#include <msgpack.hpp>
#include <gtest/gtest.h>
#include <cmath>
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
enum enum_test {
elem
};
MSGPACK_ADD_ENUM(enum_test);
struct outer_enum {
enum enum_test {
elem
};
};
MSGPACK_ADD_ENUM(outer_enum::enum_test);
#if !defined(MSGPACK_USE_CPP03)
enum class enum_class_test {
elem
};
MSGPACK_ADD_ENUM(enum_class_test);
struct outer_enum_class {
enum class enum_class_test {
elem
};
};
MSGPACK_ADD_ENUM(outer_enum_class::enum_class_test);
#endif // !defined(MSGPACK_USE_CPP03)
using namespace std;
const unsigned int kLoop = 1000;
const unsigned int kElements = 100;
const double kEPS = 1e-10;
// bool
TEST(object_with_zone, bool)
{
bool v = true;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<bool>(), v);
v = false;
EXPECT_TRUE(obj.as<bool>());
}
// char
TEST(object_with_zone, char)
{
char v = 1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<char>(), v);
v = 2;
EXPECT_EQ(obj.as<char>(), 1);
}
// signed integer family
TEST(object_with_zone, signed_char)
{
signed char v = -1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<signed char>(), v);
v = -2;
EXPECT_EQ(obj.as<signed char>(), -1);
}
TEST(object_with_zone, signed_short)
{
signed short v = -1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<signed short>(), v);
v = -2;
EXPECT_EQ(obj.as<signed short>(), -1);
}
TEST(object_with_zone, signed_int)
{
signed int v = -1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<signed int>(), v);
v = -2;
EXPECT_EQ(obj.as<signed int>(), -1);
}
TEST(object_with_zone, signed_long)
{
signed long v = -1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<signed long>(), v);
v = -2;
EXPECT_EQ(obj.as<signed long>(), -1);
}
TEST(object_with_zone, signed_long_long)
{
signed long long v = -1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<signed long long>(), v);
v = -2;
EXPECT_EQ(obj.as<signed long long>(), -1);
}
// unsigned integer family
TEST(object_with_zone, unsigned_char)
{
unsigned char v = 1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<unsigned char>(), v);
v = 2;
EXPECT_EQ(obj.as<unsigned char>(), 1);
}
TEST(object_with_zone, unsigned_short)
{
unsigned short v = 1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<unsigned short>(), v);
v = 2;
EXPECT_EQ(obj.as<unsigned short>(), 1);
}
TEST(object_with_zone, unsigned_int)
{
unsigned int v = 1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<unsigned int>(), v);
v = 2;
EXPECT_EQ(obj.as<unsigned int>(), 1u);
}
TEST(object_with_zone, unsigned_long)
{
unsigned long v = 1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<unsigned long>(), v);
v = 2;
EXPECT_EQ(obj.as<unsigned long>(), 1u);
}
TEST(object_with_zone, unsigned_long_long)
{
unsigned long long v = 1;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<unsigned long long>(), v);
v = 2;
EXPECT_EQ(obj.as<unsigned long long>(), 1u);
}
// float
TEST(object_with_zone, float)
{
float v = 1.23f;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(fabs(obj.as<float>() - v) <= kEPS);
v = 4.56f;
EXPECT_TRUE(fabs(obj.as<float>() - static_cast<float>(1.23)) <= kEPS);
}
// double
TEST(object_with_zone, double)
{
double v = 1.23;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(fabs(obj.as<double>() - v) <= kEPS);
v = 4.56;
EXPECT_TRUE(fabs(obj.as<double>() - 1.23) <= kEPS);
}
// vector
TEST(object_with_zone, vector)
{
for (unsigned int k = 0; k < kLoop; k++) {
vector<int> v1;
v1.push_back(1);
for (unsigned int i = 1; i < kElements; i++)
v1.push_back(i);
