_BC) |
- (op.internal_op == InternalOp.OP_BCREG)):
+ # BC or BCREG: potential implicit register (CTR) NOTE: same in DecodeOut
+ with m.If(op.internal_op == InternalOp.OP_BC):
with m.If(~self.dec.BO[2]): # 3.0B p38 BO2=0, use CTR reg
- comb += self.spr_out.data.eq(FastRegs.CTR) # constant: CTR
- comb += self.spr_out.ok.eq(1)
- # MFSPR or MTSPR: move-from / move-to SPRs
- with m.If((op.internal_op == InternalOp.OP_MFSPR) |
- (op.internal_op == InternalOp.OP_MTSPR)):
- # XXX TODO: fast/slow SPR decoding and mapping
- comb += self.spr_out.data.eq(self.dec.SPR) # SPR field, XFX
- comb += self.spr_out.ok.eq(1)
-
- return m
-
+ comb += self.fast_out.data.eq(FastRegs.CTR) # constant: CTR
+ comb += self.fast_out.ok.eq(1)
+ with m.Elif(op.internal_op == InternalOp.OP_BCREG):
+ xo9 = self.dec.FormXL.XO[9] # 3.0B p38 top bit of XO
+ xo5 = self.dec.FormXL.XO[5] # 3.0B p38
+ with m.If(xo9 & ~xo5):
+ comb += self.fast_out.data.eq(FastRegs.CTR) # constant: CTR
+ comb += self.fast_out.ok.eq(1)
+
+ # MFSPR move from SPRs
+ with m.If(op.internal_op == InternalOp.OP_MFSPR):
+ spr = Signal(10, reset_less=True)
+ comb += spr.eq(decode_spr_num(self.dec.SPR)) # from XFX
+ with m.Switch(spr):
+ # fast SPRs
+ with m.Case(SPR.CTR.value):
+ comb += self.fast_out.data.eq(FastRegs.CTR)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.LR.value):
+ comb += self.fast_out.data.eq(FastRegs.LR)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.TAR.value):
+ comb += self.fast_out.data.eq(FastRegs.TAR)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.SRR0.value):
+ comb += self.fast_out.data.eq(FastRegs.SRR0)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.SRR1.value):
+ comb += self.fast_out.data.eq(FastRegs.SRR1)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.XER.value):
+ pass # do nothing
+ # XXX TODO: map to internal SPR numbers
+ # XXX TODO: dec and tb not to go through mapping.
+ with m.Default():
+ comb += self.spr_out.data.eq(spr)
+ comb += self.spr_out.ok.eq(1)
-class Data(Record):
- def __init__(self, width, name):
- name_ok = "%s_ok" % name
- layout = ((name, width), (name_ok, 1))
- Record.__init__(self, layout)
- self.data = getattr(self, name) # convenience
- self.ok = getattr(self, name_ok) # convenience
- self.data.reset_less = True # grrr
- self.reset_less = True # grrr
-
- def ports(self):
- return [self.data, self.ok]
+ return m
class DecodeB(Elaboratable):
self.insn_in = Signal(32, reset_less=True)
self.reg_out = Data(5, "reg_b")
self.imm_out = Data(64, "imm_b")
- self.spr_out = Data(10, "spr_b")
+ self.fast_out = Data(3, "fast_b")
def elaborate(self, platform):
m = Module()
# decode SPR2 based on instruction type
op = self.dec.op
- # BCREG implicitly uses CTR or LR for 2nd reg
+ # BCREG implicitly uses LR or TAR for 2nd reg
+ # CTR however is already in fast_spr1 *not* 2.
