-# IEEE Floating Point Adder (Single Precision)
-# Copyright (C) Jonathan P Dawson 2013
-# 2013-12-12
+"""IEEE754 Floating Point Library
-from nmigen import Module, Signal, Elaboratable
-from nmigen.cli import main, verilog
-from math import log
-
-from ieee754.fpcommon.fpbase import FPNumIn, FPNumOut, FPNumBase
-from ieee754.fpcommon.fpbase import FPState
-
-
-class FPSCData:
+Copyright (C) 2019 Luke Kenneth Casson Leighton <lkcl@lkcl.net>
- def __init__(self, width, id_wid, m_extra=True):
- self.a = FPNumBase(width, m_extra)
- self.b = FPNumBase(width, m_extra)
- self.z = FPNumOut(width, False)
- self.oz = Signal(width, reset_less=True)
- self.out_do_z = Signal(reset_less=True)
- self.mid = Signal(id_wid, reset_less=True)
+"""
- def __iter__(self):
- yield from self.a
- yield from self.b
- yield from self.z
- yield self.oz
- yield self.out_do_z
- yield self.mid
+from nmigen import Module, Mux
+from nmigen.cli import main, verilog
+from math import log
- def eq(self, i):
- return [self.z.eq(i.z), self.out_do_z.eq(i.out_do_z), self.oz.eq(i.oz),
- self.a.eq(i.a), self.b.eq(i.b), self.mid.eq(i.mid)]
+from nmutil.pipemodbase import PipeModBase
+from ieee754.fpcommon.fpbase import FPNumBase
+from ieee754.fpcommon.pscdata import FPSCData
-class FPAddDeNormMod(FPState, Elaboratable):
+class FPAddDeNormMod(PipeModBase):
- def __init__(self, width, id_wid, m_extra=True):
- self.width = width
- self.id_wid = id_wid
+ def __init__(self, pspec, m_extra):
self.m_extra = m_extra
- self.i = self.ispec()
- self.o = self.ospec()
+ super().__init__(pspec, "denormalise")
def ispec(self):
- return FPSCData(self.width, self.id_wid, self.m_extra)
+ return FPSCData(self.pspec, self.m_extra)
def ospec(self):
- return FPSCData(self.width, self.id_wid, self.m_extra)
-
- def process(self, i):
- return self.o
-
- def setup(self, m, i):
- """ links module to inputs and outputs
- """
- m.submodules.denormalise = self
- m.d.comb += self.i.eq(i)
+ return FPSCData(self.pspec, self.m_extra)
def elaborate(self, platform):
m = Module()
- m.submodules.denorm_in_a = self.i.a
- m.submodules.denorm_in_b = self.i.b
- m.submodules.denorm_out_a = self.o.a
- m.submodules.denorm_out_b = self.o.b
-
- with m.If(~self.i.out_do_z):
- # XXX hmmm, don't like repeating identical code
- m.d.comb += self.o.a.eq(self.i.a)
- with m.If(self.i.a.exp_n127):
- m.d.comb += self.o.a.e.eq(self.i.a.N126) # limit a exponent
- with m.Else():
- m.d.comb += self.o.a.m[-1].eq(1) # set top mantissa bit
-
- m.d.comb += self.o.b.eq(self.i.b)
- with m.If(self.i.b.exp_n127):
- m.d.comb += self.o.b.e.eq(self.i.b.N126) # limit a exponent
- with m.Else():
- m.d.comb += self.o.b.m[-1].eq(1) # set top mantissa bit
-
- m.d.comb += self.o.mid.eq(self.i.mid)
- m.d.comb += self.o.z.eq(self.i.z)
- m.d.comb += self.o.out_do_z.eq(self.i.out_do_z)
- m.d.comb += self.o.oz.eq(self.i.oz)
+ comb = m.d.comb
+
+ m.submodules.denorm_in_a = in_a = FPNumBase(self.i.a)
+ m.submodules.denorm_in_b = in_b = FPNumBase(self.i.b)
+
+ # XXX hmmm, don't like repeating identical code
+ comb += self.o.a.eq(self.i.a)
+ ae = self.i.a.e
+ am = self.i.a.m
+ # either limit exponent, or set top mantissa bit
+ comb += self.o.a.e.eq(Mux(in_a.exp_n127, self.i.a.N126, ae))
+ comb += self.o.a.m[-1].eq(Mux(in_a.exp_n127, am[-1], 1))
+
+ # XXX code now repeated for b
+ comb += self.o.b.eq(self.i.b)
+ be = self.i.b.e
+ bm = self.i.b.m
+ # either limit exponent, or set top mantissa bit
+ comb += self.o.b.e.eq(Mux(in_b.exp_n127, self.i.b.N126, be))
+ comb += self.o.b.m[-1].eq(Mux(in_b.exp_n127, bm[-1], 1))
+
+ comb += self.o.ctx.eq(self.i.ctx)
+ comb += self.o.z.eq(self.i.z)
+ comb += self.o.out_do_z.eq(self.i.out_do_z)
+ comb += self.o.oz.eq(self.i.oz)
+ comb += self.o.rm.eq(self.i.rm)
return m
-
-
-class FPAddDeNorm(FPState):
-
- def __init__(self, width, id_wid):
- FPState.__init__(self, "denormalise")
- self.mod = FPAddDeNormMod(width)
- self.out_a = FPNumBase(width)
- self.out_b = FPNumBase(width)
-
- def setup(self, m, i):
- """ links module to inputs and outputs
- """
- self.mod.setup(m, i)
-
- m.d.sync += self.out_a.eq(self.mod.out_a)
- m.d.sync += self.out_b.eq(self.mod.out_b)
-
- def action(self, m):
- # Denormalised Number checks
- m.next = "align"
-
-