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

// DESCRIPTION: Verilator: Verilog Test module
//
// This file ONLY is placed under the Creative Commons Public Domain, for
// any use, without warranty, 2011 by Wilson Snyder.
// SPDX-License-Identifier: CC0-1.0

module t (/*AUTOARG*/
   // Inputs
   clk
   );
   input clk;

   integer 	cyc=0;
   reg [63:0] 	crc;
   reg [63:0] 	sum;

   wire [3:0]  drv_a = crc[3:0];
   wire [3:0]  drv_b = crc[7:4];
   wire [3:0]  drv_e = crc[19:16];

   /*AUTOWIRE*/
   // Beginning of automatic wires (for undeclared instantiated-module outputs)
   wire [8:0]		match1;			// From test1 of Test1.v
   wire [8:0]		match2;			// From test2 of Test2.v
   // End of automatics

   Test1 test1 (/*AUTOINST*/
		// Outputs
		.match1			(match1[8:0]),
		// Inputs
		.drv_a			(drv_a[3:0]),
		.drv_e			(drv_e[3:0]));
   Test2 test2 (/*AUTOINST*/
		// Outputs
		.match2			(match2[8:0]),
		// Inputs
		.drv_a			(drv_a[3:0]),
		.drv_e			(drv_e[3:0]));

   // Aggregate outputs into a single result vector
   wire [63:0] 		result = {39'h0, match2, 7'h0, match1};

   // Test loop
   always @ (posedge clk) begin
`ifdef TEST_VERBOSE
      $write("[%0t] cyc==%0d crc=%x m1=%x m2=%x  (%b??%b:%b)\n",$time, cyc, crc, match1, match2, drv_e,drv_a,drv_b);
`endif
      cyc <= cyc + 1;
      crc <= {crc[62:0], crc[63]^crc[2]^crc[0]};
      sum <= result ^ {sum[62:0],sum[63]^sum[2]^sum[0]};
      if (cyc==0) begin
	 // Setup
	 crc <= 64'h5aef0c8d_d70a4497;
	 sum <= 64'h0;
      end
      else if (cyc<10) begin
	 sum <= 64'h0;
      end
      else if (cyc<90) begin
      end
      else if (cyc==99) begin
	 $write("[%0t] cyc==%0d crc=%x sum=%x\n",$time, cyc, crc, sum);
	 if (crc !== 64'hc77bb9b3784ea091) $stop;
	 // What checksum will we end up with (above print should match)
`define EXPECTED_SUM 64'hc0c4a2b9aea7c4b4
	 if (sum !== `EXPECTED_SUM) $stop;
	 $write("*-* All Finished *-*\n");
	 $finish;
      end
   end

endmodule

module Test1
  (
   input wire [3:0] drv_a,
   input wire [3:0] drv_e,
   output wire [8:0] match1
   );

   wire [2:1]       drv_all;
   bufif1 bufa [2:1] (drv_all, drv_a[2:1], drv_e[2:1]);

`ifdef VERILATOR
   // At present Verilator only allows comparisons with Zs
   assign match1[0] = (drv_a[2:1]== 2'b00 && drv_e[2:1]==2'b11);
   assign match1[1] = (drv_a[2:1]== 2'b01 && drv_e[2:1]==2'b11);
   assign match1[2] = (drv_a[2:1]== 2'b10 && drv_e[2:1]==2'b11);
   assign match1[3] = (drv_a[2:1]== 2'b11 && drv_e[2:1]==2'b11);
`else
   assign match1[0] = drv_all === 2'b00;
   assign match1[1] = drv_all === 2'b01;
   assign match1[2] = drv_all === 2'b10;
   assign match1[3] = drv_all === 2'b11;
`endif
   assign match1[4] = drv_all === 2'bz0;
   assign match1[5] = drv_all === 2'bz1;
   assign match1[6] = drv_all === 2'bzz;
   assign match1[7] = drv_all === 2'b0z;
   assign match1[8] = drv_all === 2'b1z;
endmodule

module Test2
  (
   input wire [3:0] drv_a,
   input wire [3:0] drv_e,
   output wire [8:0] match2
   );

   wire [2:1]       drv_all;
   bufif1 bufa [2:1] (drv_all, drv_a[2:1], drv_e[2:1]);

`ifdef VERILATOR
   assign match2[0] = (drv_all !== 2'b00 || drv_e[2:1]!=2'b11);
   assign match2[1] = (drv_all !== 2'b01 || drv_e[2:1]!=2'b11);
   assign match2[2] = (drv_all !== 2'b10 || drv_e[2:1]!=2'b11);
   assign match2[3] = (drv_all !== 2'b11 || drv_e[2:1]!=2'b11);
`else
   assign match2[0] = drv_all !== 2'b00;
   assign match2[1] = drv_all !== 2'b01;
   assign match2[2] = drv_all !== 2'b10;
   assign match2[3] = drv_all !== 2'b11;
`endif
   assign match2[4] = drv_all !== 2'bz0;
   assign match2[5] = drv_all !== 2'bz1;
   assign match2[6] = drv_all !== 2'bzz;
   assign match2[7] = drv_all !== 2'b0z;
   assign match2[8] = drv_all !== 2'b1z;
endmodule
verilog: test updates, source locations, labels, Silice 2021-07-07 16:06:22 +00:00			`// DESCRIPTION: Verilator: Verilog Test module`
			`//`
			`// This file ONLY is placed under the Creative Commons Public Domain, for`
			`// any use, without warranty, 2011 by Wilson Snyder.`
			`// SPDX-License-Identifier: CC0-1.0`