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<vector<int> >() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<vector<int> >().front(), 1);
}
}
// vector_char
TEST(object_with_zone, vector_char)
{
for (unsigned int k = 0; k < kLoop; k++) {
vector<char> v1;
v1.push_back(1);
for (unsigned int i = 1; i < kElements; i++)
v1.push_back(static_cast<char>(i));
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<vector<char> >() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<vector<char> >().front(), 1);
}
}
TEST(object_without_zone, vector_char)
{
for (unsigned int k = 0; k < kLoop; k++) {
vector<char> v1;
v1.push_back(1);
for (unsigned int i = 1; i < kElements; i++)
v1.push_back(static_cast<char>(i));
msgpack::object obj(v1);
EXPECT_TRUE(obj.as<vector<char> >() == v1);
v1.front() = 42;
// obj refer to v1
EXPECT_EQ(obj.as<vector<char> >().front(), 42);
}
}
// vector_unsgined_char
TEST(object_with_zone, vector_unsigned_char)
{
if (!msgpack::is_same<uint8_t, unsigned char>::value) return;
for (unsigned int k = 0; k < kLoop; k++) {
vector<unsigned char> v1;
v1.push_back(1);
for (unsigned int i = 1; i < kElements; i++)
v1.push_back(static_cast<unsigned char>(i));
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<vector<unsigned char> >() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<vector<unsigned char> >().front(), 1);
}
}
TEST(object_without_zone, vector_unsigned_char)
{
if (!msgpack::is_same<uint8_t, unsigned char>::value) return;
for (unsigned int k = 0; k < kLoop; k++) {
vector<unsigned char> v1;
v1.push_back(1);
for (unsigned int i = 1; i < kElements; i++)
v1.push_back(static_cast<unsigned char>(i));
msgpack::object obj(v1);
EXPECT_TRUE(obj.as<vector<unsigned char> >() == v1);
v1.front() = 42;
// obj refer to v1
EXPECT_EQ(obj.as<vector<unsigned char> >().front(), 42);
}
}
// list
TEST(object_with_zone, list)
{
for (unsigned int k = 0; k < kLoop; k++) {
list<int> v1;
v1.push_back(1);
for (unsigned int i = 1; i < kElements; i++)
v1.push_back(i);
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<list<int> >() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<list<int> >().front(), 1);
}
}
// deque
TEST(object_with_zone, deque)
{
for (unsigned int k = 0; k < kLoop; k++) {
deque<int> v1;
v1.push_back(1);
for (unsigned int i = 1; i < kElements; i++)
v1.push_back(i);
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<deque<int> >() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<deque<int> >().front(), 1);
}
}
// string
TEST(object_with_zone, string)
{
string v = "abc";
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<string>(), v);
v[0] = 'd';
EXPECT_EQ(obj.as<string>()[0], 'a');
}
TEST(object_without_zone, string)
{
string v = "abc";
msgpack::zone z;
msgpack::object obj(v);
EXPECT_EQ(obj.as<string>(), v);
v[0] = 'd';
EXPECT_EQ(obj.as<string>()[0], 'd');
}
// char*
TEST(object_with_zone, char_ptr)
{
char v[] = "abc";
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.as<string>(), std::string(v));
v[0] = 'd';
EXPECT_EQ(obj.as<string>()[0], 'a');
}
TEST(object_without_zone, char_ptr)
{
char v[] = "abc";
msgpack::zone z;
msgpack::object obj(v);
EXPECT_EQ(obj.as<string>(), std::string(v));
v[0] = 'd';
EXPECT_EQ(obj.as<string>()[0], 'd');
}
// raw_ref
TEST(object_with_zone, raw_ref)
{
string s = "abc";
msgpack::type::raw_ref v(s.data(), static_cast<uint32_t>(s.size()));
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<msgpack::type::raw_ref>() == v);
s[0] = 'd';
// even if with_zone, not copied due to raw_ref
// Basically, the combination raw_ref and object::wit_zone
// is meaningless.
