SVIncCompil/Testcases/Verilator/t_math_clog2.v - third_party/Surelog - Git at Google

 // DESCRIPTION: Verilator: Verilog Test module
 //
 // This file ONLY is placed into the Public Domain, for any use,
 // without warranty, 2008 by Wilson Snyder.

 `ifdef verilator
  `define CLOG2 $clog2
 `else
  `define CLOG2 clog2_emulate
 `endif

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

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

    // Need temp wires as function has different width rules than $clog2
    wire [127:0] pows = 128'h1<<crc[7:0];
    wire [127:0] npows = ~pows;

    wire [31:0] 	out  = `CLOG2(crc[7:0]);
    wire [31:0] 	out2 = `CLOG2(crc);
    wire [31:0] 	out3 = `CLOG2(pows);
    wire [31:0] 	out4 = `CLOG2(npows);

    // Aggregate outputs into a single result vector
    wire [63:0] result = {out4[15:0], out3[15:0], out2[15:0], out[15:0]};

 `define EXPECTED_SUM 64'h73c48afee4f0cb57

    // Test loop
    always @ (posedge clk) begin
 `ifdef TEST_VERBOSE
       $write("[%0t] cyc==%0d crc=%x result=%x\n",$time, cyc, crc, result);
 `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
 	 crc <= 64'h0;
 	 if (`CLOG2(32'h0) != 0) $stop;
 	 if (`CLOG2(32'h1) != 0) $stop;
 	 if (`CLOG2(32'h4) != 2) $stop;
 	 if (`CLOG2(32'h7) != 3) $stop;
 	 if (`CLOG2(32'h8) != 3) $stop;
 	 if (`CLOG2(32'h9) != 4) $stop;
 	 if (`CLOG2({32{1'b1}}) != 32) $stop;
 	 if (`CLOG2({1'b1,32'b0}) != 32) $stop;
 	 if (`CLOG2({64{1'b1}}) != 64) $stop;
 	 if (`CLOG2({1'b1,64'b0}) != 64) $stop;
 	 if (`CLOG2({128{1'b1}}) != 128) $stop;
 	 if (`CLOG2({1'b1,128'b0}) != 128) $stop;
 	 if (`CLOG2({2'b10,128'b0}) != 129) $stop;
       end
       else if (cyc==1) begin
 	 crc <= 64'h1;
 	 if (result[31:0] != {16'd0, 16'd0}) $stop;
       end
       else if (cyc==2) begin
 	 crc <= 64'h3;
 	 if (result[31:0] != {16'd0, 16'd0}) $stop;
       end
       else if (cyc==3) begin
 	 crc <= {64{1'b1}};
 	 if (result[31:0] != {16'd2, 16'd2}) $stop;
       end
       else if (cyc==4) begin
 	 if (result[31:0] != {16'd64, 16'd8}) $stop;
       end
       else if (cyc==8) begin
 	 crc <= 64'h5aef0c8d_d70a4497;
       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'hcbc77bb9b3784ea0) $stop;
 	 if (sum !== `EXPECTED_SUM) $stop;
 	 $write("*-* All Finished *-*\n");
 	 $finish;
       end
    end

    function integer clog2_emulate(input [130:0] arg);
       begin
 	 if (arg!=0) arg = arg - 1;
 	 for (clog2_emulate=0; arg!=0; clog2_emulate=clog2_emulate+1)
 	   arg = (arg >> 1);
       end
    endfunction
 endmodule
	// DESCRIPTION: Verilator: Verilog Test module
	//
	// This file ONLY is placed into the Public Domain, for any use,
	// without warranty, 2008 by Wilson Snyder.

	`ifdef verilator
	`define CLOG2 $clog2
	`else
	`define CLOG2 clog2_emulate
	`endif

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

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

	// Need temp wires as function has different width rules than $clog2
	wire [127:0] pows = 128'h1<<crc[7:0];
	wire [127:0] npows = ~pows;

	wire [31:0] out = `CLOG2(crc[7:0]);
	wire [31:0] out2 = `CLOG2(crc);
	wire [31:0] out3 = `CLOG2(pows);
	wire [31:0] out4 = `CLOG2(npows);

	// Aggregate outputs into a single result vector
	wire [63:0] result = {out4[15:0], out3[15:0], out2[15:0], out[15:0]};

	`define EXPECTED_SUM 64'h73c48afee4f0cb57

	// Test loop
	always @ (posedge clk) begin
	`ifdef TEST_VERBOSE
	$write("[%0t] cyc==%0d crc=%x result=%x\n",$time, cyc, crc, result);
	`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
	crc <= 64'h0;
	if (`CLOG2(32'h0) != 0) $stop;
	if (`CLOG2(32'h1) != 0) $stop;
	if (`CLOG2(32'h4) != 2) $stop;
	if (`CLOG2(32'h7) != 3) $stop;
	if (`CLOG2(32'h8) != 3) $stop;
	if (`CLOG2(32'h9) != 4) $stop;
	if (`CLOG2({32{1'b1}}) != 32) $stop;
	if (`CLOG2({1'b1,32'b0}) != 32) $stop;
	if (`CLOG2({64{1'b1}}) != 64) $stop;
	if (`CLOG2({1'b1,64'b0}) != 64) $stop;
	if (`CLOG2({128{1'b1}}) != 128) $stop;
	if (`CLOG2({1'b1,128'b0}) != 128) $stop;
	if (`CLOG2({2'b10,128'b0}) != 129) $stop;
	end
	else if (cyc==1) begin
	crc <= 64'h1;
	if (result[31:0] != {16'd0, 16'd0}) $stop;
	end
	else if (cyc==2) begin
	crc <= 64'h3;
	if (result[31:0] != {16'd0, 16'd0}) $stop;
	end
	else if (cyc==3) begin
	crc <= {64{1'b1}};
	if (result[31:0] != {16'd2, 16'd2}) $stop;
	end
	else if (cyc==4) begin
	if (result[31:0] != {16'd64, 16'd8}) $stop;
	end
	else if (cyc==8) begin
	crc <= 64'h5aef0c8d_d70a4497;
	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'hcbc77bb9b3784ea0) $stop;
	if (sum !== `EXPECTED_SUM) $stop;
	$write("- All Finished -\n");
	$finish;
	end
	end

	function integer clog2_emulate(input [130:0] arg);
	begin
	if (arg!=0) arg = arg - 1;
	for (clog2_emulate=0; arg!=0; clog2_emulate=clog2_emulate+1)
	arg = (arg >> 1);
	end
	endfunction
	endmodule