with m.If(op.internal_op == InternalOp.OP_BCREG):
- with m.If(self.dec.FormXL.XO[9]): # 3.0B p38 top bit of XO
- comb += self.spr_out.data.eq(FastRegs.CTR)
- with m.Else():
- comb += self.spr_out.data.eq(FastRegs.LR)
- comb += self.spr_out.ok.eq(1)
+ xo9 = self.dec.FormXL.XO[9] # 3.0B p38 top bit of XO
+ xo5 = self.dec.FormXL.XO[5] # 3.0B p38
+ with m.If(~xo9):
+ comb += self.fast_out.data.eq(FastRegs.LR)
+ comb += self.fast_out.ok.eq(1)
+ with m.Elif(xo5):
+ comb += self.fast_out.data.eq(FastRegs.TAR)
+ comb += self.fast_out.ok.eq(1)
return m
self.insn_in = Signal(32, reset_less=True)
self.reg_out = Data(5, "reg_o")
self.spr_out = Data(10, "spr_o")
+ self.fast_out = Data(3, "fast_o")
def elaborate(self, platform):
m = Module()
comb = m.d.comb
+ op = self.dec.op
# select Register out field
with m.Switch(self.sel_in):
comb += self.reg_out.data.eq(self.dec.RA)
comb += self.reg_out.ok.eq(1)
with m.Case(OutSel.SPR):
- comb += self.spr_out.data.eq(self.dec.SPR) # from XFX
- comb += self.spr_out.ok.eq(1)
+ spr = Signal(10, reset_less=True)
+ comb += spr.eq(decode_spr_num(self.dec.SPR)) # from XFX
+ # TODO MTSPR 1st spr (fast)
+ with m.If(op.internal_op == InternalOp.OP_MTSPR):
+ with m.Switch(spr):
+ # fast SPRs
+ with m.Case(SPR.CTR.value):
+ comb += self.fast_out.data.eq(FastRegs.CTR)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.LR.value):
+ comb += self.fast_out.data.eq(FastRegs.LR)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.TAR.value):
+ comb += self.fast_out.data.eq(FastRegs.TAR)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.SRR0.value):
+ comb += self.fast_out.data.eq(FastRegs.SRR0)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.SRR1.value):
+ comb += self.fast_out.data.eq(FastRegs.SRR1)
+ comb += self.fast_out.ok.eq(1)
+ with m.Case(SPR.XER.value):
+ pass # do nothing
+ # XXX TODO: map to internal SPR numbers
+ # XXX TODO: dec and tb not to go through mapping.
+ with m.Default():
+ comb += self.spr_out.data.eq(spr)
+ comb += self.spr_out.ok.eq(1)
+
+ # BC or BCREG: potential implicit register (CTR) NOTE: same in DecodeA
+ op = self.dec.op
+ with m.If((op.internal_op == InternalOp.OP_BC) |
+ (op.internal_op == InternalOp.OP_BCREG)):
+ with m.If(~self.dec.BO[2]): # 3.0B p38 BO2=0, use CTR reg
+ comb += self.fast_out.data.eq(FastRegs.CTR) # constant: CTR
+ comb += self.fast_out.ok.eq(1)
+
+ # RFID 1st spr (fast)
+ with m.If(op.internal_op == InternalOp.OP_RFID):
+ comb += self.fast_out.data.eq(FastRegs.SRR0) # constant: SRR0
+ comb += self.fast_out.ok.eq(1)
+
+ # TRAP fast1 = SRR0
+ with m.If(op.internal_op == InternalOp.OP_TRAP):
+ comb += self.fast_out.data.eq(FastRegs.SRR0) # constant: SRR0
+ comb += self.fast_out.ok.eq(1)
+
+ return m
+
+
+class DecodeOut2(Elaboratable):
+ """DecodeOut2 from instruction
+
+ decodes output registers
+ """
+
+ def __init__(self, dec):
+ self.dec = dec
+ self.sel_in = Signal(OutSel, reset_less=True)
+ self.lk = Signal(reset_less=True)
+ self.insn_in = Signal(32, reset_less=True)
+ self.reg_out = Data(5, "reg_o")
+ self.fast_out = Data(3, "fast_o")
+
+ def elaborate(self, platform):
+ m = Module()
+ comb = m.d.comb
+
+ # update mode LD/ST uses read-reg A also as an output
+ with m.If(self.dec.op.upd):
+ comb += self.reg_out.eq(self.dec.RA)
+ comb += self.reg_out.ok.eq(1)
+
+ # BC or BCREG: potential implicit register (LR) output
