5 changed files with 15 additions and 254 deletions
--- a/flake.nix
+++ b/flake.nix
@ -11,8 +11,7 @@
          verilator = import ./verilator.nix pkgs ;
-          vflags = ''-Wpedantic -Wwarn-lint -Wwarn-style -CFLAGS "-Wpedantic -std=c++20"'';
+          vflags = "-Wpedantic -Wwarn-lint -Wwarn-style";
          verilate-src = cmd: ''
            cp -r ${./verilog-src} ./verilog-src
            cp -r ${./simulation} ./simulation
@ -26,7 +25,7 @@
          '';
          alu-sim = pkgs.runCommandCC "alu-sim" {} ''
-            ${verilate-src "--cc --build --exe ./simulation/tester.cpp ./simulation/test_alu.cpp"}
+            ${verilate-src "--cc --build --exe ./simulation/test_alu.cpp"}
            mv obj_dir "$out"
            mkdir "$out/bin" && cp "$out/Valu" "$out/bin/alu-sim"
          '';
--- a/simulation/test_alu.cpp
+++ b/simulation/test_alu.cpp
@ -1,96 +1,18 @@
 #include "Valu.h"
 #include "verilated.h"
-#include "tester.hpp"
+#include <iostream>
 int main(int argc, char **argv) {
    VerilatedContext *vctx = new VerilatedContext;
    Valu *valu = new Valu(vctx);
    valu->A = 0x2137;
    valu->B = 0x1234;
-    Tester alu_t("alu");
+    valu->op = 0b000;
-    {
+    valu->eval();
-        Tester add_t(&alu_t, "add");
+    printf("A = %04x + B = %04x = O = %04x\n", valu->A, valu->B, valu->O);
-
+    valu->op = 0b001;
-        {
+    valu->eval();
-            Tester add_case(&add_t, "0x2137+0x1234");
+    printf("A = %04x - B = %04x = O = %04x\n", valu->A, valu->B, valu->O);
            valu->op = 0b000;
            valu->A = 0x2137;
            valu->B = 0x1234;
            valu->eval();
            add_case.assert_eq("O == 0x336b", valu->O, 0x336b);
            add_case.assert_eq("no overflow", valu->Fflow, 0x0);
            add_case.assert_eq("no Fzero", valu->Fzero, 0x0);
        }
        {
            Tester add_case(&add_t, "0x9+0x10");
            valu->op = 0b000;
            valu->A = 0x9;
            valu->B = 0x10;
            valu->eval();
            add_case.assert_eq("O == 0x19", valu->O, 0x19);
            add_case.assert_eq("no overflow", valu->Fflow, 0x0);
            add_case.assert_eq("no Fzero", valu->Fzero, 0x0);
        }
        {
            Tester add_case(&add_t, "0xffffffff+0x1");
            valu->op = 0b000;
            valu->A = 0xffffffff;
            valu->B = 0x1;
            valu->eval();
            add_case.assert_eq("O == 0x0", valu->O, 0x0);
            add_case.assert_eq("has overflow", valu->Fflow, 0x1);
            add_case.assert_eq("has Fzero", valu->Fzero, 0x1);
        }
    }
    {
        Tester sub_t(&alu_t, "sub");
        {
            Tester sub_case(&sub_t, "0x2137-0x0420");
            valu->op = 0b001;
            valu->A = 0x2137;
            valu->B = 0x0420;
            valu->eval();
            sub_case.assert_eq("O == 0x1d17", valu->O, 0x1d17);
            sub_case.assert_eq("no underflow", valu->Fflow, 0x0);
            sub_case.assert_eq("no Fzero", valu->Fzero, 0x0);
        }
        {
            Tester sub_case(&sub_t, "0x100-0x200");
            valu->op = 0b001;
            valu->A = 0x100;
            valu->B = 0x200;
            valu->eval();
            sub_case.assert_eq("O == 0xffffff00", valu->O, 0xffffff00);
            sub_case.assert_eq("has underflow", valu->Fflow, 0x1);
            sub_case.assert_eq("no Fzero", valu->Fzero, 0x0);
        }
        {
            Tester sub_case(&sub_t, "0x0-0x1");
            valu->op = 0b001;
            valu->A = 0x0;
            valu->B = 0x1;
            valu->eval();
            sub_case.assert_eq("O == 0xffffffff", valu->O, 0xffffffff);
            sub_case.assert_eq("has underflow", valu->Fflow, 0x1);
            sub_case.assert_eq("no Fzero", valu->Fzero, 0x0);
        }
        {
            Tester sub_case(&sub_t, "0x20-0x20");
            valu->op = 0b001;
            valu->A = 0x20;
            valu->B = 0x20;
            valu->eval();
            sub_case.assert_eq("O == 0x0", valu->O, 0x0);
            sub_case.assert_eq("no underflow", valu->Fflow, 0x0);
            sub_case.assert_eq("has Fzero", valu->Fzero, 0x1);
        }
    }
 }
--- a/simulation/tester.cpp
+++ b/simulation/tester.cpp
@ -1,120 +0,0 @@
 #include <iostream>
 #include <optional>
 #include "tester.hpp"
 const std::string ANSI_RESET = "\033[0m";
 const std::string ANSI_DARK = "\033[38;5;8m";
 const std::string ANSI_BLUE = "\033[38;5;6m";
 const std::string ANSI_GREEN = "\033[38;5;2m";
 const std::string ANSI_RED = "\033[38;5;1m";
 const std::string ANSI_YELLOW = "\033[38;5;11m";
 int Tester::depth() {
    int depth = 0;
    for (std::optional<Tester*> at = this; at.has_value(); at = (*at)->parent) {
        depth++;
    }
    return depth;
 }
 std::string Tester::full_name() {