EXPECT_TRUE(obj.as<msgpack::type::raw_ref>() == v);
}
TEST(object_without_zone, raw_ref)
{
string s = "abc";
msgpack::type::raw_ref v(s.data(), static_cast<uint32_t>(s.size()));
msgpack::zone z;
msgpack::object obj(v);
EXPECT_TRUE(obj.as<msgpack::type::raw_ref>() == v);
s[0] = 'd';
EXPECT_TRUE(obj.as<msgpack::type::raw_ref>() == v);
}
// pair
TEST(object_with_zone, pair)
{
typedef pair<int, string> test_t;
test_t v(1, "abc");
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<test_t>() == v);
v.first = 42;
EXPECT_EQ(obj.as<test_t>().first, 1);
}
// set
TEST(object_with_zone, set)
{
for (unsigned int k = 0; k < kLoop; k++) {
set<int> v1;
for (unsigned int i = 0; i < kElements; i++)
v1.insert(i);
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<set<int> >() == v1);
}
}
// multiset
TEST(object_with_zone, multiset)
{
for (unsigned int k = 0; k < kLoop; k++) {
multiset<int> v1;
for (unsigned int i = 0; i < kElements; i++)
v1.insert(i % (kElements / 2));
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<multiset<int> >() == v1);
}
}
// map
TEST(object_with_zone, map)
{
typedef map<int, int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++)
v1.insert(std::make_pair(i, i*2));
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<test_t >() == v1);
}
}
// multimap
TEST(object_with_zone, multimap)
{
typedef multimap<int, int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++)
v1.insert(std::make_pair(i % (kElements / 2), i*2));
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<test_t >() == v1);
}
}
// msgpack_tuple
TEST(object_with_zone, msgpack_tuple)
{
typedef msgpack::type::tuple<int, string, bool> test_t;
test_t v(1, "abc", true);
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(msgpack::type::get<0>(obj.as<test_t>()), 1);
EXPECT_EQ(msgpack::type::get<1>(obj.as<test_t>()), "abc");
EXPECT_EQ(msgpack::type::get<2>(obj.as<test_t>()), true);
msgpack::type::get<0>(v) = 42;
EXPECT_EQ(msgpack::type::get<0>(obj.as<test_t>()), 1);
}
TEST(object_with_zone, msgpack_tuple_empty)
{
typedef msgpack::type::tuple<> test_t;
test_t v;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_EQ(obj.via.array.size, 0u);
}
// TR1
#ifdef MSGPACK_HAS_STD_TR1_UNORDERED_MAP
#include <tr1/unordered_map>
#include "msgpack/adaptor/tr1/unordered_map.hpp"
TEST(object_with_zone, tr1_unordered_map)
{
typedef tr1::unordered_map<int, int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++)
v1[rand()] = rand();
msgpack::zone z;
msgpack::object obj(v1, z);
test_t v2 = obj.as<test_t>();
EXPECT_EQ(v1.size(), v2.size());
test_t::const_iterator it;
for (it = v1.begin(); it != v1.end(); ++it) {
EXPECT_TRUE(v2.find(it->first) != v2.end());
EXPECT_EQ(it->second, v2.find(it->first)->second);
}
}
}
TEST(object_with_zone, tr1_unordered_multimap)
{
typedef tr1::unordered_multimap<int, int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++) {
int i1 = rand();
v1.insert(make_pair(i1, rand()));
v1.insert(make_pair(i1, rand()));
}
msgpack::zone z;
msgpack::object obj(v1, z);
test_t v2 = obj.as<test_t>();
vector<pair<int, int> > vec1, vec2;
tr1::unordered_multimap<int, int>::const_iterator it;
for (it = v1.begin(); it != v1.end(); ++it)
vec1.push_back(make_pair(it->first, it->second));
for (it = v2.begin(); it != v2.end(); ++it)
vec2.push_back(make_pair(it->first, it->second));
EXPECT_EQ(v1.size(), v2.size());
EXPECT_EQ(vec1.size(), vec2.size());
sort(vec1.begin(), vec1.end());
