/* Copyright 2016-2021 Michele Santullo
* This file is part of "duckhandy".
*
* "duckhandy" is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* "duckhandy" is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with "duckhandy". If not, see .
*/
#include "catch2/catch.hpp"
#include "duckhandy/int_conv.hpp"
#include "duckhandy/string_bt.hpp"
#include "sprout/cstring/strlen.hpp"
#include "sprout/preprocessor/comma.hpp"
#include
#include
#include
#include
template using int_info_10 = dhandy::implem::int_info;
template using int_info_16 = dhandy::implem::int_info;
template using int_info_2 = dhandy::implem::int_info;
namespace {
template
struct ASCIITranslatorIns : public dhandy::ASCIITranslator {
static const constexpr char AltLetter = 'A';
static constexpr int from_digit (char dig) {
if (dig >= FirstLetter and dig <= FirstLetter + Base - 10 - 1)
return dig - FirstLetter + 10;
else
return dig - AltLetter + 10;
}
};
template
void AryConversionTestHelper (const std::string_view& s, T expected, bool expect_sse) {
using AryConversion = dhandy::implem::AryConversion, false>;
CHECK(AryConversion::is_sse == expect_sse);
CHECK(AryConversion::from_ary(s.data(), s.data() + s.size()) == expected);
}
template
void AryConversionTestHelperUp (const std::string_view& s, T expected, bool expect_sse) {
using AryConversion = dhandy::implem::AryConversion, false>;
CHECK(AryConversion::is_sse == expect_sse);
CHECK(AryConversion::from_ary(s.data(), s.data() + s.size()) == expected);
}
template
void AryConversionTestHelperIns (const std::string_view& s, T expected, bool expect_sse) {
using AryConversion = dhandy::implem::AryConversion, false>;
CHECK(AryConversion::is_sse == expect_sse);
CHECK(AryConversion::from_ary(s.data(), s.data() + s.size()) == expected);
}
} //unnamed namespace
TEST_CASE ("Check int to char array conversions", "[i2s][int_conv]") {
using dhandy::int_to_ary;
using dhandy::bt::string;
using dhandy::bt::make_string;
using sprout::strlen;
CHECK(int_info_10::max_len == 3);
CHECK(int_info_10::max_len == 5);
CHECK(int_info_10::max_len == 10);
CHECK(int_info_10::max_len == 4);
CHECK(int_info_10::max_len == 6);
CHECK(int_info_10::max_len == 11);
CHECK(int_info_16::max_len == 2);
CHECK(int_info_16::max_len == 4);
CHECK(int_info_16::max_len == 8);
CHECK(int_info_16::max_len == 2);
CHECK(int_info_16::max_len == 4);
CHECK(int_info_16::max_len == 8);
CHECK(int_info_2::max_len == 8);
CHECK(int_info_2::max_len == 16);
CHECK(int_info_2::max_len == 32);
CHECK(int_info_2::max_len == 8);
CHECK(int_info_2::max_len == 16);
CHECK(int_info_2::max_len == 32);
static_assert(int_to_ary(5)[0] == '5', "Algorithm error");
static_assert(string(int_to_ary(10).data()) == make_string("10"), "Algorithm error");
static_assert(string(int_to_ary(101).data()) == make_string("101"), "Algorithm error");
static_assert(string(0xAB12).data()) + 1>(int_to_ary(0xAB12).data()) == make_string("43794"), "Algorithm error");
static_assert(int_info_10::is_signed == true, "Wrong sign detection");
static_assert(string(0xAB12).data()) + 1>(int_to_ary(0xAB12).data()) == make_string("-21742"), "Algorithm error");
CHECK(int_to_ary(0x123456789A) == "78187493530");
