ro/test/test.cpp

#include <string>
#include "../src/ro.h"
#include  <functional>
#include <iostream>
#include <cstring>


using namespace std;
using namespace ro;

struct Stat{
    int passed;
    int total;
};

static Stat g_stat = {0,0};

#define assert(v,fmt,...) if(!(v)) { \
    throw Error(ro::sfmt("ASSERT ERROR %s:%d: " fmt, __FILE__, __LINE__, ##__VA_ARGS__)); \
}


void test(const char* desc, const std::function<void()>& lambda)
{
    std::cout << "Run test: " << desc << "..........";
    try {
        lambda();
        std::cout << "OK" << std::endl;
        g_stat.passed++;
    }
    catch(ro::Error e)
    {
        std::cout << "FAILED" << std::endl;
        std::cout << e.what() << std::endl;
    }
    g_stat.total++;
}

int main(int argc, char const *argv[])
{
    test("Test Option", [](){
        Option<string> opt;
        assert(opt.is_none(), "Option is not empty");
        assert(! opt.is_some(), "Option has some value");
        string text = "This is some data";
        opt = text;
        assert(opt.is_some(), "Option shall has some value");
        assert(opt.unwrap() == text,"Value mistmatch");
    });

    test("Option -> Result convert", [](){
        Option<string> opt;
        Result<string, Error> ret  = opt.ok_or(ERR("Option is null"));
        assert(ret.is_err(), "Object should containe error object");
        string err = ret.err().unwrap().what();
        assert( err.find("Option is null") != string::npos, "Error message mistmatch");

        opt = "abc";
        ret  = opt.ok_or(ERR("Option is null"));
        assert(ret.is_ok(), "Object should contain data");
        assert(ret.unwrap() == "abc", "Data mistmatch"); 
    });

    test("OPtion get_or_insert", [](){
        auto x = None(int);
        int y = x.get_or_insert(5);
        assert(y == 5, "Unexpected value");

        assert(x == 5, "Unexpected value");
    });

    test("Option map", [](){
        auto fn = [](int x){
            return "Hello";
        };

        Option<int> opt;
        Option<string> opt1 = opt.map<string>(fn);
        assert(opt.is_none() == opt1.is_none(), "Nothing shall be changed");

        opt = 2;
        opt1 = opt.map<string>(fn);
        assert(opt1.unwrap() == "Hello", "Value mismatch");
    });


    test("Option map_or", [](){
        auto fn = [](int x){
            return ++x;
        };

        Option<int> opt;
        int v = opt.map_or<int>(0, fn);
        assert(v == 0, "Value mismatch");

        opt = 2;
        v = opt.map_or<int>(0, fn);
        assert(v == 3, "Value mismatch %d",v);
    });

    test("Option filter", [](){
        auto fn = [](int n) {
            return n % 2 == 0;
        };
        //Option<int> opt = None(int).filter(fn);
        assert(None(int).filter(fn).is_none(), "Filter value shall be None");
        assert(Some(3).filter(fn).is_none(), "Filter value shall be None");
        assert(Some(4).filter(fn).is_some(), "Filter value shall not be None");
    });

    test("Option OR", [](){
        auto x = Some(2);
        auto y = None(int);
        assert((x | y) == Some(2), "Unexpected value");

        x = None(int);
        y = Some(100);
        assert((x | y) == Some(100), "Unexpected value");

        x = Some(2);
        y = Some(100);
        assert((x|y) == Some(2), "Unexpected value");

        x = None(int);
        y = None(int);
        assert((x | y) == None(int), "Unexpected value");
    });

    test("Option AND", [](){
        auto x = Some(2);
        auto y = None(int);
        assert((x & y) == None(int), "Unexpected value");

        x = None(int);
        y = Some(100);
        assert((x & y) == None(int), "Unexpected value");

        x = Some(2);
        y = Some(100);
        assert((x&y) == Some(100), "Unexpected value");

        x = None(int);
        y = None(int);
        assert((x & y) == None(int), "Unexpected value");
    });

