Exemple #1
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 def create_HdlModuleDec(self, name: str, store_manager: "StoreManager",
                         params: List[Param]):
     """
     Generate a module header (entity) for this module
     """
     self.ent = ent = HdlModuleDec()
     ent.name = store_manager.name_scope.checked_name(name, ent)
     ns = store_manager.hierarchy_push(ent)
     # create generics
     for p in sorted(params, key=lambda x: x._name):
         hdl_val = p.get_hdl_value()
         v = HdlIdDef()
         v.origin = p
         v.name = p.hdl_name = ns.checked_name(p._name, p)
         v.type = hdl_val._dtype
         v.value = hdl_val
         ent.params.append(v)
     return ent
Exemple #2
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    def as_hdl_HdlPortItem(self, o: HdlPortItem):
        i = o.getInternSig()._interface
        d = o.direction
        if isinstance(i, Clk):
            assert i._dtype.bit_length() == 1, i
            if d == DIRECTION.IN:
                t = self.sc_in_clk
            elif d == DIRECTION.OUT:
                t = self.sc_out_clk
            elif d == DIRECTION.INOUT:
                t = self.sc_inout_clk
            else:
                raise ValueError(d)
        else:
            if d == DIRECTION.IN:
                pt = self.sc_in
            elif d == DIRECTION.OUT:
                pt = self.sc_out
            elif d == DIRECTION.INOUT:
                pt = self.sc_inout
            else:
                raise ValueError(d)
            t = self.as_hdl_HdlType(o._dtype)
            t = HdlOp(HdlOpType.PARAMETRIZATION, [pt, t])

        var = HdlIdDef()
        var.direction = HWT_TO_HDLCONVEROTR_DIRECTION[o.direction]
        s = o.getInternSig()
        var.name = s.name
        var.origin = o
        var.type = t
        return var
Exemple #3
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    def create_HdlModuleDef(self, target_platform: DummyPlatform,
                            store_manager: "StoreManager"):
        """
        Generate a module body (architecture) for this module

        * Resolve name collisions
        * Convert netlist representation to HdlProcesses
        * Remove unconnected
        * Mark visibility of signals
        """
        removeUnconnectedSignals(self)
        markVisibilityOfSignalsAndCheckDrivers(self.signals, self.interfaces)

        for proc in target_platform.beforeHdlArchGeneration:
            proc(self)

        ns = store_manager.name_scope
        mdef = HdlModuleDef()
        mdef.dec = self.ent
        mdef.module_name = HdlValueId(self.ent.name, obj=self.ent)
        mdef.name = "rtl"

        processes = sorted(self.statements, key=HdlStatement_sort_key)
        processes = sorted(statements_to_HdlStatementBlocks(processes),
                           key=HdlStatement_sort_key)

        # add signals, variables etc. in architecture
        for s in sorted((s for s in self.signals
                         if not s.hidden and s not in self.interfaces.keys()),
                        key=RtlSignal_sort_key):
            v = HdlIdDef()
            v.origin = s
            s.name = v.name = ns.checked_name(s.name, s)
            v.type = s._dtype
            v.value = s.def_val
            v.is_const = s._const
            mdef.objs.append(v)

        for p in processes:
            p.name = ns.checked_name(p.name, p)
        mdef.objs.extend(processes)
        # instantiate subUnits in architecture
        for u in self.subUnits:
            ci = HdlCompInst()
            ci.origin = u
            ci.module_name = HdlValueId(u._ctx.ent.name, obj=u._ctx.ent)
            ci.name = HdlValueId(ns.checked_name(u._name + "_inst", ci), obj=u)
            e = u._ctx.ent

            ci.param_map.extend(e.params)
            ci.port_map.extend(e.ports)

            mdef.objs.append(ci)

        self.arch = mdef
        return mdef
Exemple #4
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 def as_hdl_HdlType_array(self, typ: HArray, declaration=False):
     if declaration:
         v = HdlIdDef()
         name = getattr(typ, "name", None)
         if name is None:
             name = "arr_t_"
         v.name = self.name_scope.checked_name(name, typ)
         v.type = HdlTypeType
         v.origin = typ
         size = hdl_downto(self.as_hdl_int(int(typ.size) - 1),
                           self.as_hdl_int(0))
         if self.does_type_requires_extra_def(typ.element_t, ()):
             raise NotImplementedError(typ.element_t)
         e_t = self.as_hdl_HdlType(typ.element_t, declaration=False)
         v.value = hdl_index(e_t, size)
         return v
     else:
         return super(ToHdlAstVhdl2008_types,
                      self).as_hdl_HdlType_array(typ, declaration)
Exemple #5
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    def as_hdl_SignalItem(self,
                          si: Union[SignalItem, HdlIdDef],
                          declaration=False):
        if declaration:
            if isinstance(si, HdlIdDef):
                var = copy(si)
                si = si.origin
            else:
                var = HdlIdDef()
                var.name = si.name
                var.origin = si
                var.value = si._val
                var.type = si._dtype
                var.is_const = si._const
            v = var.value
            if isinstance(si, RtlSignalBase):
                if si.virtual_only:
                    var.is_latched = True
                elif si.drivers or var.direction != HdlDirection.UNKNOWN:
                    # has drivers or is port/param
                    pass
                elif si.endpoints:
                    if not v.vld_mask:
                        raise SerializerException(
                            "Signal %s is constant and has undefined value" %
                            si.name)
                    var.is_const = True
                else:
                    raise SerializerException(
                        "Signal %s should be declared but it is not used" %
                        si.name)

            if v is None:
                pass
            elif isinstance(v, RtlSignalBase):
                if v._const:
                    var.value = self.as_hdl(v)
                else:
                    # default value has to be set by reset,
                    # because it is not resolvable in compile time
                    var.value = None
                    pass
            elif isinstance(v, Value):
                if v.vld_mask or var.is_const:
                    orig_const_cache = self.constCache
                    try:
                        self.constCache = None
                        var.value = self.as_hdl_Value(v)
                    finally:
                        self.constCache = orig_const_cache
                else:
                    # remove value if it is entirely undefined
                    var.value = None
            else:
                raise NotImplementedError(v)
            var.type = self.as_hdl_HdlType(var.type)
            return var
        else:
            if si.hidden and hasattr(si, "origin"):
                # hidden signal, render it's driver instead
                return self.as_hdl(si.origin)
            return HdlValueId(si.name, obj=si)