CHECK(int_to_ary(-1) == "-1");
CHECK(int_to_ary(0x1000000000000000) == "1152921504606846976");
CHECK(int_to_ary(0xF000000000000000) == "-1152921504606846976");
CHECK(int_to_ary>(255) == "FF");
CHECK(int_to_ary(0xFFFF) == "ffff");
CHECK(int_to_ary(0xCACA) == "caca");
CHECK(int_to_ary(0x10) == "10");
CHECK(int_to_ary(0x10) == "10");
CHECK(int_to_ary(0xF000) == "f000");
CHECK(int_to_ary(0xFEFE) == "fefe");
CHECK(int_to_ary(0xFEFE) == "fefe");
CHECK(int_to_ary(0423) == "423");
CHECK(int_to_ary(0777) == "777");
CHECK(int_to_ary(0) == "0");
CHECK(int_to_ary(0) == "0");
CHECK(int_to_ary(0) == "0");
CHECK(int_to_ary(0) == "0");
CHECK(int_to_ary(0) == "0");
CHECK(int_to_ary(0) == "0");
CHECK(int_to_ary(0) == "0");
CHECK(int_to_ary(0) == "0");
CHECK(int_to_ary(false) == "0");
CHECK(int_to_ary(true) == "1");
CHECK(int_to_ary(false) == "0");
CHECK(int_to_ary(true) == "1");
CHECK(int_to_ary(0b10101010) == "10101010");
CHECK(int_to_ary(0b10101010) == "10101010");
CHECK(int_to_ary(0b11111111) == "11111111");
CHECK(int_to_ary(0b11111111) == "11111111");
CHECK(int_to_ary(0b111100001111) == "111100001111");
CHECK(int_to_ary(0b111100001111) == "111100001111");
CHECK(int_to_ary(9223372036854775807) == "1y2p0ij32e8e7");
CHECK(int_to_ary(0x8000000000000001) == "1y2p0ij32e8e9");
#if defined(__GNUC__)
static_assert(std::is_integral<__int128_t>::value, "Warning, int128 won't pickup the optimized base 10 conversion path");
__int128_t num = 10000000000000000000U;
CHECK(int_to_ary<__int128_t SPROUT_PP_COMMA() 10>(num * 100) == "1000000000000000000000");
num = 0xFFFFFFFFFFFFFFFF;
CHECK(int_to_ary<__int128_t SPROUT_PP_COMMA() 16>(num * 0x10000 + 0xffff) == "ffffffffffffffffffff");
#endif
{
//Try a random test, which should not compile as constexpr
std::mt19937 gen;
gen.seed(std::time(nullptr));
for (int z = 0; z < 10; ++z) {
const int num = gen();
CHECK(int_to_ary(num) == std::to_string(num));
}
const int num = gen();
std::string hello = "hello world";
std::string hello1 = hello + " " + int_to_ary(num);
std::string hello2 = hello + " " + std::to_string(num);
CHECK(hello1 == hello2);
}
}
TEST_CASE ("Check char array to int conversions", "[s2i][int_conv]") {
AryConversionTestHelper("0", 0, true);
AryConversionTestHelper("0", 0, true);
AryConversionTestHelper("0", 0, true);
AryConversionTestHelper("ff", 0xff, true);
AryConversionTestHelper("ff", 0xff, true);
AryConversionTestHelper("rs", 1000, true);
AryConversionTestHelper("20", 16, true);
AryConversionTestHelper("1", 1, true);
AryConversionTestHelper("10", 10, true);
AryConversionTestHelper("100", 100, true);
AryConversionTestHelper("999", 999, true);
AryConversionTestHelper("1000", 1000, true);
AryConversionTestHelper("1001", 1001, true);
AryConversionTestHelper("12345", 12345, true);
AryConversionTestHelper("123456", 123456, true);
AryConversionTestHelper("1234567", 1234567, true);
AryConversionTestHelper("12345678", 12345678, true);
AryConversionTestHelper("123456789", 123456789, true);
AryConversionTestHelper("2147483647", 2147483647, true);
AryConversionTestHelper("ffffffffffffffff", 0xffffffffffffffff, false);
AryConversionTestHelper("ffffffffffffffff", 0xffffffffffffffff, false);