sort(vec2.begin(), vec2.end());
EXPECT_TRUE(vec1 == vec2);
}
}
#endif
#ifdef MSGPACK_HAS_STD_TR1_UNORDERED_SET
#include <tr1/unordered_set>
#include "msgpack/adaptor/tr1/unordered_set.hpp"
TEST(object_with_zone, tr1_unordered_set)
{
typedef tr1::unordered_set<int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++)
v1.insert(rand());
msgpack::zone z;
msgpack::object obj(v1, z);
test_t v2 = obj.as<test_t>();
EXPECT_EQ(v1.size(), v2.size());
tr1::unordered_set<int>::const_iterator it;
for (it = v1.begin(); it != v1.end(); ++it)
EXPECT_TRUE(v2.find(*it) != v2.end());
}
}
TEST(object_with_zone, tr1_unordered_multiset)
{
typedef tr1::unordered_set<int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++) {
int i1 = rand();
v1.insert(i1);
v1.insert(i1);
}
msgpack::zone z;
msgpack::object obj(v1, z);
test_t v2 = obj.as<test_t>();
vector<int> vec1, vec2;
tr1::unordered_multiset<int>::const_iterator it;
for (it = v1.begin(); it != v1.end(); ++it)
vec1.push_back(*it);
for (it = v2.begin(); it != v2.end(); ++it)
vec2.push_back(*it);
EXPECT_EQ(v1.size(), v2.size());
EXPECT_EQ(vec1.size(), vec2.size());
sort(vec1.begin(), vec1.end());
sort(vec2.begin(), vec2.end());
EXPECT_TRUE(vec1 == vec2);
}
}
#endif
#ifdef MSGPACK_HAS_STD_UNORDERED_MAP
#include <unordered_map>
#include "msgpack/adaptor/tr1/unordered_map.hpp"
TEST(object_with_zone, unordered_map)
{
typedef unordered_map<int, int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++)
v1[rand()] = rand();
msgpack::zone z;
msgpack::object obj(v1, z);
test_t v2 = obj.as<test_t>();
EXPECT_EQ(v1.size(), v2.size());
test_t::const_iterator it;
for (it = v1.begin(); it != v1.end(); ++it) {
EXPECT_TRUE(v2.find(it->first) != v2.end());
EXPECT_EQ(it->second, v2.find(it->first)->second);
}
}
}
TEST(object_with_zone, unordered_multimap)
{
typedef unordered_multimap<int, int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++) {
int i1 = rand();
v1.insert(make_pair(i1, rand()));
v1.insert(make_pair(i1, rand()));
}
msgpack::zone z;
msgpack::object obj(v1, z);
test_t v2 = obj.as<test_t>();
vector<pair<int, int> > vec1, vec2;
unordered_multimap<int, int>::const_iterator it;
for (it = v1.begin(); it != v1.end(); ++it)
vec1.push_back(make_pair(it->first, it->second));
for (it = v2.begin(); it != v2.end(); ++it)
vec2.push_back(make_pair(it->first, it->second));
EXPECT_EQ(v1.size(), v2.size());
EXPECT_EQ(vec1.size(), vec2.size());
sort(vec1.begin(), vec1.end());
sort(vec2.begin(), vec2.end());
EXPECT_TRUE(vec1 == vec2);
}
}
#endif
#ifdef MSGPACK_HAS_STD_UNORDERED_SET
#include <unordered_set>
#include "msgpack/adaptor/tr1/unordered_set.hpp"
TEST(object_with_zone, unordered_set)
{
typedef unordered_set<int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++)
v1.insert(rand());
msgpack::zone z;
msgpack::object obj(v1, z);
test_t v2 = obj.as<test_t>();
EXPECT_EQ(v1.size(), v2.size());
unordered_set<int>::const_iterator it;
for (it = v1.begin(); it != v1.end(); ++it)
EXPECT_TRUE(v2.find(*it) != v2.end());
}
}
TEST(object_with_zone, unordered_multiset)
{
typedef unordered_set<int> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
for (unsigned int i = 0; i < kElements; i++) {
int i1 = rand();
v1.insert(i1);
v1.insert(i1);
}
msgpack::zone z;
msgpack::object obj(v1, z);
test_t v2 = obj.as<test_t>();
vector<int> vec1, vec2;
unordered_multiset<int>::const_iterator it;
for (it = v1.begin(); it != v1.end(); ++it)
vec1.push_back(*it);
for (it = v2.begin(); it != v2.end(); ++it)