			`module t (/AUTOARG/`
			`// Inputs`
			`clk`
			`);`
			`input clk;`

			`integer cyc=0;`
			`reg [63:0] crc;`
			`reg [63:0] sum;`

			`wire [3:0] drv_a = crc[3:0];`
			`wire [3:0] drv_b = crc[7:4];`
			`wire [3:0] drv_e = crc[19:16];`

			`/AUTOWIRE/`
			`// Beginning of automatic wires (for undeclared instantiated-module outputs)`
			`wire [8:0] match1; // From test1 of Test1.v`
			`wire [8:0] match2; // From test2 of Test2.v`
			`// End of automatics`

			`Test1 test1 (/AUTOINST/`
			`// Outputs`
			`.match1 (match1[8:0]),`
			`// Inputs`
			`.drv_a (drv_a[3:0]),`
			`.drv_e (drv_e[3:0]));`
			`Test2 test2 (/AUTOINST/`
			`// Outputs`
			`.match2 (match2[8:0]),`
			`// Inputs`
			`.drv_a (drv_a[3:0]),`
			`.drv_e (drv_e[3:0]));`

			`// Aggregate outputs into a single result vector`
			`wire [63:0] result = {39'h0, match2, 7'h0, match1};`

			`// Test loop`
			`always @ (posedge clk) begin`
			`ifdef TEST_VERBOSE
			`$write("[%0t] cyc==%0d crc=%x m1=%x m2=%x (%b??%b:%b)\n",$time, cyc, crc, match1, match2, drv_e,drv_a,drv_b);`
			`endif
			`cyc <= cyc + 1;`
			`crc <= {crc[62:0], crc[63]^crc[2]^crc[0]};`
			`sum <= result ^ {sum[62:0],sum[63]^sum[2]^sum[0]};`
			`if (cyc==0) begin`
			`// Setup`
			`crc <= 64'h5aef0c8d_d70a4497;`
			`sum <= 64'h0;`
			`end`
			`else if (cyc<10) begin`
			`sum <= 64'h0;`
			`end`
			`else if (cyc<90) begin`
			`end`
			`else if (cyc==99) begin`
			`$write("[%0t] cyc==%0d crc=%x sum=%x\n",$time, cyc, crc, sum);`
			`if (crc !== 64'hc77bb9b3784ea091) $stop;`
			`// What checksum will we end up with (above print should match)`
			`define EXPECTED_SUM 64'hc0c4a2b9aea7c4b4
			if (sum !== `EXPECTED_SUM) $stop;
			`$write("- All Finished -\n");`
			`$finish;`
			`end`
			`end`

			`endmodule`

			`module Test1`
			`(`
			`input wire [3:0] drv_a,`
			`input wire [3:0] drv_e,`
			`output wire [8:0] match1`
			`);`

			`wire [2:1] drv_all;`
			`bufif1 bufa [2:1] (drv_all, drv_a[2:1], drv_e[2:1]);`

			`ifdef VERILATOR
			`// At present Verilator only allows comparisons with Zs`
			`assign match1[0] = (drv_a[2:1]== 2'b00 && drv_e[2:1]==2'b11);`
			`assign match1[1] = (drv_a[2:1]== 2'b01 && drv_e[2:1]==2'b11);`
			`assign match1[2] = (drv_a[2:1]== 2'b10 && drv_e[2:1]==2'b11);`
			`assign match1[3] = (drv_a[2:1]== 2'b11 && drv_e[2:1]==2'b11);`
			`else
			`assign match1[0] = drv_all === 2'b00;`
			`assign match1[1] = drv_all === 2'b01;`
			`assign match1[2] = drv_all === 2'b10;`
			`assign match1[3] = drv_all === 2'b11;`
			`endif
			`assign match1[4] = drv_all === 2'bz0;`
			`assign match1[5] = drv_all === 2'bz1;`
			`assign match1[6] = drv_all === 2'bzz;`
			`assign match1[7] = drv_all === 2'b0z;`
			`assign match1[8] = drv_all === 2'b1z;`
			`endmodule`

			`module Test2`
			`(`
			`input wire [3:0] drv_a,`
			`input wire [3:0] drv_e,`
			`output wire [8:0] match2`
			`);`

			`wire [2:1] drv_all;`
			`bufif1 bufa [2:1] (drv_all, drv_a[2:1], drv_e[2:1]);`

			`ifdef VERILATOR
			`assign match2[0] = (drv_all !== 2'b00 \|\| drv_e[2:1]!=2'b11);`
			`assign match2[1] = (drv_all !== 2'b01 \|\| drv_e[2:1]!=2'b11);`
			`assign match2[2] = (drv_all !== 2'b10 \|\| drv_e[2:1]!=2'b11);`
			`assign match2[3] = (drv_all !== 2'b11 \|\| drv_e[2:1]!=2'b11);`
			`else
			`assign match2[0] = drv_all !== 2'b00;`
			`assign match2[1] = drv_all !== 2'b01;`
			`assign match2[2] = drv_all !== 2'b10;`
			`assign match2[3] = drv_all !== 2'b11;`
			`endif
			`assign match2[4] = drv_all !== 2'bz0;`
			`assign match2[5] = drv_all !== 2'bz1;`
			`assign match2[6] = drv_all !== 2'bzz;`
			`assign match2[7] = drv_all !== 2'b0z;`
			`assign match2[8] = drv_all !== 2'b1z;`
			`endmodule`