module gate( (* nowrshmsk = `ALT *) output reg [`LEFT:`RIGHT] out_u, out_s, input wire data, input wire [1:0] sel1, sel2 ); always @* begin out_u = 'x; out_s = 'x; case (`SPAN) 1: begin out_u[sel1*sel2] = data; out_s[$signed(sel1*sel2)] = data; end 2: begin out_u[sel1*sel2+:2] = {data, data}; out_s[$signed(sel1*sel2)+:2] = {data, data}; end 3: begin out_u[sel1*sel2+:3] = {data, data, data}; out_s[$signed(sel1*sel2)+:3] = {data, data, data}; end 4: begin out_u[sel1*sel2+:4] = {data, data, data, data}; out_s[$signed(sel1*sel2)+:4] = {data, data, data, data}; end endcase end endmodule module gold( output reg [`LEFT:`RIGHT] out_u, out_s, input wire data, input wire [1:0] sel1, sel2 ); task set; input integer a, b; localparam LOW = `LEFT > `RIGHT ? `RIGHT : `LEFT; localparam HIGH = `LEFT > `RIGHT ? `LEFT : `RIGHT; if (LOW <= a && a <= HIGH) out_u[a] = data; if (LOW <= b && b <= HIGH) out_s[b] = data; endtask always @* begin out_u = 'x; out_s = 'x; case (sel1*sel2) 2'b00: set(0, 0); 2'b01: set(1, 1); 2'b10: set(2, -2); 2'b11: set(3, -1); endcase if (`SPAN >= 2) case (sel1*sel2) 2'b00: set(1, 1); 2'b01: set(2, 2); 2'b10: set(3, -1); 2'b11: set(4, 0); endcase if (`SPAN >= 3) case (sel1*sel2) 2'b00: set(2, 2); 2'b01: set(3, 3); 2'b10: set(4, 0); 2'b11: set(5, 1); endcase if (`SPAN >= 4) case (sel1*sel2) 2'b00: set(3, 3); 2'b01: set(4, 4); 2'b10: set(5, 1); 2'b11: set(6, 2); endcase end endmodule