diff --git a/migen/fhdl/verilog.py b/migen/fhdl/verilog.py index 5d5f5896e..c37cfcace 100644 --- a/migen/fhdl/verilog.py +++ b/migen/fhdl/verilog.py @@ -8,7 +8,6 @@ from migen.fhdl.bitcontainer import bits_for, flen from migen.fhdl.namer import Namespace, build_namespace from migen.fhdl.conv_output import ConvOutput - def _printsig(ns, s): if s.signed: n = "signed " @@ -27,10 +26,10 @@ def _printintbool(node): else: return "1'd0", False elif isinstance(node, int): + nbits = bits_for(node) if node >= 0: - return str(bits_for(node)) + "'d" + str(node), False + return str(nbits) + "'d" + str(node), False else: - nbits = bits_for(node) return str(nbits) + "'sd" + str(2**nbits + node), True else: raise TypeError @@ -152,7 +151,7 @@ def _list_comb_wires(f): return r -def _printheader(f, ios, name, ns): +def _printheader(f, ios, name, ns, asic_syntax=False): sigs = list_signals(f) | list_special_ios(f, True, True, True) special_outs = list_special_ios(f, False, True, True) inouts = list_special_ios(f, False, False, True) @@ -178,23 +177,27 @@ def _printheader(f, ios, name, ns): if sig in wires: r += "wire " + _printsig(ns, sig) + ";\n" else: - r += "reg " + _printsig(ns, sig) + " = " + _printexpr(ns, sig.reset)[0] + ";\n" + if asic_syntax: + r += "reg " + _printsig(ns, sig) + ";\n" + else: + r += "reg " + _printsig(ns, sig) + " = " + _printexpr(ns, sig.reset)[0] + ";\n" r += "\n" return r -def _printcomb(f, ns, display_run): +def _printcomb(f, ns, display_run, asic_syntax=False): r = "" if f.comb: # 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_override="dummy_s") - r += syn_off - r += "reg " + _printsig(ns, dummy_s) + ";\n" - r += "initial " + ns.get_name(dummy_s) + " <= 1'd0;\n" - r += syn_on + if not asic_syntax: + dummy_s = Signal(name_override="dummy_s") + r += syn_off + r += "reg " + _printsig(ns, dummy_s) + ";\n" + r += "initial " + ns.get_name(dummy_s) + " <= 1'd0;\n" + r += syn_on groups = group_by_targets(f.comb) @@ -202,20 +205,26 @@ def _printcomb(f, ns, display_run): if len(g[1]) == 1 and isinstance(g[1][0], _Assign): r += "assign " + _printnode(ns, _AT_BLOCKING, 0, g[1][0]) else: - dummy_d = Signal(name_override="dummy_d") - r += "\n" + syn_off - r += "reg " + _printsig(ns, dummy_d) + ";\n" - r += syn_on + if not asic_syntax: + dummy_d = Signal(name_override="dummy_d") + r += "\n" + syn_off + r += "reg " + _printsig(ns, dummy_d) + ";\n" + r += syn_on r += "always @(*) begin\n" if display_run: r += "\t$display(\"Running comb block #" + str(n) + "\");\n" - for t in g[0]: - r += "\t" + ns.get_name(t) + " <= " + _printexpr(ns, t.reset)[0] + ";\n" - r += _printnode(ns, _AT_NONBLOCKING, 1, g[1]) - r += syn_off - r += "\t" + ns.get_name(dummy_d) + " <= " + ns.get_name(dummy_s) + ";\n" - r += syn_on + if asic_syntax: + for t in g[0]: + r += "\t" + ns.get_name(t) + " = " + _printexpr(ns, t.reset)[0] + ";\n" + r += _printnode(ns, _AT_BLOCKING, 1, g[1]) + else: + for t in g[0]: + r += "\t" + ns.get_name(t) + " <= " + _printexpr(ns, t.reset)[0] + ";\n" + r += _printnode(ns, _AT_NONBLOCKING, 1, g[1]) + r += syn_off + r += "\t" + ns.get_name(dummy_d) + " <= " + ns.get_name(dummy_s) + ";\n" + r += syn_on r += "end\n" r += "\n" return r @@ -284,7 +293,7 @@ def _printspecials(overrides, specials, ns, add_data_file): def convert(f, ios=None, name="top", special_overrides=dict(), create_clock_domains=True, - display_run=False): + display_run=False, asic_syntax=False): r = ConvOutput() if not isinstance(f, _Fragment): f = f.get_fragment() @@ -314,8 +323,8 @@ def convert(f, ios=None, name="top", r.ns = ns src = "/* Machine-generated using Migen */\n" - src += _printheader(f, ios, name, ns) - src += _printcomb(f, ns, display_run) + src += _printheader(f, ios, name, ns, asic_syntax) + src += _printcomb(f, ns, display_run, asic_syntax) src += _printsync(f, ns) src += _printspecials(special_overrides, f.specials - lowered_specials, ns, r.add_data_file) src += "endmodule\n"