+ op = self.dec.op
+ with m.If((op.internal_op == InternalOp.OP_BC) |
+ (op.internal_op == InternalOp.OP_BCREG)):
+ with m.If(self.lk): # "link" mode
+ comb += self.fast_out.data.eq(FastRegs.LR) # constant: LR
+ comb += self.fast_out.ok.eq(1)
+
+ # RFID 2nd spr (fast)
+ with m.If(op.internal_op == InternalOp.OP_RFID):
+ comb += self.fast_out.data.eq(FastRegs.SRR1) # constant: SRR1
+ comb += self.fast_out.ok.eq(1)
+
+ # TRAP fast2 = SRR1
+ with m.If(op.internal_op == InternalOp.OP_TRAP):
+ comb += self.fast_out.data.eq(FastRegs.SRR1) # constant: SRR1
+ comb += self.fast_out.ok.eq(1)
return m
comb += self.cr_bitfield.data.eq(0)
comb += self.cr_bitfield.ok.eq(self.rc_in) # only when RC=1
with m.Case(CROutSel.BF):
- comb += self.cr_bitfield.data.eq(self.dec.FormX.BF[0:-1])
+ comb += self.cr_bitfield.data.eq(self.dec.FormX.BF)
comb += self.cr_bitfield.ok.eq(1)
with m.Case(CROutSel.BT):
comb += self.cr_bitfield.data.eq(self.dec.FormXL.BT[2:5])
return [self.ca, self.ov, self.so]
-class Decode2ToExecute1Type(RecordObject):
-
- def __init__(self, name=None):
-
- RecordObject.__init__(self, name=name)
-
- self.valid = Signal(reset_less=True)
- self.insn_type = Signal(InternalOp, reset_less=True)
- self.fn_unit = Signal(Function, reset_less=True)
- self.nia = Signal(64, reset_less=True)
- self.write_reg = Data(5, name="rego")
- self.read_reg1 = Data(5, name="reg1")
- self.read_reg2 = Data(5, name="reg2")
- self.read_reg3 = Data(5, name="reg3")
- self.imm_data = Data(64, name="imm")
- self.write_spr = Data(10, name="spro")
- self.read_spr1 = Data(10, name="spr1")
- self.read_spr2 = Data(10, name="spr2")
-
- self.read_cr1 = Data(3, name="cr_in1")
- self.read_cr2 = Data(3, name="cr_in2")
- self.read_cr3 = Data(3, name="cr_in2")
- self.read_cr_whole = Signal(reset_less=True)
- self.write_cr = Data(3, name="cr_out")
- self.write_cr_whole = Signal(reset_less=True)
- self.lk = Signal(reset_less=True)
- self.rc = Data(1, "rc")
- self.oe = Data(1, "oe")
- self.invert_a = Signal(reset_less=True)
- self.zero_a = Signal(reset_less=True)
- self.invert_out = Signal(reset_less=True)
- self.input_carry = Signal(CryIn, reset_less=True)
- self.output_carry = Signal(reset_less=True)
- self.input_cr = Signal(reset_less=True) # instr. has a CR as input
- self.output_cr = Signal(reset_less=True) # instr. has a CR as output
- self.is_32bit = Signal(reset_less=True)
- self.is_signed = Signal(reset_less=True)
- self.insn = Signal(32, reset_less=True)
- self.data_len = Signal(4, reset_less=True) # bytes
- self.byte_reverse = Signal(reset_less=True)
- self.sign_extend = Signal(reset_less=True)# do we need this?
- self.update = Signal(reset_less=True) # LD/ST is "update" variant
-
-
class PowerDecode2(Elaboratable):
def __init__(self, dec):
def elaborate(self, platform):
m = Module()
comb = m.d.comb
+ e, op = self.e, self.dec.op
# set up submodule decoders
m.submodules.dec = self.dec
m.submodules.dec_b = dec_b = DecodeB(self.dec)
m.submodules.dec_c = dec_c = DecodeC(self.dec)
m.submodules.dec_o = dec_o = DecodeOut(self.dec)
+ m.submodules.dec_o2 = dec_o2 = DecodeOut2(self.dec)
m.submodules.dec_rc = dec_rc = DecodeRC(self.dec)
m.submodules.dec_oe = dec_oe = DecodeOE(self.dec)
m.submodules.dec_cr_in = dec_cr_in = DecodeCRIn(self.dec)
m.submodules.dec_cr_out = dec_cr_out = DecodeCROut(self.dec)
