#include "test_helpers.hpp"
#include <algorithm>
#include <filesystem>
#include <fstream>
#include <iomanip>
#include <iostream>
#include <ss/parser.hpp>
#include <sstream>
#include <unordered_map>
#include <unordered_set>
namespace {
[[maybe_unused]] void replace_all(std::string& s, const std::string& from,
const std::string& to) {
if (from.empty()) return;
size_t start_pos = 0;
while ((start_pos = s.find(from, start_pos)) != std::string::npos) {
s.replace(start_pos, from.length(), to);
start_pos += to.length();
}
}
void update_if_crlf(std::string& s) {
#ifdef _WIN32
replace_all(s, "\r\n", "\n");
#else
(void)(s);
#endif
}
struct X {
constexpr static auto delim = ",";
constexpr static auto make_empty = "_EMPTY_";
int i;
double d;
std::string s;
std::string to_string() const {
if (s == make_empty) {
return "";
}
return std::to_string(i)
.append(delim)
.append(std::to_string(d))
.append(delim)
.append(s);
}
auto tied() const {
return std::tie(i, d, s);
}
};
template <typename T>
std::enable_if_t<ss::has_m_tied_t<T>, bool> operator==(const T& lhs,
const T& rhs) {
return lhs.tied() == rhs.tied();
}
template <typename T>
static void make_and_write(const std::string& file_name,
const std::vector<T>& data,
const std::vector<std::string>& header = {}) {
std::ofstream out{file_name};
#ifdef _WIN32
std::vector<const char*> new_lines = {"\n"};
#else
std::vector<const char*> new_lines = {"\n", "\r\n"};
#endif
for (const auto& i : header) {
if (&i != &header.front()) {
out << T::delim;
}
out << i;
}
if (!header.empty()) {
out << new_lines.front();
}
for (size_t i = 0; i < data.size(); ++i) {
out << data[i].to_string() << new_lines[i % new_lines.size()];
}
}
} /* namespace */
TEST_CASE("parser test various cases") {
unique_file_name f{"test_parser"};
std::vector<X> data = {{1, 2, "x"}, {3, 4, "y"}, {5, 6, "z"},
{7, 8, "u"}, {9, 10, "v"}, {11, 12, "w"}};
make_and_write(f.name, data);
{
ss::parser<ss::string_error> p{f.name, ","};
ss::parser p0{std::move(p)};
p = std::move(p0);
std::vector<X> i;
ss::parser<ss::string_error> p2{f.name, ","};
std::vector<X> i2;
while (!p.eof()) {
auto a = p.get_next<int, double, std::string>();
i.emplace_back(ss::to_object<X>(a));
}
for (const auto& a : p2.iterate<int, double, std::string>()) {
i2.emplace_back(ss::to_object<X>(a));
}
CHECK_EQ(i, data);
CHECK_EQ(i2, data);
}
{
ss::parser p{f.name, ","};
std::vector<X> i;
ss::parser p2{f.name, ","};
std::vector<X> i2;
ss::parser p3{f.name, ","};
std::vector<X> i3;
std::vector<X> expected = {std::begin(data) + 1, std::end(data)};
using tup = std::tuple<int, double, std::string>;
p.ignore_next();
while (!p.eof()) {
auto a = p.get_next<tup>();
i.emplace_back(ss::to_object<X>(a));
}
p2.ignore_next();
for (const auto& a : p2.iterate<tup>()) {
i2.emplace_back(ss::to_object<X>(a));
}
p3.ignore_next();
for (auto it = p3.iterate<tup>().begin(); it != p3.iterate<tup>().end();
++it) {
i3.emplace_back(ss::to_object<X>(*it));
}
CHECK_EQ(i, expected);
CHECK_EQ(i2, expected);
CHECK_EQ(i3, expected);
}
{
ss::parser p{f.name, ","};
std::vector<X> i;
ss::parser p2{f.name, ","};
std::vector<X> i2;
while (!p.eof()) {
