from functools import partial from migen.fhdl.structure import * from migen.fhdl.structure import _Operator, _Slice, _Assign, _StatementList from migen.fhdl.convtools import * def _printsig(ns, s): if s.bv.signed: n = "signed " else: n = "" if s.bv.width > 1: n += "[" + str(s.bv.width-1) + ":0] " n += ns.get_name(s) return n def _printexpr(ns, node): if isinstance(node, Constant): if node.n >= 0: return str(node.bv) + str(node.n) else: return "-" + str(node.bv) + str(-self.n) elif isinstance(node, Signal): return ns.get_name(node) elif isinstance(node, _Operator): arity = len(node.operands) if arity == 1: r = node.op + _printexpr(ns, node.operands[0]) elif arity == 2: r = _printexpr(ns, node.operands[0]) + " " + node.op + " " + _printexpr(ns, node.operands[1]) else: raise TypeError return "(" + r + ")" elif isinstance(node, _Slice): if node.start + 1 == node.stop: sr = "[" + str(node.start) + "]" else: sr = "[" + str(node.stop-1) + ":" + str(node.start) + "]" return _printexpr(ns, node.value) + sr elif isinstance(node, Cat): l = list(map(partial(_printexpr, ns), node.l)) l.reverse() return "{" + ", ".join(l) + "}" elif isinstance(node, Replicate): return "{" + str(node.n) + "{" + _printexpr(ns, node.v) + "}}" else: raise TypeError def _printnode(ns, is_sync, level, node): if isinstance(node, _Assign): if is_sync and is_variable(node.l): assignment = " = " else: assignment = " <= " return "\t"*level + _printexpr(ns, node.l) + assignment + _printexpr(ns, node.r) + ";\n" elif isinstance(node, _StatementList): return "".join(list(map(partial(_printnode, ns, is_sync, level), node.l))) elif isinstance(node, If): r = "\t"*level + "if (" + _printexpr(ns, node.cond) + ") begin\n" r += _printnode(ns, is_sync, level + 1, node.t) if node.f.l: r += "\t"*level + "end else begin\n" r += _printnode(ns, is_sync, level + 1, node.f) r += "\t"*level + "end\n" return r elif isinstance(node, Case): r = "\t"*level + "case (" + _printexpr(ns, node.test) + ")\n" for case in node.cases: r += "\t"*(level + 1) + _printexpr(ns, case[0]) + ": begin\n" r += _printnode(ns, is_sync, level + 2, case[1]) r += "\t"*(level + 1) + "end\n" if node.default.l: r += "\t"*(level + 1) + "default: begin\n" r += _printnode(ns, is_sync, level + 2, node.default) r += "\t"*(level + 1) + "end\n" r += "\t"*level + "endcase\n" return r else: raise TypeError def _printheader(f, ios, name, ns): sigs = list_signals(f) targets = list_targets(f) instouts = list_inst_outs(f) r = "module " + name + "(\n" firstp = True for sig in ios: if not firstp: r += ",\n" firstp = False if sig in targets: r += "\toutput reg " + _printsig(ns, sig) elif sig in instouts: r += "\toutput " + _printsig(ns, sig) else: r += "\tinput " + _printsig(ns, sig) r += "\n);\n\n" for sig in sigs - ios: if sig in instouts: r += "wire " + _printsig(ns, sig) + ";\n" else: r += "reg " + _printsig(ns, sig) + ";\n" r += "\n" return r def _printcomb(f, ns): r = "" if f.comb.l: # Generate a dummy event to get the simulator # to run the combinatorial process once at the beginning. syn_off = "// synthesis translate off\n" syn_on = "// synthesis translate on\n" dummy_s = Signal(name="dummy_s") dummy_d = Signal(name="dummy_d") r += syn_off r += "reg " + _printsig(ns, dummy_s) + ";\n" r += "reg " + _printsig(ns, dummy_d) + ";\n" r += "initial " + ns.get_name(dummy_s) + " <= 1'b0;\n" r += syn_on + "\n" r += "always @(*) begin\n" to_reset = list_targets(f.comb) # do not reset signals with obvious unconditional assignments for s in f.comb.l: if isinstance(s, _Assign) and isinstance(s.l, Signal): try: to_reset.remove(s.l) except KeyError: pass for t in to_reset: r += "\t" + ns.get_name(t) + " <= " + str(t.reset) + ";\n" r += _printnode(ns, False, 1, f.comb) r += syn_off r += "\t" + ns.get_name(dummy_d) + " <= " + ns.get_name(dummy_s) + ";\n" r += syn_on r += "end\n\n" return r def _printsync(f, ns, clk_signal, rst_signal): r = "" if f.sync.l: r += "always @(posedge " + ns.get_name(clk_signal) + ") begin\n" r += _printnode(ns, True, 1, insert_reset(rst_signal, f.sync)) r += "end\n\n" return r def _printinstances(ns, i, clk, rst): r = "" for x in i: r += x.of + " " if x.parameters: r += "#(\n" firstp = True for p in x.parameters: if not firstp: r += ",\n" firstp = False r += "\t." + p[0] + "(" if isinstance(p[1], int) or isinstance(p[1], float) or isinstance(p[1], Constant): r += str(p[1]) elif isinstance(p[1], str): r += "\"" + p[1] + "\"" else: raise TypeError r += ")" r += "\n) " r += ns.get_name(x) if x.parameters: r += " " r += "(\n" ports = list(x.ins.items()) + list(x.outs.items()) if x.clkport: ports.append((x.clkport, clk)) if x.rstport: ports.append((x.rstport, rst)) firstp = True for p in ports: if not firstp: r += ",\n" firstp = False r += "\t." + p[0] + "(" + ns.get_name(p[1]) + ")" if not firstp: r += "\n" r += ");\n\n" return r def Convert(f, ios=set(), name="top", clk_signal=None, rst_signal=None, ns=None): if clk_signal is None: clk_signal = Signal(name="sys_clk") ios.add(clk_signal) if rst_signal is None: rst_signal = Signal(name="sys_rst") ios.add(rst_signal) if ns is None: ns = Namespace() ios |= f.pads r = "/* Machine-generated using Migen */\n" r += _printheader(f, ios, name, ns) r += _printcomb(f, ns) r += _printsync(f, ns, clk_signal, rst_signal) r += _printinstances(ns, f.instances, clk_signal, rst_signal) r += "endmodule\n" return r