# copy instruction through...
- for i in [self.e.insn, dec_a.insn_in, dec_b.insn_in,
- dec_c.insn_in, dec_o.insn_in, dec_rc.insn_in,
+ for i in [e.insn, dec_a.insn_in, dec_b.insn_in,
+ dec_c.insn_in, dec_o.insn_in, dec_o2.insn_in, dec_rc.insn_in,
dec_oe.insn_in, dec_cr_in.insn_in, dec_cr_out.insn_in]:
comb += i.eq(self.dec.opcode_in)
# ...and subdecoders' input fields
- comb += dec_a.sel_in.eq(self.dec.op.in1_sel)
- comb += dec_b.sel_in.eq(self.dec.op.in2_sel)
- comb += dec_c.sel_in.eq(self.dec.op.in3_sel)
- comb += dec_o.sel_in.eq(self.dec.op.out_sel)
- comb += dec_rc.sel_in.eq(self.dec.op.rc_sel)
- comb += dec_oe.sel_in.eq(self.dec.op.rc_sel) # XXX should be OE sel
- comb += dec_cr_in.sel_in.eq(self.dec.op.cr_in)
- comb += dec_cr_out.sel_in.eq(self.dec.op.cr_out)
+ comb += dec_a.sel_in.eq(op.in1_sel)
+ comb += dec_b.sel_in.eq(op.in2_sel)
+ comb += dec_c.sel_in.eq(op.in3_sel)
+ comb += dec_o.sel_in.eq(op.out_sel)
+ comb += dec_o2.sel_in.eq(op.out_sel)
+ comb += dec_o2.lk.eq(e.lk)
+ comb += dec_rc.sel_in.eq(op.rc_sel)
+ comb += dec_oe.sel_in.eq(op.rc_sel) # XXX should be OE sel
+ comb += dec_cr_in.sel_in.eq(op.cr_in)
+ comb += dec_cr_out.sel_in.eq(op.cr_out)
comb += dec_cr_out.rc_in.eq(dec_rc.rc_out.data)
- # decode LD/ST length
- with m.Switch(self.dec.op.ldst_len):
- with m.Case(LdstLen.is1B):
- comb += self.e.data_len.eq(1)
- with m.Case(LdstLen.is2B):
- comb += self.e.data_len.eq(2)
- with m.Case(LdstLen.is4B):
- comb += self.e.data_len.eq(4)
- with m.Case(LdstLen.is8B):
- comb += self.e.data_len.eq(8)
-
- comb += self.e.nia.eq(0) # XXX TODO
- comb += self.e.valid.eq(0) # XXX TODO
- fu = self.dec.op.function_unit
- itype = Mux(fu == Function.NONE,
- InternalOp.OP_ILLEGAL,
- self.dec.op.internal_op)
- comb += self.e.insn_type.eq(itype)
- comb += self.e.fn_unit.eq(fu)
-
- # registers a, b, c and out
- comb += self.e.read_reg1.eq(dec_a.reg_out)
- comb += self.e.read_reg2.eq(dec_b.reg_out)
- comb += self.e.read_reg3.eq(dec_c.reg_out)
- comb += self.e.write_reg.eq(dec_o.reg_out)
- comb += self.e.imm_data.eq(dec_b.imm_out) # immediate in RB (usually)
- comb += self.e.zero_a.eq(dec_a.immz_out) # RA==0 detected
+
+ comb += e.nia.eq(0) # XXX TODO (or remove? not sure yet)
+ fu = op.function_unit
+ itype = Mux(fu == Function.NONE, InternalOp.OP_ILLEGAL, op.internal_op)
+ comb += e.insn_type.eq(itype)
+ comb += e.fn_unit.eq(fu)
+
+ # registers a, b, c and out and out2 (LD/ST EA)
+ comb += e.read_reg1.eq(dec_a.reg_out)
+ comb += e.read_reg2.eq(dec_b.reg_out)
+ comb += e.read_reg3.eq(dec_c.reg_out)
+ comb += e.write_reg.eq(dec_o.reg_out)
+ comb += e.write_ea.eq(dec_o2.reg_out)
+ comb += e.imm_data.eq(dec_b.imm_out) # immediate in RB (usually)
+ comb += e.zero_a.eq(dec_a.immz_out) # RA==0 detected
# rc and oe out
- comb += self.e.rc.eq(dec_rc.rc_out)
- comb += self.e.oe.eq(dec_oe.oe_out)
+ comb += e.rc.eq(dec_rc.rc_out)
+ comb += e.oe.eq(dec_oe.oe_out)
# SPRs out
- comb += self.e.read_spr1.eq(dec_a.spr_out)
- comb += self.e.read_spr2.eq(dec_b.spr_out)
- comb += self.e.write_spr.eq(dec_o.spr_out)
+ comb += e.read_spr1.eq(dec_a.spr_out)
+ comb += e.write_spr.eq(dec_o.spr_out)
- comb += self.e.read_cr1.eq(dec_cr_in.cr_bitfield)
- comb += self.e.read_cr2.eq(dec_cr_in.cr_bitfield_b)
- comb += self.e.read_cr3.eq(dec_cr_in.cr_bitfield_o)
- comb += self.e.read_cr_whole.eq(dec_cr_in.whole_reg)
+ # Fast regs out
+ comb += e.read_fast1.eq(dec_a.fast_out)
+ comb += e.read_fast2.eq(dec_b.fast_out)
+ comb += e.write_fast1.eq(dec_o.fast_out)