    test("Option XOR", [](){
        auto x = Some(2);
        auto y = None(int);
        assert((x ^ y) == Some(2), "Unexpected value");

        x = None(int);
        y = Some(100);
        assert((x ^ y) == Some(100), "Unexpected value");

        x = Some(2);
        y = Some(100);
        assert((x^y) == None(int), "Unexpected value");

        x = None(int);
        y = None(int);
        assert((x ^ y) == None(int), "Unexpected value");
    });

    test("Option or_else", [](){
        auto nobody = [](){return None(int);};
        auto vikings = [](){return Some(100);};

        assert(None(int).or_else(vikings) == Some(100), "Unexpected value");
        assert(None(int).or_else(nobody) == None(int), "Unexpected value");
        
        assert(Some(2).or_else(vikings) == Some(2), "Unexpected value");
    });

    test("Option and_then", [](){
        auto fn = [](int x){return string("Hello");};

        assert(Some(1).and_then<string>(fn) == Some(string("Hello")), "Unexpected value");
        assert(None(int).and_then<string>(fn) == None(string), "Unexpected value");
    });

    test("Option take", [](){
        auto x = Some(2);
        auto y = x.take();

        assert(x == None(int), "Unexpected value");
        assert(y == Some(2), "Unexpected value");
        
        auto z = None(int);
        y = z.take();
        assert(x == None(int), "Unexpected value");
        assert(y == None(int), "Unexpected value");
    });

    test("Option take_if", [](){
        auto fn = [](int n) {
            return n % 2 == 0;
        };
        auto x = Some(2);
        auto y = x.take_if(fn);

        assert(x == None(int), "Unexpected value");
        assert(y == Some(2), "Unexpected value");
        
        auto z = Some(3);
        y = z.take_if(fn);
        assert(z == Some(3), "Unexpected value");
        assert(y == None(int), "Unexpected value");
    });

    test("Option unwrap_or", [](){
        assert(Some(2).unwrap_or(4) == 2, "Unexpected value");
        assert(None(int).unwrap_or(4) == 4, "Unexpected value");

        assert(None(Error).unwrap_or(Error("Hello")) == Error("Hello"), "Unexpected value");
        
    });
    test("Option unwrap_or_else", [](){
        assert(Some(2).unwrap_or_else([](){ return 4; }) == 2, "Unexpected value");
        assert(None(int).unwrap_or_else([](){ return 4; }) == 4, "Unexpected value");
        
    });

    test("Option zip", [](){
        auto x = Some(2);
        auto y = Some(string("Hello"));
        auto z = None(int);

        assert(x.zip(y).unwrap() == std::tuple(2, string("Hello")), "Unexpected value");

        assert(x.zip(z).is_none(), "Unexpected value");
        
    });

    test("Test Result", []{
        Result<string, Error> ret = ERR("Error");
        assert(ret.is_err(), "Object should containe error object");
        ret = string("Hello");
        assert(ret.is_ok(), "Object should contain data");
        assert(ret.unwrap() == "Hello", "Data mistmatch"); 
    });

    test("Result->option convert",[](){
        Result<string, Error> ret = ERR("Error");
        Option<string> opt_v = ret.ok();
        assert(opt_v.is_none(), "Value shall not be present");
        Option<Error> opt_err = ret.err();
        assert(opt_err.is_some(), "Erreur shall not be none");

        ret = string("Hello");
        opt_v = ret.ok();
        assert(opt_v.is_some(), "Value shall be present");
        opt_err = ret.err();
        assert(opt_err.is_none(), "Erreur shall be none");
    });

    test("Result expect", [](){
        try{
            Result<string, Error> ret = ERR("Error");
            auto s = ret.expect(ERR("Expect message"));
            assert(false, "Should not happend");
        }
        catch(Error e)
        {
            assert(true, "%s", e.what());
        }
    });

    test("Result map", [](){
        auto err = ERR("Error");
        auto fn = [](string data){
            return 1;
        };
        Result<string, Error> ret = err;
        Result<int, Error> ret1 = ret.map<int>(fn);
        assert(ret1.is_err(), "mapped result shall be an error");
        assert(ret1.err() == ret.err(), "Error object mistmatch");

