TYPED_TEST(DocumentMove, MoveAssignment) {
typedef TypeParam Allocator;
typedef GenericDocument<UTF8<>, Allocator> Document;
Allocator allocator;
Document a(&allocator);
a.Parse("[\"one\", \"two\", \"three\"]");
EXPECT_FALSE(a.HasParseError());
EXPECT_TRUE(a.IsArray());
EXPECT_EQ(3u, a.Size());
EXPECT_EQ(&a.GetAllocator(), &allocator);
// Document b; b = a; // does not compile (!is_copy_assignable)
Document b;
b = std::move(a);
EXPECT_TRUE(a.IsNull());
EXPECT_TRUE(b.IsArray());
EXPECT_EQ(3u, b.Size());
EXPECT_EQ(&a.GetAllocator(), (void*)0);
EXPECT_EQ(&b.GetAllocator(), &allocator);
b.Parse("{\"Foo\": \"Bar\", \"Baz\": 42}");
EXPECT_FALSE(b.HasParseError());
EXPECT_TRUE(b.IsObject());
EXPECT_EQ(2u, b.MemberCount());
// Document c; c = a; // does not compile (see static_assert)
Document c;
c = std::move(b);
EXPECT_TRUE(b.IsNull());
EXPECT_TRUE(c.IsObject());
EXPECT_EQ(2u, c.MemberCount());
EXPECT_EQ(&b.GetAllocator(), (void*)0);
EXPECT_EQ(&c.GetAllocator(), &allocator);
}
TEST_F(RapidJson, SIMD_SUFFIX(DocumentParse_MemoryPoolAllocator)) {
for (size_t i = 0; i < kTrialCount; i++) {
Document doc;
doc.Parse(json_);
ASSERT_TRUE(doc.IsObject());
}
}
LRESULT Cdispatcher_uiDlg::OnReadStats(WPARAM wparam, LPARAM lParam) {
char *buf = (char*)wparam;
Document d;
if (d.Parse(buf).HasParseError()) {
int unicodeLen = MultiByteToWideChar(CP_ACP, 0, buf, -1, 0, 0);
wchar_t *wc = new wchar_t[unicodeLen+1];
memset(wc, 0, (unicodeLen + 1)*sizeof(wchar_t));
MultiByteToWideChar(CP_ACP, 0, buf, -1, wc, unicodeLen);
m_static_msg.SetWindowText(wc);
delete[]wc;
}
else {
//read/stats
uint64_t count_service = 0;
uint64_t count_dispatch = 0;
for (Value::ConstMemberIterator iter = d.MemberBegin(); iter != d.MemberEnd(); ++iter) {
const char * app = iter->name.GetString();
count_service += iter->value["service"].GetUint64();
count_dispatch += iter->value["dispatch"].GetUint64();
}
wchar_t tmp[1024];
swprintf_s(tmp, L"%lld", count_dispatch);
m_dispatch_count.SetWindowTextW(tmp);
swprintf_s(tmp, L"%lld", count_service);
m_service_count.SetWindowTextW(tmp);
}
return 0;
}
int parseJSON(char *json) {
Document d;
d.Parse(json);
Value &uniq = d["uniq"];
Value &faces = d["faces"];
int T = faces.Size();
vec FI = zeros<vec>(3*T);
vec FN = zeros<vec>(3*T);
for (SizeType i=0; i<T; i++) {
FI(i*3 + 0) = faces[i]["a"].GetInt();
FI(i*3 + 1) = faces[i]["b"].GetInt();
FI(i*3 + 2) = faces[i]["c"].GetInt();
FN(i*3 + 0) = faces[i]["normal"]["x"].GetDouble();
FN(i*3 + 1) = faces[i]["normal"]["y"].GetDouble();
FN(i*3 + 2) = faces[i]["normal"]["z"].GetDouble();
}
int V = uniq.Size();
vec VI = zeros<vec>(3*V);
mat A = zeros<mat>(V, V);
for (SizeType i=0; i<V; i++) {
VI(i*3 + 0) = uniq[i]["vertex"]["x"].GetDouble();
VI(i*3 + 1) = uniq[i]["vertex"]["y"].GetDouble();
VI(i*3 + 2) = uniq[i]["vertex"]["z"].GetDouble();
Value &edges = uniq[i]["edges"];
int n = edges.Size();
for (SizeType j=0; j<n; j++) {
if (i == j) {
A(i, j) = 1;
} else {
double d = (double) 1/n;
A(i, j) = -d;
}
}
}
mat L, U, P;
lu(L, U, P, A);
cout << L.t() << endl;
vec b = zeros<vec>(V);
mat G = zeros<mat>(V, V);
int p = 0;
int q = V-1;
int w = 1000;
b(p) = w;
G(p, p) = w*w;
G(q, q) = w*w;
return 0;
}
int *createMatrix(int uniq[], int faces[], int edges[][20]) {
int n = sizeof(*uniq);
int w = 1000;
const char* json = "{\"project\":\"rapidjson\",\"stars\":10}";
Document d;
d.Parse(json);
Value& s = d["stars"];
StringBuffer buffer;
Writer<StringBuffer> writer(buffer);
d.Accept(writer);
