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8bitworkshop/test/cli/verilog/t_alw_nosplit.v

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2021-07-06 20:45:27 +00:00
// DESCRIPTION: Verilator: Verilog Test module
//
// This file ONLY is placed under the Creative Commons Public Domain, for
// any use, without warranty, 2018 by Wilson Snyder.
// SPDX-License-Identifier: CC0-1.0
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc; initial cyc=1;
reg [15:0] m_din;
// We expect none of these blocks to split.
// Blocks that can split should go in t_alw_split.v instead.
reg [15:0] b_split_1, b_split_2;
always @ (/*AS*/m_din) begin
b_split_1 = m_din;
b_split_2 = b_split_1;
end
reg [15:0] c_split_1, c_split_2;
always @ (/*AS*/m_din) begin
c_split_1 = m_din;
c_split_2 = c_split_1;
c_split_1 = ~m_din;
end
always @ (posedge clk) begin
$write(" foo %x", m_din);
$write(" bar %x\n", m_din);
end
reg [15:0] e_split_1, e_split_2;
always @ (posedge clk) begin
e_split_1 = m_din;
e_split_2 = e_split_1;
end
reg [15:0] f_split_1, f_split_2;
always @ (posedge clk) begin
f_split_2 = f_split_1;
f_split_1 = m_din;
end
reg [15:0] l_split_1, l_split_2;
always @ (posedge clk) begin
l_split_2 <= l_split_1;
l_split_1 <= l_split_2 | m_din;
end
reg [15:0] z_split_1, z_split_2;
always @ (posedge clk) begin
z_split_1 <= 0;
z_split_1 <= ~m_din;
end
always @ (posedge clk) begin
z_split_2 <= 0;
z_split_2 <= z_split_1;
end
reg [15:0] h_split_1;
reg [15:0] h_split_2;
reg [15:0] h_foo;
always @ (posedge clk) begin
// $write(" cyc = %x m_din = %x\n", cyc, m_din);
h_foo = m_din;
if (cyc > 2) begin
// This conditional depends on non-primary-input foo.
// Its dependency on foo should not be pruned. As a result,
// the dependencies of h_split_1 and h_split_2 on this
// conditional will also not be pruned, making them all
// weakly connected such that they'll end up in the same graph
// and we can't split.
if (h_foo == 16'h0) begin
h_split_1 <= 16'h0;
h_split_2 <= 16'h0;
end
else begin
h_split_1 <= m_din;
h_split_2 <= ~m_din;
end
end
else begin
h_split_1 <= 16'h0;
h_split_2 <= 16'h0;
end
end // always @ (posedge clk)
always @ (posedge clk) begin
if (cyc!=0) begin
cyc<=cyc+1;
end
if (cyc==1) begin
m_din <= 16'hfeed;
end
if (cyc==4) begin
m_din <= 16'he11e;
if (!(b_split_1==16'hfeed && b_split_2==16'hfeed)) $stop;
if (!(c_split_1==16'h0112 && c_split_2==16'hfeed)) $stop;
if (!(e_split_1==16'hfeed && e_split_2==16'hfeed)) $stop;
if (!(f_split_1==16'hfeed && f_split_2==16'hfeed)) $stop;
if (!(z_split_1==16'h0112 && z_split_2==16'h0112)) $stop;
end
if (cyc==5) begin
m_din <= 16'he22e;
if (!(b_split_1==16'he11e && b_split_2==16'he11e)) $stop;
if (!(c_split_1==16'h1ee1 && c_split_2==16'he11e)) $stop;
// Two valid orderings, as we don't know which posedge clk gets evaled first
if (!(e_split_1==16'hfeed && e_split_2==16'hfeed) && !(e_split_1==16'he11e && e_split_2==16'he11e)) $stop;
if (!(f_split_1==16'hfeed && f_split_2==16'hfeed) && !(f_split_1==16'he11e && f_split_2==16'hfeed)) $stop;
if (!(z_split_1==16'h0112 && z_split_2==16'h0112)) $stop;
end
if (cyc==6) begin
m_din <= 16'he33e;
if (!(b_split_1==16'he22e && b_split_2==16'he22e)) $stop;
if (!(c_split_1==16'h1dd1 && c_split_2==16'he22e)) $stop;
// Two valid orderings, as we don't know which posedge clk gets evaled first
if (!(e_split_1==16'he11e && e_split_2==16'he11e) && !(e_split_1==16'he22e && e_split_2==16'he22e)) $stop;
if (!(f_split_1==16'he11e && f_split_2==16'hfeed) && !(f_split_1==16'he22e && f_split_2==16'he11e)) $stop;
if (!(z_split_1==16'h1ee1 && z_split_2==16'h0112)) $stop;
end
if (cyc==7) begin
$write("*-* All Finished *-*\n");
$finish;
end
end
endmodule