        ret = string("Hello");
        ret1 = ret.map<int>(fn);
        assert(ret1.is_ok(), "mapped result shall not be an error");
        assert(ret1.unwrap() == 1, "Value mistmatch");
    });


    test("Result map_err", [](){
        auto fn = [](int x){
            return "Hello";
        };
        Result<bool, int> ret = true;
        Result<bool, string> ret1 = ret.map_err<string>(fn);
        assert(ret1.unwrap() == true, "Value mistmatch");

        ret = 10;
        ret1 = ret.map_err<string>(fn);
        assert(ret1.err().unwrap() == "Hello", "Value mistmatch");
    });

     test("Result map_or", [](){
        auto fn = [](int x){
            return ++x;
        };

        Result<int, Error> ret = ERR("Error");
        int v = ret.map_or<int>(0, fn);
        assert(v == 0, "Value mismatch");

        ret = 2;
        v = ret.map_or<int>(0, fn);
        assert(v == 3, "Value mismatch %d",v);
    });

    test("Result AND", [](){
        Result<int, Error> x = 2;
        Result<int, Error> y = Error("Hello");
        assert((x&y) == Error("Hello"), "Value mismatch");

        x = Error("Error1");
        y = 10;
        assert((x&y) == Error("Error1"), "Value mismatch");

        x = Error("Error1");
        y = Error("Error2");
        assert((x&y) == Error("Error1"), "Value mismatch");

        x = 1;
        y = 10;
        assert((x&y) == 10, "Value mismatch");
    });

    test("Result OR", [](){
        Result<int, Error> x = 2;
        Result<int, Error> y = Error("Hello");
        assert((x|y) == 2, "Value mismatch");

        x = Error("Error1");
        y = 10;
        assert((x|y) == 10, "Value mismatch");

        x = Error("Error1");
        y = Error("Error2");
        assert((x|y) == Error("Error2"), "Value mismatch");

        x = 1;
        y = 10;
        assert((x|y) == 1, "Value mismatch");
    });

    test("Result and_then", [](){
        auto fn = [](int x){return string("Hello");};

         Result<int, Error> x = 2;
         auto test = Result<string,Error>(string("Hello"));
        assert(x.and_then<string>(fn) == string("Hello"), "Unexpected value");
        x = Error("Error");
        assert(x.and_then<string>(fn) == Error("Error"), "Unexpected value");
    });

    test("Result or_else", [](){
        auto sq = [](int x){return x*x;};
        auto err = [](int x){return x;};
        Result<double, int> x(2.0);
        auto ret = x.or_else<int>(sq).or_else<int>(sq);
        assert(ret == 2.0, "Unexpected value");
        ret = x.or_else<int>(err).or_else<int>(sq);
        assert(ret == 2.0, "Unexpected value");

        x = 3;
        ret = x.or_else<int>(sq).or_else<int>(err);
        assert(ret == 9, "Unexpected value");

        ret = x.or_else<int>(err).or_else<int>(err);
        assert(ret == 3, "Unexpected value");
    });

    test("Result unwrap_err", [](){
        Result<int, Error> x = Error("Hello");
        assert(x.unwrap_err() == Error("Hello"), "Unexpected value");
    });

    test("Result unwrap_or", [](){
        Result<int, Error> x = 2;
        assert(x.unwrap_or(10) == 2, "Unexpected value");

        x = ERR("Error");
        assert(x.unwrap_or(10) == 10, "Unexpected value");
    });

    test("Result unwrap_or_else", [](){
        auto fn = [](const Error& x){return strlen(x.what());};
        Result<int, Error> x = 2;
        assert(x.unwrap_or_else(fn) == 2, "Unexpected value");

        x = Error("HELLO");
        assert(x.unwrap_or_else(fn) == 5, "Unexpected value");
    });


    cout << "REPORT: " << g_stat.passed << " tests passed / " << g_stat.total << " tests." << endl;
}