i.push_back(p.get_object<X, int, double, std::string>());
}
for (auto&& a : p2.iterate_object<X, int, double, std::string>()) {
i2.push_back(std::move(a));
}
CHECK_EQ(i, data);
CHECK_EQ(i2, data);
}
{
ss::parser p{f.name, ","};
std::vector<X> i;
for (auto&& a : p.iterate_object<X, int, double, std::string>()) {
i.push_back(std::move(a));
}
CHECK_EQ(i, data);
}
{
ss::parser p{f.name, ","};
std::vector<X> i;
ss::parser p2{f.name, ","};
std::vector<X> i2;
using tup = std::tuple<int, double, std::string>;
while (!p.eof()) {
i.push_back(p.get_object<X, tup>());
}
for (auto it = p2.iterate_object<X, tup>().begin();
it != p2.iterate_object<X, tup>().end(); it++) {
i2.push_back({it->i, it->d, it->s});
}
CHECK_EQ(i, data);
CHECK_EQ(i2, data);
}
{
ss::parser p{f.name, ","};
std::vector<X> i;
using tup = std::tuple<int, double, std::string>;
for (auto&& a : p.iterate_object<X, tup>()) {
i.push_back(std::move(a));
}
CHECK_EQ(i, data);
}
{
ss::parser p{f.name, ","};
std::vector<X> i;
while (!p.eof()) {
i.push_back(p.get_next<X>());
}
CHECK_EQ(i, data);
}
{
ss::parser p{f.name, ","};
std::vector<X> i;
for (auto&& a : p.iterate<X>()) {
i.push_back(std::move(a));
}
CHECK_EQ(i, data);
}
{
constexpr int excluded = 3;
ss::parser p{f.name, ","};
std::vector<X> i;
ss::parser p2{f.name, ","};
std::vector<X> i2;
while (!p.eof()) {
auto a =
p.get_object<X, ss::ax<int, excluded>, double, std::string>();
if (p.valid()) {
i.push_back(a);
}
}
for (auto&& a : p2.iterate_object<X, ss::ax<int, excluded>, double,
std::string>()) {
if (p2.valid()) {
i2.push_back(std::move(a));
}
}
std::vector<X> expected;
for (auto& x : data) {
if (x.i != excluded) {
expected.push_back(x);
}
}
std::copy_if(data.begin(), data.end(), expected.begin(),
[&](const X& x) { return x.i != excluded; });
CHECK_EQ(i, expected);
CHECK_EQ(i2, expected);
}
{
ss::parser p{f.name, ","};
std::vector<X> i;
ss::parser p2{f.name, ","};
std::vector<X> i2;
while (!p.eof()) {
auto a = p.get_object<X, ss::nx<int, 3>, double, std::string>();
if (p.valid()) {
i.push_back(a);
}
}
for (auto&& a :
p2.iterate_object<X, ss::nx<int, 3>, double, std::string>()) {
if (p2.valid()) {
i2.push_back(std::move(a));
}
}
std::vector<X> expected = {{3, 4, "y"}};
CHECK_EQ(i, expected);
CHECK_EQ(i2, expected);
}
{
unique_file_name empty_f{"test_parser"};
std::vector<X> empty_data = {};
make_and_write(empty_f.name, empty_data);
ss::parser p{empty_f.name, ","};
std::vector<X> i;
ss::parser p2{empty_f.name, ","};
std::vector<X> i2;
while (!p.eof()) {
i.push_back(p.get_next<X>());
}
for (auto&& a : p2.iterate<X>()) {
i2.push_back(std::move(a));
}
CHECK(i.empty());
CHECK(i2.empty());
}
}
using test_tuple = std::tuple<double, char, double>;
struct test_struct {
int i;
double d;
char c;
auto tied() {
return std::tie(i, d, c);
}
};
static inline void expect_test_struct(const test_struct&) {
}
// various scenarios
TEST_CASE("parser test composite conversion") {
unique_file_name f{"test_parser"};
{
std::ofstream out{f.name};
for (auto& i :
{"10,a,11.1", "10,20,11.1", "junk", "10,11.1", "1,11.1,a", "junk",
"10,junk", "11,junk", "10,11.1,c", "10,20", "10,22.2,f"}) {