    std::string full_name(name);
    std::optional<Tester*> at = parent;
    while (at.has_value()) {
        full_name.insert(0, " ");
        full_name.insert(0, (*at)->name);
        at = (*at)->parent;
    }
    return full_name;
 }
 std::string Tester::prefix() {
    std::string line = full_name();
    line.insert(0, "[ ");
    line.append(" ]");
    int wanted_len = 10 * depth();
    if (line.length() == wanted_len) {
        line.insert(0, ANSI_BLUE);
        line.append(ANSI_RESET);
        line.append(" ");
        return line;
    } else if (line.length() > wanted_len) {
        line.append("\n");
        line.append(ANSI_DARK);
        for (int i = 0; i < wanted_len; i++)
            line.append("—");
        line.insert(0, ANSI_BLUE);
        line.append(ANSI_RESET);
        line.append(" ");
        return line;
    } else {
        int extra = wanted_len - line.length();
        line.append(" ");
        line.append(ANSI_DARK);
        for (int i = 1; i < extra; i++)
            line.append("—");
        line.insert(0, ANSI_BLUE);
        line.append(ANSI_RESET);
        line.append(" ");
        return line;
    }
 }
 void Tester::intro() {
    std::cout << prefix() << "=== " << ANSI_YELLOW << "start" << ANSI_RESET << std::endl;
 }
 Tester::Tester(std::string test_name) :
    parent(),
    name(test_name),
    succeeded(0), failed(0)
 {
    intro();
 }
 Tester::Tester(Tester* tester_parent, std::string test_name) :
    parent(tester_parent),
    name(test_name),
    succeeded(0), failed(0)
 {
    intro();
 }
 void Tester::assert_eq_str(std::string test_name, bool correct, std::string got_s, std::string expected_s) {
    std::cout << prefix() << "- " << test_name;
    if (correct) {
        std::cout << " " << ANSI_GREEN << "succeded" << ANSI_RESET << std::endl;
        for (std::optional<Tester*> at = this; at.has_value(); at = (*at)->parent) {
            (*at)->succeeded++;
        }
    } else {
        std::cout << " " << ANSI_RED << "failed - got " << got_s << ", expected " << expected_s << ANSI_RESET << std::endl;
        for (std::optional<Tester*> at = this; at.has_value(); at = (*at)->parent) {
            (*at)->failed++;
        }
    }
 }
 Tester::~Tester() {
    finish();
 }
 void Tester::finish() {
    char n_cases_s[10], n_succeeded_s[10], n_failed_s[10];
    snprintf(n_cases_s, sizeof n_cases_s, "%d", succeeded + failed);
    snprintf(n_succeeded_s, sizeof n_succeeded_s, "%d", succeeded);
    snprintf(n_failed_s, sizeof n_failed_s, "%d", failed);
    if (failed == 0) {
        // printf("[ %s ] - %sall succeeded%s, out of %d total\n", name.c_str(), ANSI_GREEN.c_str(), ANSI_RESET.c_str(), succeeded + failed);
        std::cout << prefix() << "=== " << ANSI_GREEN << "all succeeded" << ANSI_RESET << ", out of " << n_cases_s << " total" << std::endl;
    } else {
        std::cout << prefix() << "=== " << ANSI_RED << n_failed_s << " failed" << ANSI_RESET << ", " << ANSI_GREEN << n_succeeded_s << " succeeded" << ANSI_RESET << " out of " << n_cases_s << " total" << std::endl;
        // printf("[ %s ] - %s%d failed, %d succeeded%s, out of %d total\n", name.c_str(), ANSI_RED.c_str(), failed, succeeded, ANSI_RESET.c_str(), succeeded + failed);
    }
 }
--- a/simulation/tester.hpp
+++ b/simulation/tester.hpp
@ -1,37 +0,0 @@
 #ifndef tester_hpp_INCLUDED
 #define tester_hpp_INCLUDED
 class Tester {
    public:
        Tester(std::string test_name);
        Tester(Tester* tester_parent, std::string test_name);
        template<typename T, typename U>
        void assert_eq(std::string test_name, T got, U expected) {
            char got_s[10], expected_s[10];
            snprintf(got_s, sizeof got_s, "%08x", got);
            snprintf(expected_s, sizeof expected_s, "%08x", expected);
            assert_eq_str(test_name, got == expected, got_s, expected_s);
        }
        void assert_eq_str(std::string test_name, bool correct, std::string got_s, std::string expected_s);
        ~Tester();
        void intro();
        void finish();
    private:
        std::optional<Tester*> parent;
        std::string name;
        int succeeded, failed;
        int depth();
        std::string full_name();
        std::string prefix();
 };
 #endif // tester_hpp_INCLUDED
--- a/verilog-src/alu.v
+++ b/verilog-src/alu.v
@ -15,17 +15,14 @@ module alu(
  input [31:0] B,
  input [2:0] op,
  output [31:0] O,
-  output Fflow,
+  output Cout,
  output Fzero
 );
 wire subtraction = op == 3'b001;
 wire [31:0] adder_B = subtraction ? ~B : B;
 wire adder_cout;
-carry_select_adder a(A, adder_B, subtraction, O, adder_cout);
+carry_select_adder a(A, adder_B, subtraction, O, Cout);
-
+assign Fzero = & O;
 assign Fflow = subtraction ? ~adder_cout : adder_cout;
 assign Fzero = ~ (| O);
 endmodule