vec2.push_back(*it);
EXPECT_EQ(v1.size(), v2.size());
EXPECT_EQ(vec1.size(), vec2.size());
sort(vec1.begin(), vec1.end());
sort(vec2.begin(), vec2.end());
EXPECT_TRUE(vec1 == vec2);
}
}
#endif
// User defined class
class TestClass
{
public:
TestClass() : i(0), s("kzk") {}
int i;
string s;
MSGPACK_DEFINE(i, s);
};
TEST(object_with_zone, user_defined)
{
TestClass v1;
msgpack::zone z;
msgpack::object obj(v1, z);
TestClass v2 = obj.as<TestClass>();
EXPECT_EQ(v1.i, v2.i);
EXPECT_EQ(v1.s, v2.s);
}
TEST(object_with_zone, construct_enum)
{
msgpack::zone z;
msgpack::object obj(elem, z);
EXPECT_EQ(msgpack::type::POSITIVE_INTEGER, obj.type);
EXPECT_EQ(static_cast<uint64_t>(elem), obj.via.u64);
}
#if !defined(MSGPACK_USE_CPP03)
TEST(object_with_zone, construct_enum_newstyle)
{
msgpack::zone z;
msgpack::object obj(enum_test::elem, z);
EXPECT_EQ(msgpack::type::POSITIVE_INTEGER, obj.type);
EXPECT_EQ(elem, obj.via.u64);
}
#endif // !defined(MSGPACK_USE_CPP03)
TEST(object_with_zone, construct_enum_outer)
{
msgpack::zone z;
msgpack::object obj(outer_enum::elem, z);
EXPECT_EQ(msgpack::type::POSITIVE_INTEGER, obj.type);
EXPECT_EQ(static_cast<uint64_t>(elem), obj.via.u64);
}
// User defined inheriting classes
struct top {
int t;
MSGPACK_DEFINE(t);
};
struct mid1 : top {
int m1;
MSGPACK_DEFINE(MSGPACK_BASE(top), m1);
};
struct mid2 : top {
int m2;
MSGPACK_DEFINE(m2, MSGPACK_BASE(top));
};
struct bottom : mid1, mid2 {
int b;
MSGPACK_DEFINE(MSGPACK_BASE(mid1), MSGPACK_BASE(mid2), b);
};
TEST(object_with_zone, user_defined_non_virtual)
{
bottom b;
b.b = 1;
b.m1 = 2;
b.m2 = 3;
b.mid1::t = 4;
b.mid2::t = 5;
msgpack::zone z;
msgpack::object obj(b, z);
bottom br = obj.as<bottom>();
EXPECT_EQ(b.b, br.b);
EXPECT_EQ(b.m1, br.m1);
EXPECT_EQ(b.m2, br.m2);
EXPECT_EQ(b.mid1::t, br.mid1::t);
EXPECT_EQ(b.mid2::t, br.mid2::t);
}
struct v_top {
int t;
MSGPACK_DEFINE(t);
};
struct v_mid1 : virtual v_top {
int m1;
MSGPACK_DEFINE(m1);
};
struct v_mid2 : virtual v_top {
int m2;
MSGPACK_DEFINE(m2);
};
struct v_bottom : v_mid1, v_mid2 {
int b;
MSGPACK_DEFINE(MSGPACK_BASE(v_mid1), MSGPACK_BASE(v_mid2), MSGPACK_BASE(v_top), b);
};
TEST(object_with_zone, user_defined_virtual)
{
v_bottom b;
b.b = 1;
b.m1 = 2;
b.m2 = 3;
b.t = 4;
msgpack::zone z;
msgpack::object obj(b, z);
v_bottom br = obj.as<v_bottom>();
EXPECT_EQ(b.b, br.b);
EXPECT_EQ(b.m1, br.m1);
EXPECT_EQ(b.m2, br.m2);
EXPECT_EQ(b.t, br.t);
}
#if !defined(MSGPACK_USE_CPP03)
TEST(object_with_zone, construct_enum_outer_newstyle)
{
msgpack::zone z;
msgpack::object obj(outer_enum::enum_test::elem, z);
EXPECT_EQ(msgpack::type::POSITIVE_INTEGER, obj.type);
EXPECT_EQ(elem, obj.via.u64);
}
TEST(object_with_zone, construct_class_enum)
{
msgpack::zone z;
msgpack::object obj(enum_class_test::elem, z);
EXPECT_EQ(msgpack::type::POSITIVE_INTEGER, obj.type);
EXPECT_EQ(elem, obj.via.u64);
}
TEST(object_with_zone, construct_class_enum_outer)
{
msgpack::zone z;
msgpack::object obj(outer_enum_class::enum_class_test::elem, z);
EXPECT_EQ(msgpack::type::POSITIVE_INTEGER, obj.type);
EXPECT_EQ(elem, obj.via.u64);
}
TEST(object_with_zone, array)
{
typedef array<int, kElements> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
v1[0] = 1;
for (unsigned int i = 1; i < kElements; i++)
v1[i] = rand();
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<test_t>() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<test_t>().front(), 1);
}
}
TEST(object_with_zone, array_char)