cout << buffer.GetString() << endl;
sp_mat L = zeros<sp_mat>(n, n);
int p = 0;
int q = n-1;
sp_mat b = zeros<sp_mat>(1, n);
b(0, p) = w;
sp_mat G = zeros<sp_mat>(n, n);
G(p, p) = w*w;
G(q, q) = w*w;
cout << G.t() << endl;
cout << edges[0] << endl;
return edges[0];
}
void Bec3::initFromFile(string path){
ifstream conf(path);
if (!conf.is_open())
{
cout << "\033[31m[ERROR]\033[00m Could'nt load configuration file." << endl;
exit(EXIT_FAILURE);
}
stringstream buffer;
buffer << conf.rdbuf();
Document document;
document.Parse(buffer.str().c_str());
const Value &user = document["user"];
const Value &objects = document["objects"];
//LOG TO BEC3 WITH USER CONFIGURATION
const Value &user_login = user["login"];
const Value &user_password = user["password"];
connect(user_login.GetString(), user_password.GetString() );
//ADD ALL OBJECTS
for (SizeType i = 0; i < objects.Size(); ++i) {
const Value &id = objects[i]["id"];
const Value &type = objects[i]["type"];
addObject( id.GetString() , type.GetString() );
}
timer = std::clock();
}
SerializableSprite* SpriteManager::createSprite(const unordered_map<string, string>& map) {
const int x = atoi(map.at("x").c_str()),
y = atoi(map.at("y").c_str());
const string className = map.at("className"),
properties = map.at("properties");
int64_t rowid = strTo<int64_t>(map.at("rowid"));
//CC_ASSERT(rowid != 0);
Document json;
json.Parse(properties.c_str());
auto it = _createFuncsWithJson.find(className);
if (it == _createFuncsWithJson.end()) {
log("unable to instantiate sprite. class name: %s, properties: %s",
className.c_str(), properties.c_str());
return nullptr;
}
auto sprite = (*it).second(json);
sprite->setPosition(x, y);
sprite->setRowid(rowid);
sprite->setLocalZOrder(SPRITE_ZORDER);
log("SpriteManager::createSprite: x: %d, y: %d, class: %s, properties: %s",
x, y, className.c_str(), properties.c_str());
return sprite;
}
TYPED_TEST(DocumentMove, MoveAssignmentParseError) {
typedef TypeParam Allocator;
typedef GenericDocument<UTF8<>, Allocator> Document;
ParseResult noError;
Document a;
a.Parse("{ 4 = 4]");
ParseResult error(a.GetParseError(), a.GetErrorOffset());
EXPECT_TRUE(a.HasParseError());
EXPECT_NE(error.Code(), noError.Code());
EXPECT_NE(error.Offset(), noError.Offset());
Document b;
b = std::move(a);
EXPECT_FALSE(a.HasParseError());
EXPECT_TRUE(b.HasParseError());
EXPECT_EQ(a.GetParseError(), noError.Code());
EXPECT_EQ(b.GetParseError(), error.Code());
EXPECT_EQ(a.GetErrorOffset(), noError.Offset());
EXPECT_EQ(b.GetErrorOffset(), error.Offset());
Document c;
c = std::move(b);
EXPECT_FALSE(b.HasParseError());
EXPECT_TRUE(c.HasParseError());
EXPECT_EQ(b.GetParseError(), noError.Code());
EXPECT_EQ(c.GetParseError(), error.Code());
EXPECT_EQ(b.GetErrorOffset(), noError.Offset());
EXPECT_EQ(c.GetErrorOffset(), error.Offset());
}
void test1(... ) {
using namespace rapidjson;
string json = "{\"project\":\"rapidjson\",\"stars\":10}";
Document doc;
doc.Parse( json.data() );
doc.SetString("project");
}
Tactic::Param TDefend::paramFromJSON(string json) {
using namespace rapidjson;
Tactic::Param tParam;
Document d;
d.Parse(json.c_str());
tParam.DefendP.x = d["x"].GetDouble();
return tParam;
}
TEST(SchemaValidator, Issue608) {
Document sd;
sd.Parse("{\"required\": [\"a\", \"b\"] }");
SchemaDocument s(sd);
VALIDATE(s, "{\"a\" : null, \"b\": null}", true);
INVALIDATE(s, "{\"a\" : null, \"a\" : null}", "", "required", "");
}
TEST(SchemaValidator, Enum_Typed) {
Document sd;