out << i << std::endl;
}
}
ss::parser<ss::string_error> p{f.name, ","};
auto fail = [] { FAIL(""); };
auto expect_error = [](auto error) { CHECK(!error.empty()); };
REQUIRE(p.valid());
REQUIRE_FALSE(p.eof());
{
constexpr static auto expectedData = std::tuple{10, 'a', 11.1};
auto [d1, d2, d3, d4] =
p.try_next<int, int, double>(fail)
.or_else<test_struct>(fail)
.or_else<int, char, double>(
[&](auto&& data) { CHECK_EQ(data, expectedData); })
.on_error(fail)
.or_else<test_tuple>(fail)
.values();
REQUIRE(p.valid());
REQUIRE_FALSE(d1);
REQUIRE_FALSE(d2);
REQUIRE(d3);
REQUIRE_FALSE(d4);
CHECK_EQ(*d3, expectedData);
}
{
REQUIRE(!p.eof());
constexpr static auto expectedData = std::tuple{10, 20, 11.1};
auto [d1, d2, d3, d4] =
p.try_next<int, int, double>([&](auto& i1, auto i2, double d) {
CHECK_EQ(std::tie(i1, i2, d), expectedData);
})
.on_error(fail)
.or_object<test_struct, int, double, char>(fail)
.on_error(fail)
.or_else<test_tuple>(fail)
.on_error(fail)
.or_else<int, char, double>(fail)
.values();
REQUIRE(p.valid());
REQUIRE(d1);
REQUIRE_FALSE(d2);
REQUIRE_FALSE(d3);
REQUIRE_FALSE(d4);
CHECK_EQ(*d1, expectedData);
}
{
REQUIRE(!p.eof());
auto [d1, d2, d3, d4, d5] =
p.try_object<test_struct, int, double, char>(fail)
.on_error(expect_error)
.or_else<int, char, char>(fail)
.or_else<test_struct>(fail)
.or_else<test_tuple>(fail)
.or_else<int, char, double>(fail)
.values();
REQUIRE_FALSE(p.valid());
REQUIRE_FALSE(d1);
REQUIRE_FALSE(d2);
REQUIRE_FALSE(d3);
REQUIRE_FALSE(d4);
REQUIRE_FALSE(d5);
}
{
REQUIRE(!p.eof());
auto [d1, d2] =
p.try_next<int, double>([](auto& i, auto& d) {
REQUIRE_EQ(std::tie(i, d), std::tuple{10, 11.1});
})
.or_else<int, double>([](auto&, auto&) { FAIL(""); })
.values();
REQUIRE(p.valid());
REQUIRE(d1);
REQUIRE_FALSE(d2);
}
{
REQUIRE(!p.eof());
auto [d1, d2] = p.try_next<int, double>([](auto&, auto&) { FAIL(""); })
.or_else<test_struct>(expect_test_struct)
.values();
REQUIRE(p.valid());
REQUIRE_FALSE(d1);
REQUIRE(d2);
CHECK_EQ(d2->tied(), std::tuple{1, 11.1, 'a'});
}
{
REQUIRE(!p.eof());
auto [d1, d2, d3, d4, d5] =
p.try_next<int, int, double>(fail)
.or_object<test_struct, int, double, char>()
.or_else<test_struct>(expect_test_struct)
.or_else<test_tuple>(fail)
.or_else<std::tuple<int, double>>(fail)
.on_error(expect_error)
.values();
REQUIRE_FALSE(p.valid());
REQUIRE_FALSE(d1);
REQUIRE_FALSE(d2);
REQUIRE_FALSE(d3);
REQUIRE_FALSE(d4);
REQUIRE_FALSE(d5);
}
{
REQUIRE(!p.eof());
auto [d1, d2] = p.try_next<int, std::optional<int>>()
.on_error(fail)
.or_else<std::tuple<int, std::string>>(fail)
.on_error(fail)
.values();
REQUIRE(p.valid());
REQUIRE(d1);
REQUIRE_FALSE(d2);
CHECK_EQ(*d1, std::tuple{10, std::nullopt});
}
{
REQUIRE_FALSE(p.eof());
auto [d1, d2] = p.try_next<int, std::variant<int, std::string>>()
.on_error(fail)
.or_else<std::tuple<int, std::string>>(fail)
.on_error(fail)
.values();
REQUIRE(p.valid());
REQUIRE(d1);
REQUIRE_FALSE(d2);
CHECK_EQ(*d1, std::tuple{11, std::variant<int, std::string>{"junk"}});
}
{
REQUIRE(!p.eof());
auto [d1, d2] = p.try_object<test_struct, int, double, char>()
.or_else<int>(fail)
.values();
