from ieee754.fpcommon.getop import FPADDBaseData
from ieee754.fpcommon.denorm import (FPSCData, FPAddDeNormMod)
from ieee754.fpmul.align import FPAlignModSingle
+from ieee754.div_rem_sqrt_rsqrt.core import DivPipeCoreOperation as DP
class FPDIVSpecialCasesMod(Elaboratable):
def elaborate(self, platform):
m = Module()
-
- #m.submodules.sc_out_z = self.o.z
+ comb = m.d.comb
# decode: XXX really should move to separate stage
a1 = FPNumBaseRecord(self.pspec.width, False, name="a1")
b1 = FPNumBaseRecord(self.pspec.width, False, name="b1")
m.submodules.sc_decode_a = a1 = FPNumDecode(None, a1)
m.submodules.sc_decode_b = b1 = FPNumDecode(None, b1)
- m.d.comb += [a1.v.eq(self.i.a),
+ comb += [a1.v.eq(self.i.a),
b1.v.eq(self.i.b),
self.o.a.eq(a1),
self.o.b.eq(b1)
]
sabx = Signal(reset_less=True) # sign a xor b (sabx, get it?)
- m.d.comb += sabx.eq(a1.s ^ b1.s)
+ comb += sabx.eq(a1.s ^ b1.s)
abnan = Signal(reset_less=True)
- m.d.comb += abnan.eq(a1.is_nan | b1.is_nan)
+ comb += abnan.eq(a1.is_nan | b1.is_nan)
abinf = Signal(reset_less=True)
- m.d.comb += abinf.eq(a1.is_inf & b1.is_inf)
+ comb += abinf.eq(a1.is_inf & b1.is_inf)
with m.If(self.i.ctx.op == 0): # DIV
# if a is NaN or b is NaN return NaN
with m.If(abnan):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.nan(0)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.nan(0)
# if a is inf and b is Inf return NaN
with m.Elif(abinf):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.nan(0)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.nan(0)
# if a is inf return inf
with m.Elif(a1.is_inf):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.inf(sabx)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.inf(sabx)
# if b is inf return zero
with m.Elif(b1.is_inf):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.zero(sabx)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.zero(sabx)
# if a is zero return zero (or NaN if b is zero)
with m.Elif(a1.is_zero):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.zero(sabx)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.zero(sabx)
# b is zero return NaN
with m.If(b1.is_zero):
- m.d.comb += self.o.z.nan(0)
+ comb += self.o.z.nan(0)
# if b is zero return Inf
with m.Elif(b1.is_zero):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.inf(sabx)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.inf(sabx)
# Denormalised Number checks next, so pass a/b data through
with m.Else():
- m.d.comb += self.o.out_do_z.eq(0)
+ comb += self.o.out_do_z.eq(0)
with m.If(self.i.ctx.op == 1): # SQRT
# if a is zero return zero
with m.If(a1.is_zero):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.zero(a1.s)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.zero(a1.s)
# -ve number is NaN
with m.Elif(a1.s):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.nan(0)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.nan(0)
# if a is inf return inf
with m.Elif(a1.is_inf):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.inf(sabx)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.inf(sabx)
# if a is NaN return NaN
with m.Elif(a1.is_nan):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.nan(0)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.nan(0)
# Denormalised Number checks next, so pass a/b data through
with m.Else():
- m.d.comb += self.o.out_do_z.eq(0)
+ comb += self.o.out_do_z.eq(0)
with m.If(self.i.ctx.op == 2): # RSQRT
# if a is NaN return canonical NaN
with m.If(a1.is_nan):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.nan(0)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.nan(0)
# if a is +/- zero return +/- INF
with m.Elif(a1.is_zero):
- m.d.comb += self.o.out_do_z.eq(1)
+ comb += self.o.out_do_z.eq(1)
# this includes the "weird" case 1/sqrt(-0) == -Inf
- m.d.comb += self.o.z.inf(a1.s)
+ comb += self.o.z.inf(a1.s)
# -ve number is canonical NaN
with m.Elif(a1.s):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.nan(0)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.nan(0)
# if a is inf return zero (-ve already excluded, above)
with m.Elif(a1.is_inf):
- m.d.comb += self.o.out_do_z.eq(1)
- m.d.comb += self.o.z.zero(0)
+ comb += self.o.out_do_z.eq(1)
+ comb += self.o.z.zero(0)
# Denormalised Number checks next, so pass a/b data through
with m.Else():
- m.d.comb += self.o.out_do_z.eq(0)
+ comb += self.o.out_do_z.eq(0)
- m.d.comb += self.o.oz.eq(self.o.z.v)
- m.d.comb += self.o.ctx.eq(self.i.ctx)
+ comb += self.o.oz.eq(self.o.z.v)
+ comb += self.o.ctx.eq(self.i.ctx)
return m
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