// DESCRIPTION: Verilator: Verilog Test module // // This file ONLY is placed under the Creative Commons Public Domain, for // any use, without warranty, 2025 by PlanV GmbH. // SPDX-License-Identifier: CC0-1.0 // verilog_format: off `define stop $stop; `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 class std_randomize_class; rand bit [7:0] addr; rand bit [31:0] data; rand bit [63:0] data_x_4; bit [7:0] old_addr; bit [31:0] old_data; bit [63:0] old_data_x_4; function bit std_randomize(); int success; bit valid; old_addr = addr; old_data = data; old_data_x_4 = data_x_4; success = std::randomize(addr, data); valid = (success == 1) && !(addr == old_addr || data == old_data) && data_x_4 == old_data_x_4; return valid; endfunction endclass module t_scope_std_randomize; bit [7:0] addr; bit [15:0] data; int limit[10]; bit [6:0] limit_7bits[10]; bit [14:0] limit_15bits[10]; bit [30:0] limit_31bits[10]; bit [62:0] limit_63bits[10]; bit [94:0] limit_95bits[10]; function bit run(); int ready; int success; bit [7:0] old_addr; bit [15:0] old_data; int old_ready; old_addr = addr; old_data = data; old_ready = ready; success = randomize(addr, ready); // std::randomize if (success == 0) return 0; if (addr == old_addr && data != old_data && ready == old_ready) begin return 0; end return 1; endfunction std_randomize_class test; initial begin // Test class member randomization test = new(); test.old_addr = test.addr; test.old_data = test.data; test.old_data_x_4 = test.data_x_4; `checkd(std::randomize(test.addr, test.data), 1); if (test.addr == test.old_addr && test.data == test.old_data) $stop; `checkd(test.data_x_4, test.old_data_x_4); // Test function-based randomization `checkd(run(), 1); `checkd(test.std_randomize(), 1); // Test array randomization with constraints `checkd(std::randomize(limit) with { foreach (limit[i]) { limit[i] < 32'd100;}}, 1); foreach (limit[i]) if (limit[i] >= 32'd100) $stop; `checkd(std::randomize(limit_7bits) with { foreach (limit_7bits[i]) { limit_7bits[i] < 7'd10;}}, 1); foreach (limit_7bits[i]) if (limit_7bits[i] >= 7'd10) $stop; `checkd(std::randomize(limit_15bits) with { foreach (limit_15bits[i]) { limit_15bits[i] < 15'd1000;}}, 1); foreach (limit_15bits[i]) if (limit_15bits[i] >= 15'd1000) $stop; `checkd(std::randomize(limit_31bits) with { foreach (limit_31bits[i]) { limit_31bits[i] < 31'd100000;}}, 1); foreach (limit_31bits[i]) if (limit_31bits[i] >= 31'd100000) $stop; `checkd(std::randomize(limit_63bits) with { foreach (limit_63bits[i]) { limit_63bits[i] < 63'd10000000000;}}, 1); foreach (limit_63bits[i]) if (limit_63bits[i] >= 63'd10000000000) $stop; `checkd(std::randomize(limit_95bits) with { foreach (limit_95bits[i]) { limit_95bits[i] < 95'd1000000000000;}}, 1); foreach (limit_95bits[i]) if (limit_95bits[i] >= 95'd1000000000000) $stop; foreach (limit_63bits[i]) begin `checkd(std::randomize(limit_63bits[i]) with { limit_63bits[i] >= 63'd50; limit_63bits[i] < 63'd100;}, 1); if ((limit_63bits[i] < 63'd50) || (limit_63bits[i] >= 63'd100)) `stop; end foreach (limit_95bits[i]) begin `checkd(std::randomize(limit_95bits[i]) with { limit_95bits[i] >= 95'd50; limit_95bits[i] < 95'd1000;}, 1); if (limit_95bits[i] < 95'd50 || limit_95bits[i] >= 95'd1000) $stop; end // Test mixed argument types (VarRef + MemberSel + ArraySel) with interdependent constraints `checkd(std::randomize(addr, test.addr, limit_31bits[0]) with { addr > 8'd10; addr < 8'd50; test.addr > addr; test.addr < 8'd100; limit_31bits[0] > 31'(test.addr); limit_31bits[0] < 31'd200; }, 1); if (addr <= 8'd10 || addr >= 8'd50) `stop; if (test.addr <= addr || test.addr >= 8'd100) `stop; if (limit_31bits[0] <= 31'(test.addr) || limit_31bits[0] >= 31'd200) `stop; $write("*-* All Finished *-*\n"); $finish; end endmodule