REQUIRE(p.valid());
REQUIRE(d1);
REQUIRE_FALSE(d2);
CHECK_EQ(d1->tied(), std::tuple{10, 11.1, 'c'});
}
{
REQUIRE_FALSE(p.eof());
auto [d1, d2, d3, d4] =
p.try_next<int, int>([] { return false; })
.or_else<int, double>([](auto&) { return false; })
.or_else<int, int>()
.or_else<int, int>(fail)
.values();
REQUIRE(p.valid());
REQUIRE_FALSE(d1);
REQUIRE_FALSE(d2);
REQUIRE(d3);
REQUIRE_FALSE(d4);
CHECK_EQ(d3.value(), std::tuple{10, 20});
}
{
REQUIRE(!p.eof());
auto [d1, d2, d3, d4] =
p.try_object<test_struct, int, double, char>([] { return false; })
.or_else<int, double>([](auto&) { return false; })
.or_object<test_struct, int, double, char>()
.or_else<int, int>(fail)
.values();
REQUIRE(p.valid());
REQUIRE_FALSE(d1);
REQUIRE_FALSE(d2);
REQUIRE(d3);
REQUIRE_FALSE(d4);
CHECK_EQ(d3->tied(), std::tuple{10, 22.2, 'f'});
}
CHECK(p.eof());
}
struct my_string {
char* data{nullptr};
my_string() = default;
~my_string() {
delete[] data;
}
// make sure no object is copied
my_string(const my_string&) = delete;
my_string& operator=(const my_string&) = delete;
my_string(my_string&& other) : data{other.data} {
other.data = nullptr;
}
my_string& operator=(my_string&& other) {
data = other.data;
return *this;
}
};
template <>
inline bool ss::extract(const char* begin, const char* end, my_string& s) {
size_t size = end - begin;
s.data = new char[size + 1];
strncpy(s.data, begin, size);
s.data[size] = '\0';
return true;
}
struct xyz {
my_string x;
my_string y;
my_string z;
auto tied() {
return std::tie(x, y, z);
}
};
TEST_CASE("parser test the moving of parsed composite values") {
// to compile is enough
return;
ss::parser p{"", ""};
p.try_next<my_string, my_string, my_string>()
.or_else<my_string, my_string, my_string, my_string>([](auto&&) {})
.or_else<my_string>([](auto&) {})
.or_else<xyz>([](auto&&) {})
.or_object<xyz, my_string, my_string, my_string>([](auto&&) {})
.or_else<std::tuple<my_string, my_string, my_string>>(
[](auto&, auto&, auto&) {});
}
TEST_CASE("parser test error mode") {
unique_file_name f{"test_parser"};
{
std::ofstream out{f.name};
out << "junk" << std::endl;
out << "junk" << std::endl;
}
ss::parser<ss::string_error> p(f.name, ",");
REQUIRE_FALSE(p.eof());
p.get_next<int>();
CHECK_FALSE(p.valid());
CHECK_FALSE(p.error_msg().empty());
}
static inline std::string no_quote(const std::string& s) {
if (!s.empty() && s[0] == '"') {
return {std::next(begin(s)), std::prev(end(s))};
}
return s;
}
TEST_CASE("parser test csv on multiple lines with quotes") {
unique_file_name f{"test_parser"};
std::vector<X> data = {{1, 2, "\"x\r\nx\nx\""},
{3, 4, "\"y\ny\r\ny\""},
{5, 6, "\"z\nz\""},
{7, 8, "\"u\"\"\""},
{9, 10, "v"},
{11, 12, "\"w\n\""}};
for (auto& [_, __, s] : data) {
update_if_crlf(s);
}
make_and_write(f.name, data);
for (auto& [_, __, s] : data) {
s = no_quote(s);
if (s[0] == 'u') {
s = "u\"";
}
}
ss::parser<ss::multiline, ss::quote<'"'>> p{f.name, ","};
std::vector<X> i;
while (!p.eof()) {
auto a = p.get_next<int, double, std::string>();
i.emplace_back(ss::to_object<X>(a));
}
for (auto& [_, __, s] : i) {
update_if_crlf(s);
}
CHECK_EQ(i, data);
