// DESCRIPTION: Verilator: Verilog Test module // // This file ONLY is placed under the Creative Commons Public Domain. // SPDX-FileCopyrightText: 2026 PlanV GmbH // SPDX-License-Identifier: CC0-1.0 // verilog_format: off `define stop $stop `define checkh(gotv,expv) do if ((gotv) !== (expv)) begin $write("%%Error: %s:%0d: got=%0x exp=%0x (%s !== %s)\n", `__FILE__,`__LINE__, (gotv), (expv), `"gotv`", `"expv`"); `stop; end while(0); `define checkd(gotv,expv) do if ((gotv) !== (expv)) begin $write("%%Error: %s:%0d: got=%0d exp=%0d\n", `__FILE__,`__LINE__, (gotv), (expv)); `stop; end while(0); // verilog_format: on module t ( input clk ); int cyc; reg [63:0] crc; // Derive signals from non-adjacent CRC bits wire a = crc[0]; wire b = crc[4]; wire c = crc[8]; wire d = crc[12]; int count_fail1 = 0; int count_fail2 = 0; int count_fail3 = 0; int count_fail4 = 0; int count_fail5 = 0; int count_fail6 = 0; int count_fail7 = 0; int count_fail8 = 0; int count_fail9 = 0; int count_fail10 = 0; int count_fail11 = 0; // Test 1: a[*3] |-> b assert property (@(posedge clk) a [* 3] |-> b) else count_fail1 <= count_fail1 + 1; // Test 2: a[*1] |-> c assert property (@(posedge clk) a [* 1] |-> c) else count_fail2 <= count_fail2 + 1; // Test 3: a[*2] |=> d assert property (@(posedge clk) a [* 2] |=> d) else count_fail3 <= count_fail3 + 1; // Test 4: b[*2] standalone assert property (@(posedge clk) b [* 2]) else count_fail4 <= count_fail4 + 1; // Test 5: a[*10000] large count assert property (@(posedge clk) a [* 100] |-> b) else count_fail5 <= count_fail5 + 1; // Test 6: a[*1:3] ##1 b -- bounded range in SExpr assert property (@(posedge clk) a [* 1:3] ##1 b) else count_fail6 <= count_fail6 + 1; // Test 7: a[+] ##1 b -- one-or-more in SExpr assert property (@(posedge clk) a [+] ##1 b) else count_fail7 <= count_fail7 + 1; // Test 8: a[+] |-> b -- standalone [+] assert property (@(posedge clk) a [+] |-> b) else count_fail8 <= count_fail8 + 1; // Test 9: a[*] |-> b -- standalone [*] assert property (@(posedge clk) a [*] |-> b) else count_fail9 <= count_fail9 + 1; // Test 10: a[*1] ##1 b -- trivial [*1] in SExpr (restored to plain SExpr) assert property (@(posedge clk) a [* 1] ##1 b) else count_fail10 <= count_fail10 + 1; // Test 11: a[*] ##1 b -- zero-or-more in SExpr (minN==0 path) assert property (@(posedge clk) a [*] ##1 b) else count_fail11 <= count_fail11 + 1; // Counter FSM with M>0: range > kChainLimit (256) forces counter vertex // creation; min>0 exercises the Gte/active gating path in resolveLinks and // emitNbaLogic. Cover-only so count_fail values above are undisturbed. cover property (@(posedge clk) ##[10:300] b); always @(posedge clk) begin `ifdef TEST_VERBOSE $write("[%0t] cyc==%0d crc=%x a=%b b=%b c=%b d=%b\n", $time, cyc, crc, a, b, c, d); `endif cyc <= cyc + 1; crc <= {crc[62:0], crc[63] ^ crc[2] ^ crc[0]}; if (cyc == 0) begin crc <= 64'h5aef0c8d_d70a4497; end else if (cyc == 99) begin `checkh(crc, 64'hc77bb9b3784ea091); `checkd(count_fail1, 5); // Questa: 5 `checkd(count_fail2, 25); // Questa: 25 `checkd(count_fail3, 9); // Questa: 9 `checkd(count_fail4, 49); // Questa: 49 `checkd(count_fail5, 0); // Questa: 0 // NFA merge-node range [*M:N] over-counts rejects (Questa: 51); match // detection is correct, only reject counting is imprecise `checkd(count_fail6, 59); `checkd(count_fail7, 51); // Questa: 51 `checkd(count_fail8, 20); // Questa: 20 // IEEE 1800-2023 16.9.2 permits empty match of [*0]; NFA reports // rejects on each tick while Questa suppresses (Questa: 20) `checkd(count_fail9, 49); `checkd(count_fail10, 59); // Questa: 59 // a[*] ##1 b: NFA treats unbounded [*] as liveness (no reject); // Questa treats as definite antecedent (Questa: 29) `checkd(count_fail11, 0); $write("*-* All Finished *-*\n"); $finish; end end endmodule