module task_func_test01(clk, a, b, c, x, y, z, w); input clk; input [7:0] a, b, c; output reg [7:0] x, y, z, w; function [7:0] sum_shift; input [3:0] s1, s2, s3; sum_shift = s1 + (s2 << 2) + (s3 << 4); endfunction task reset_w; w = 0; endtask task add_to; output [7:0] out; input [7:0] in; out = out + in; endtask always @(posedge clk) begin x = sum_shift(a, b, c); y = sum_shift(a[7:4], b[5:2], c[3:0]); z = sum_shift(a[0], b[5:4], c >> 5) ^ sum_shift(1, 2, 3); reset_w; add_to(w, x); add_to(w, y); add_to(w, z); end endmodule // ------------------------------------------------------------------- module task_func_test02(clk, a, b, c, x, y, z, w); input clk; input [7:0] a, b, c; output reg [7:0] x, y, z, w; function [7:0] sum_shift(input [3:0] s1, s2, s3); sum_shift = s1 + (s2 << 2) + (s3 << 4); endfunction task reset_w; w = 0; endtask task add_to(output [7:0] out, input [7:0] in); out = out + in; endtask always @(posedge clk) begin x = sum_shift(a, b, c); y = sum_shift(a[7:4], b[5:2], c[3:0]); z = sum_shift(a[0], b[5:4], c >> 5) ^ sum_shift(1, 2, 3); reset_w; add_to(w, x); add_to(w, y); add_to(w, z); end endmodule // ------------------------------------------------------------------- module task_func_test03(input [7:0] din_a, input [7:0] din_b, output [7:0] dout_a); assign dout_a = test(din_a,din_b); function [7:0] test; input [7:0] a; input [7:0] b; begin : TEST integer i; for (i = 0; i <= 7; i = i + 1) test[i] = a[i] & b[i]; end endfunction endmodule // ------------------------------------------------------------------- module task_func_test04(input [7:0] in, output [7:0] out1, out2, out3); parameter p = 23; function [7:0] test1; input [7:0] i; parameter p = 42; begin test1 = i + p; end endfunction function [7:0] test2; input [7:0] i; parameter p2 = p+42; begin test2 = i + p2; end endfunction function [7:0] test3; input [7:0] i; begin test3 = i + p; end endfunction assign out1 = test1(in); assign out2 = test2(in); assign out3 = test3(in); endmodule