ss::parser<ss::quote<'"'>> p_no_multiline{f.name, ","};
while (!p.eof()) {
auto a = p_no_multiline.get_next<int, double, std::string>();
CHECK(!p.valid());
}
}
static inline std::string no_escape(std::string& s) {
s.erase(std::remove(begin(s), end(s), '\\'), end(s));
return s;
}
TEST_CASE("parser test csv on multiple lines with escapes") {
unique_file_name f{"test_parser"};
std::vector<X> data = {{1, 2, "x\\\nx\\\r\nx"},
{5, 6, "z\\\nz\\\nz"},
{7, 8, "u"},
{3, 4, "y\\\ny\\\ny"},
{9, 10, "v\\\\"},
{11, 12, "w\\\n"}};
for (auto& [_, __, s] : data) {
update_if_crlf(s);
}
make_and_write(f.name, data);
for (auto& [_, __, s] : data) {
s = no_escape(s);
if (s == "v") {
s = "v\\";
}
}
ss::parser<ss::multiline, ss::escape<'\\'>> p{f.name, ","};
std::vector<X> i;
while (!p.eof()) {
auto a = p.get_next<int, double, std::string>();
i.emplace_back(ss::to_object<X>(a));
}
for (auto& [_, __, s] : i) {
update_if_crlf(s);
}
CHECK_EQ(i, data);
ss::parser<ss::escape<'\\'>> p_no_multiline{f.name, ","};
while (!p.eof()) {
auto a = p_no_multiline.get_next<int, double, std::string>();
CHECK_FALSE(p.valid());
}
}
TEST_CASE("parser test csv on multiple lines with quotes and escapes") {
unique_file_name f{"test_parser"};
{
std::ofstream out{f.name};
out << "1,2,\"just\\\n\nstrings\"" << std::endl;
#ifndef _WIN32
out << "3,4,\"just\r\nsome\\\r\n\n\\\nstrings\"" << std::endl;
out << "5,6,\"just\\\n\\\r\n\r\n\nstrings" << std::endl;
#else
out << "3,4,\"just\nsome\\\n\n\\\nstrings\"" << std::endl;
out << "5,6,\"just\\\n\\\n\n\nstrings" << std::endl;
#endif
out << "7,8,\"just strings\"" << std::endl;
out << "9,10,just strings" << std::endl;
}
ss::parser<ss::multiline, ss::escape<'\\'>, ss::quote<'"'>> p{f.name};
std::vector<X> i;
while (!p.eof()) {
auto a = p.get_next<int, double, std::string>();
if (p.valid()) {
i.emplace_back(ss::to_object<X>(a));
}
}
std::vector<X> data = {{1, 2, "just\n\nstrings"},
#ifndef _WIN32
{3, 4, "just\r\nsome\r\n\n\nstrings"},
#else
{3, 4, "just\nsome\n\n\nstrings"},
#endif
{9, 10, "just strings"}};
for (auto& [_, __, s] : i) {
update_if_crlf(s);
}
CHECK_EQ(i, data);
}
TEST_CASE("parser test multiline restricted") {
unique_file_name f{"test_parser"};
{
std::ofstream out{f.name};
out << "1,2,\"just\n\nstrings\"" << std::endl;
#ifndef _WIN32
out << "3,4,\"ju\n\r\n\nnk\"" << std::endl;
out << "5,6,just\\\n\\\r\nstrings" << std::endl;
#else
out << "3,4,\"ju\n\n\nnk\"" << std::endl;
out << "5,6,just\\\n\\\nstrings" << std::endl;
#endif
out << "7,8,ju\\\n\\\n\\\nnk" << std::endl;
out << "9,10,\"just\\\n\nstrings\"" << std::endl;
out << "11,12,\"ju\\\n|\n\n\n\n\nk\"" << std::endl;
out << "13,14,\"ju\\\n\\\n15,16\"\\\n\\\\\n\nnk\"" << std::endl;
out << "17,18,\"ju\\\n\\\n\\\n\\\\\n\nnk\"" << std::endl;
out << "19,20,just strings" << std::endl;
}
ss::parser<ss::multiline_restricted<2>, ss::quote<'"'>, ss::escape<'\\'>>
p{f.name, ","};
std::vector<X> i;
while (!p.eof()) {
auto a = p.get_next<int, double, std::string>();
if (p.valid()) {
i.emplace_back(ss::to_object<X>(a));
}
}
std::vector<X> data = {{1, 2, "just\n\nstrings"},
#ifndef _WIN32
{5, 6, "just\n\r\nstrings"},
#else
{5, 6, "just\n\nstrings"},