AryConversionTestHelper("7fffffffffffffff", 0x7fffffffffffffff, false);
AryConversionTestHelper("7fffffff", 0x7fffffff, true);
AryConversionTestHelper("1", true, false);
AryConversionTestHelper("0", false, false);
AryConversionTestHelperUp("ABCDEF123456ABCD", 0xabcdef123456abcd, false);
AryConversionTestHelper("-1", -1, sizeof(signed int) <= sizeof(std::uint32_t));
AryConversionTestHelper("-50000", -50000, sizeof(signed int) <= sizeof(std::uint32_t));
AryConversionTestHelper("-1", -1, false);
AryConversionTestHelper("-510123123123", -510123123123, false);
//case insensitive SSE conversions
AryConversionTestHelperIns("7FfFfFfF", 0x7fffffff, true);
AryConversionTestHelperIns("AbCdEf01", 0xabcdef01, true);
AryConversionTestHelperIns("aBcDeF01", 0xabcdef01, true);
AryConversionTestHelperIns("Ff", 0xff, true);
AryConversionTestHelperIns("AfBe", 0xafbe, true);
AryConversionTestHelperIns("aAb", 0xaab, true);
AryConversionTestHelperIns("aAbBc", 0xaabbc, true);
}
TEST_CASE ("Check string_view conversions work as expected", "[s2i][int_conv]") {
using dhandy::int_conv;
using dhandy::int_conv_raw;
using std::string_view;
using std::integral_constant;
using std::string;
constexpr auto str71 = int_conv(integral_constant{});
CHECK("71" == str71);
{
//test random number to force non-constexpr
std::mt19937 gen;
gen.seed(std::time(nullptr));
const int num = gen();
const string num_str {int_conv_raw(num).to_string_view()};
CHECK(num_str == std::to_string(num));
}
const auto str123 = int_conv(123);
CHECK("123" == str123);
}
TEST_CASE ("Check std::array conversion works as expected", "[i2s][int_conv]") {
using std::array;
using dhandy::int_conv;
auto arr748 = int_conv>(748);
CHECK(arr748[0] == '7');
CHECK(arr748[1] == '4');
CHECK(arr748[2] == '8');
auto arr19000 = int_conv>(19);
CHECK(arr19000[0] == '1');
CHECK(arr19000[1] == '9');
CHECK(arr19000[2] == '\0');
CHECK(arr19000[3] == '\0');
CHECK(arr19000[4] == '\0');
}
TEST_CASE ("Check upcase/downcase int to array conversions", "[i2s][int_conv]") {
using dhandy::int_conv;
using std::string_view;
using std::integral_constant;
constexpr auto bool1 = int_conv(integral_constant{});
CHECK("1" == bool1);
constexpr auto bool2 = int_conv(integral_constant{});
CHECK("0" == bool2);
constexpr auto int1 = int_conv(integral_constant{});
CHECK("42" == int1);
constexpr auto int2 = int_conv(integral_constant{});
CHECK("7777777" == int2);
constexpr auto int3 = int_conv(integral_constant{});
CHECK("-1234" == int3);
constexpr auto int4 = int_conv(integral_constant{});
CHECK("-256" == int4);
}
TEST_CASE ("Try int conv with non-char", "[s2i][int_conv]") {
using dhandy::int_to_ary;
using dhandy::ASCIITranslator;
std::wstring_view exp1(L"235713");
auto val1 = int_to_ary>(235713).to_string_view();
CHECK(exp1 == val1);
}
TEST_CASE ("Check some fancy conversions", "[i2s][int_conv]") {
using dhandy::int_to_ary;
using std::string;
using MyFancyTranslator = dhandy::ASCIITranslator;
string str1 = int_to_ary(3).to_string();
CHECK("3" == str1);
string str2 = int_to_ary(5).to_string();
CHECK("b" == str2);
string str3 = int_to_ary(11).to_string();
CHECK("11" == str3);
string str4 = int_to_ary(537).to_string();
CHECK("b3d" == str4);
}