{
typedef array<char, kElements> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
v1[0] = 1;
for (unsigned int i = 1; i < kElements; i++)
v1[i] = rand();
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<test_t>() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<test_t>().front(), 1);
}
}
TEST(object_without_zone, array_char)
{
typedef array<char, kElements> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
v1[0] = 1;
for (unsigned int i = 1; i < kElements; i++)
v1[i] = rand();
msgpack::object obj(v1);
EXPECT_TRUE(obj.as<test_t>() == v1);
v1.front() = 42;
// obj refer to v1
EXPECT_EQ(obj.as<test_t>().front(), 42);
}
}
TEST(object_with_zone, array_unsigned_char)
{
if (!msgpack::is_same<uint8_t, unsigned char>::value) return;
typedef array<unsigned char, kElements> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
v1[0] = 1;
for (unsigned int i = 1; i < kElements; i++)
v1[i] = rand();
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<test_t>() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<test_t>().front(), 1);
}
}
TEST(object_without_zone, array_unsigned_char)
{
if (!msgpack::is_same<uint8_t, unsigned char>::value) return;
typedef array<unsigned char, kElements> test_t;
for (unsigned int k = 0; k < kLoop; k++) {
test_t v1;
v1[0] = 1;
for (unsigned int i = 1; i < kElements; i++)
v1[i] = rand();
msgpack::object obj(v1);
EXPECT_TRUE(obj.as<test_t>() == v1);
v1.front() = 42;
// obj refer to v1
EXPECT_EQ(obj.as<test_t>().front(), 42);
}
}
TEST(object_with_zone, forward_list)
{
for (unsigned int k = 0; k < kLoop; k++) {
forward_list<int> v1;
for (unsigned int i = 0; i < kElements; i++)
v1.push_front(i);
msgpack::zone z;
msgpack::object obj(v1, z);
EXPECT_TRUE(obj.as<forward_list<int> >() == v1);
v1.front() = 42;
EXPECT_EQ(obj.as<forward_list<int> >().front(), static_cast<int>(kElements - 1));
}
}
TEST(object_with_zone, tuple)
{
typedef tuple<int, string, bool> test_t;
test_t v(1, "abc", true);
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<test_t>() == v);
}
TEST(object_with_zone, tuple_empty)
{
typedef tuple<> test_t;
test_t v;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<test_t>() == v);
}
#endif // !defined(MSGPACK_USE_CPP03)
TEST(object_with_zone, ext_empty)
{
msgpack::type::ext v;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<msgpack::type::ext>() == v);
EXPECT_TRUE(obj.as<msgpack::type::ext_ref>() == v);
}
TEST(object_with_zone, ext)
{
msgpack::type::ext v(42, 10);
for (int i = 0; i < 10; ++i) v.data()[i] = i;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<msgpack::type::ext>() == v);
EXPECT_TRUE(obj.as<msgpack::type::ext_ref>() == v);
}
TEST(object_with_zone, ext_from_buf)
{
char const buf[] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9};
msgpack::type::ext v(42, buf, sizeof(buf));
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<msgpack::type::ext>() == v);
EXPECT_TRUE(obj.as<msgpack::type::ext_ref>() == v);
}
TEST(object_with_zone, ext_ref_empty)
{
msgpack::type::ext_ref v;
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<msgpack::type::ext>() == v);
EXPECT_TRUE(obj.as<msgpack::type::ext_ref>() == v);
}
TEST(object_with_zone, ext_ref_from_buf)
{
char const buf[] = { 77, 1, 2, 3, 4, 5, 6, 7, 8, 9};
msgpack::type::ext_ref v(buf, sizeof(buf));
msgpack::zone z;
msgpack::object obj(v, z);
EXPECT_TRUE(obj.as<msgpack::type::ext>() == v);
EXPECT_TRUE(obj.as<msgpack::type::ext_ref>() == v);
}