#endif
{9, 10, "just\n\nstrings"},
{19, 20, "just strings"}};
for (auto& [_, __, s] : i) {
update_if_crlf(s);
}
CHECK_EQ(i, data);
}
template <typename T, typename Tuple>
struct has_type;
template <typename T, typename... Us>
struct has_type<T, std::tuple<Us...>>
: std::disjunction<std::is_same<T, Us>...> {};
static inline void check_size(size_t size1, size_t size2) {
CHECK_EQ(size1, size2);
}
template <typename... Ts>
static void test_fields(const std::string file_name, const std::vector<X>& data,
const std::vector<std::string>& fields) {
using CaseType = std::tuple<Ts...>;
ss::parser p{file_name, ","};
CHECK_FALSE(p.field_exists("Unknown"));
p.use_fields(fields);
std::vector<CaseType> i;
for (const auto& a : p.iterate<CaseType>()) {
i.push_back(a);
}
check_size(i.size(), data.size());
for (size_t j = 0; j < i.size(); ++j) {
if constexpr (has_type<int, CaseType>::value) {
CHECK_EQ(std::get<int>(i[j]), data[j].i);
}
if constexpr (has_type<double, CaseType>::value) {
CHECK_EQ(std::get<double>(i[j]), data[j].d);
}
if constexpr (has_type<std::string, CaseType>::value) {
CHECK_EQ(std::get<std::string>(i[j]), data[j].s);
}
}
}
TEST_CASE("parser test various cases with header") {
unique_file_name f{"test_parser"};
constexpr static auto Int = "Int";
constexpr static auto Dbl = "Double";
constexpr static auto Str = "String";
using str = std::string;
std::vector<std::string> header{Int, Dbl, Str};
std::vector<X> data = {{1, 2, "x"}, {3, 4, "y"}, {5, 6, "z"},
{7, 8, "u"}, {9, 10, "v"}, {11, 12, "w"}};
make_and_write(f.name, data, header);
const auto& o = f.name;
const auto& d = data;
{
ss::parser<ss::string_error> p{f.name, ","};
std::vector<X> i;
for (const auto& a : p.iterate<int, double, std::string>()) {
i.emplace_back(ss::to_object<X>(a));
}
CHECK_NE(i, data);
}
{
ss::parser<ss::string_error> p{f.name, ","};
std::vector<X> i;
p.ignore_next();
for (const auto& a : p.iterate<int, double, std::string>()) {
i.emplace_back(ss::to_object<X>(a));
}
CHECK_EQ(i, data);
}
{
ss::parser<ss::ignore_header> p{f.name, ","};
std::vector<X> i;
for (const auto& a : p.iterate<int, double, std::string>()) {
i.emplace_back(ss::to_object<X>(a));
}
CHECK_EQ(i, data);
}
{
ss::parser<ss::ignore_header, ss::string_error> p{f.name, ","};
p.use_fields(Int, Dbl, Str);
CHECK_FALSE(p.valid());
}
{
ss::parser<ss::ignore_header, ss::string_error> p{f.name, ","};
CHECK_FALSE(p.field_exists("Unknown"));
p.use_fields(Int, "Unknown");
CHECK_FALSE(p.valid());
}
{
ss::parser<ss::ignore_header, ss::string_error> p{f.name, ","};
p.use_fields(Int, Int);
CHECK_FALSE(p.valid());
}
{
ss::parser<ss::string_error> p{f.name, ","};
p.use_fields(Int, Dbl);
{
auto [int_, double_] = p.get_next<int, double>();
CHECK_EQ(int_, data[0].i);
CHECK_EQ(double_, data[0].d);
}
p.use_fields(Dbl, Int);
{
auto [double_, int_] = p.get_next<double, int>();
CHECK_EQ(int_, data[1].i);
CHECK_EQ(double_, data[1].d);
}
p.use_fields(Str);
{
auto string_ = p.get_next<std::string>();
CHECK_EQ(string_, data[2].s);
}
p.use_fields(Str, Int, Dbl);
{
auto [string_, int_, double_] =
p.get_next<std::string, int, double>();