+ comb += e.write_fast2.eq(dec_o2.fast_out)
- comb += self.e.write_cr.eq(dec_cr_out.cr_bitfield)
- comb += self.e.write_cr_whole.eq(dec_cr_out.whole_reg)
+ comb += e.read_cr1.eq(dec_cr_in.cr_bitfield)
+ comb += e.read_cr2.eq(dec_cr_in.cr_bitfield_b)
+ comb += e.read_cr3.eq(dec_cr_in.cr_bitfield_o)
+ comb += e.read_cr_whole.eq(dec_cr_in.whole_reg)
- # decoded/selected instruction flags
- comb += self.e.invert_a.eq(self.dec.op.inv_a)
- comb += self.e.invert_out.eq(self.dec.op.inv_out)
- comb += self.e.input_carry.eq(self.dec.op.cry_in) # carry comes in
- comb += self.e.output_carry.eq(self.dec.op.cry_out) # carry goes out
- comb += self.e.is_32bit.eq(self.dec.op.is_32b)
- comb += self.e.is_signed.eq(self.dec.op.sgn)
- with m.If(self.dec.op.lk):
- comb += self.e.lk.eq(self.dec.LK) # XXX TODO: accessor
+ comb += e.write_cr.eq(dec_cr_out.cr_bitfield)
+ comb += e.write_cr_whole.eq(dec_cr_out.whole_reg)
- comb += self.e.byte_reverse.eq(self.dec.op.br)
- comb += self.e.sign_extend.eq(self.dec.op.sgn_ext)
- comb += self.e.update.eq(self.dec.op.upd) # LD/ST "update" mode
+ # decoded/selected instruction flags
+ comb += e.data_len.eq(op.ldst_len)
+ comb += e.invert_a.eq(op.inv_a)
+ comb += e.invert_out.eq(op.inv_out)
+ comb += e.input_carry.eq(op.cry_in) # carry comes in
+ comb += e.output_carry.eq(op.cry_out) # carry goes out
+ comb += e.is_32bit.eq(op.is_32b)
+ comb += e.is_signed.eq(op.sgn)
+ with m.If(op.lk):
+ comb += e.lk.eq(self.dec.LK) # XXX TODO: accessor
+ comb += e.byte_reverse.eq(op.br)
+ comb += e.sign_extend.eq(op.sgn_ext)
+ comb += e.update.eq(op.upd) # LD/ST "update" mode.
# These should be removed eventually
- comb += self.e.input_cr.eq(self.dec.op.cr_in) # condition reg comes in
- comb += self.e.output_cr.eq(self.dec.op.cr_out) # condition reg goes in
+ comb += e.input_cr.eq(op.cr_in) # condition reg comes in
+ comb += e.output_cr.eq(op.cr_out) # condition reg goes in
+ # set the trapaddr to 0x700 for a td/tw/tdi/twi operation
+ with m.If(op.internal_op == InternalOp.OP_TRAP):
+ comb += e.trapaddr.eq(0x70) # addr=0x700 (strip first nibble)
return m
+ # privileged instruction
+ with m.If(instr_is_priv(m, op.internal_op, e.insn) & msr[MSR_PR]):
+ # don't request registers RA/RT
+ comb += e.read_reg1.eq(0)
+ comb += e.read_reg2.eq(0)
+ comb += e.read_reg3.eq(0)
+ comb += e.write_reg.eq(0)
+ comb += e.write_ea.eq(0)
+ # privileged instruction trap
+ comb += op.internal_op.eq(InternalOp.OP_TRAP)
+ comb += e.traptype.eq(TT_PRIV) # request privileged instruction
+ comb += e.trapaddr.eq(0x70) # addr=0x700 (strip first nibble)
+ return m
+
+ def regspecmap_read(self, regfile, regname):
+ """regspecmap_read: provides PowerDecode2 with an encoding relationship
+ to Function Unit port regfiles (read-enable, read regnum, write regnum)
+ regfile and regname arguments are fields 1 and 2 from a given regspec.
+ """
+ return regspec_decode_read(self.e, regfile, regname)
+
+ def regspecmap_write(self, regfile, regname):
+ """regspecmap_write: provides PowerDecode2 with an encoding relationship
+ to Function Unit port regfiles (write port, write regnum)
+ regfile and regname arguments are fields 1 and 2 from a given regspec.
+ """
+ return regspec_decode_write(self.e, regfile, regname)
+
+ def rdflags(self, cu):
+ rdl = []
+ for idx in range(cu.n_src):
+ regfile, regname, _ = cu.get_in_spec(idx)
+ rdflag, read = self.regspecmap_read(regfile, regname)
+ rdl.append(rdflag)
+ print ("rdflags", rdl)
+ return Cat(*rdl)
+
if __name__ == '__main__':
pdecode = create_pdecode()