CHECK_EQ(double_, data[3].d);
CHECK_EQ(int_, data[3].i);
CHECK_EQ(string_, data[3].s);
}
}
/* python used to generate permutations
import itertools
header = {'str': 'Str',
'double': 'Dbl',
'int': 'Int'}
keys = ['str', 'int', 'double']
for r in range (1, 3):
combinations = list(itertools.permutations(keys, r = r))
for combination in combinations:
template_params = []
arg_params = []
for type in combination:
template_params.append(type)
arg_params.append(header[type])
call = 'testFields<' + ', '.join(template_params) + \
'>(o, d, {' + ', '.join(arg_params) + '});'
print(call)
*/
test_fields<str>(o, d, {Str});
test_fields<int>(o, d, {Int});
test_fields<double>(o, d, {Dbl});
test_fields<str, int>(o, d, {Str, Int});
test_fields<str, double>(o, d, {Str, Dbl});
test_fields<int, str>(o, d, {Int, Str});
test_fields<int, double>(o, d, {Int, Dbl});
test_fields<double, str>(o, d, {Dbl, Str});
test_fields<double, int>(o, d, {Dbl, Int});
test_fields<str, int, double>(o, d, {Str, Int, Dbl});
test_fields<str, double, int>(o, d, {Str, Dbl, Int});
test_fields<int, str, double>(o, d, {Int, Str, Dbl});
test_fields<int, double, str>(o, d, {Int, Dbl, Str});
test_fields<double, str, int>(o, d, {Dbl, Str, Int});
test_fields<double, int, str>(o, d, {Dbl, Int, Str});
}
static inline void test_ignore_empty(const std::vector<X>& data) {
unique_file_name f{"test_parser"};
make_and_write(f.name, data);
std::vector<X> expected;
for (const auto& d : data) {
if (d.s != X::make_empty) {
expected.push_back(d);
}
}
{
ss::parser<ss::string_error, ss::ignore_empty> p{f.name, ","};
std::vector<X> i;
for (const auto& a : p.iterate<X>()) {
i.push_back(a);
}
CHECK_EQ(i, expected);
}
{
ss::parser<ss::string_error> p{f.name, ","};
std::vector<X> i;
size_t n = 0;
for (const auto& a : p.iterate<X>()) {
if (data.at(n).s == X::make_empty) {
CHECK_FALSE(p.valid());
}
i.push_back(a);
++n;
}
if (data != expected) {
CHECK_NE(i, expected);
}
}
}
TEST_CASE("parser test various cases with empty lines") {
test_ignore_empty({{1, 2, "x"}, {3, 4, "y"}, {9, 10, "v"}, {11, 12, "w"}});
test_ignore_empty(
{{1, 2, X::make_empty}, {3, 4, "y"}, {9, 10, "v"}, {11, 12, "w"}});
test_ignore_empty(
{{1, 2, "x"}, {3, 4, "y"}, {9, 10, "v"}, {11, 12, X::make_empty}});
test_ignore_empty(
{{1, 2, "x"}, {5, 6, X::make_empty}, {9, 10, "v"}, {11, 12, "w"}});
test_ignore_empty({{1, 2, X::make_empty},
{5, 6, X::make_empty},
{9, 10, "v"},
{11, 12, "w"}});
test_ignore_empty({{1, 2, X::make_empty},
{3, 4, "y"},
{9, 10, "v"},
{11, 12, X::make_empty}});
test_ignore_empty({{1, 2, "x"},
{3, 4, "y"},
{9, 10, X::make_empty},
{11, 12, X::make_empty}});
test_ignore_empty({{1, 2, X::make_empty},
{3, 4, "y"},
{9, 10, X::make_empty},
{11, 12, X::make_empty}});
test_ignore_empty({{1, 2, X::make_empty},
{3, 4, X::make_empty},
{9, 10, X::make_empty},
{11, 12, X::make_empty}});
test_ignore_empty({{1, 2, "x"},
{3, 4, X::make_empty},
{9, 10, X::make_empty},
{11, 12, X::make_empty}});
test_ignore_empty({{1, 2, X::make_empty},
{3, 4, X::make_empty},
{9, 10, X::make_empty},
{11, 12, "w"}});
test_ignore_empty({{11, 12, X::make_empty}});
test_ignore_empty({});
}