sd.Parse("{ \"type\": \"string\", \"enum\" : [\"red\", \"amber\", \"green\"] }");
SchemaDocument s(sd);
VALIDATE(s, "\"red\"", true);
INVALIDATE(s, "\"blue\"", "", "enum", "");
}
TEST(SchemaValidator, String) {
Document sd;
sd.Parse("{\"type\":\"string\"}");
SchemaDocument s(sd);
VALIDATE(s, "\"I'm a string\"", true);
INVALIDATE(s, "42", "", "type", "");
}
TEST(SchemaValidator, Enum_InvalidType) {
Document sd;
sd.Parse("{ \"type\": \"string\", \"enum\": [\"red\", \"amber\", \"green\", null] }");
SchemaDocument s(sd);
VALIDATE(s, "\"red\"", true);
INVALIDATE(s, "null", "", "type", "");
}
TEST_F(RapidJson, SIMD_SUFFIX(DocumentParseStdString_MemoryPoolAllocator)) {
const std::string s(json_, length_);
for (size_t i = 0; i < kTrialCount; i++) {
Document doc;
doc.Parse(s);
ASSERT_TRUE(doc.IsObject());
}
}
int main(int argc, const char* argv[]) {
luaL_openlibs(L);
luabridge::getGlobalNamespace(L)
.beginClass<Entity>("Entity")
.addConstructor<void(*)(void)>()
.addFunction("say", &Entity::say)
.addFunction("getComponent", &Entity::getComponent)
.addFunction("addComponent", &Entity::addComponent)
.endClass()
.beginClass<Component>("Component")
.addCFunction("getVariable", &Component::getVariable)
.addCFunction("setVariable", &Component::setVariable)
.addFunction("getParent", &Component::getParent)
.addFunction("addMember", &Component::addMember)
.endClass();
// --
LuaScript enemyLuaScript(L, "Enemy.lua");
LuaScript entityLuaScript(L, "Player.lua");
ComponentScript entityScript(&entityLuaScript);
ComponentScript enemyScript(&enemyLuaScript);
// --
Entity myEntity;
myEntity.addComponent(&entityScript);
myEntity.addComponent(&enemyScript);
Entity myEntity2;
myEntity2.addComponent(&enemyScript);
// myEntity.onLoop();
// myEntity2.onLoop();
myEntity.getComponent("Player.lua")->getScript()->getReference("doPlayerStuff")->call(myEntity.getComponent("Player.lua"), myEntity2);
// --
Document d;
d.Parse("{}");
rapidjson::Value entityValue(rapidjson::kObjectType);
myEntity.onSerialize(&entityValue, &d.GetAllocator());
myEntity2.onSerialize(&entityValue, &d.GetAllocator());
d.AddMember("entities", entityValue, d.GetAllocator());
rapidjson::StringBuffer sb;
rapidjson::Writer<rapidjson::StringBuffer> writer(sb);
d.Accept(writer);
std::cout << sb.GetString() << "\n";
}
TEST(SchemaValidator, Number_MultipleOfOne) {
Document sd;
sd.Parse("{\"type\":\"number\",\"multipleOf\":1}");
SchemaDocument s(sd);
VALIDATE(s, "42", true);
VALIDATE(s, "42.0", true);
INVALIDATE(s, "3.1415926", "", "multipleOf", "");
}
TEST(SchemaValidator, Integer_MultipleOf64Boundary) {
Document sd;
sd.Parse("{\"type\":\"integer\",\"multipleOf\":18446744073709551615}");
SchemaDocument s(sd);
VALIDATE(s, "0", true);
VALIDATE(s, "18446744073709551615", true);
INVALIDATE(s, "18446744073709551614", "", "multipleOf", "");
}
TEST(SchemaValidator, Not) {
Document sd;
sd.Parse("{\"not\":{ \"type\": \"string\"}}");
SchemaDocument s(sd);
VALIDATE(s, "42", true);
VALIDATE(s, "{ \"key\": \"value\" }", true);
INVALIDATE(s, "\"I am a string\"", "", "not", "");
}
TEST(SchemaValidator, AnyOf) {
Document sd;
sd.Parse("{\"anyOf\": [{ \"type\": \"string\" }, { \"type\": \"number\" } ] }");
SchemaDocument s(sd);
VALIDATE(s, "\"Yes\"", true);
VALIDATE(s, "42", true);
INVALIDATE(s, "{ \"Not a\": \"string or number\" }", "", "anyOf", "");
}
TEST(SchemaValidator, AllOf) {
{
Document sd;
sd.Parse("{\"allOf\": [{ \"type\": \"string\" }, { \"type\": \"string\", \"maxLength\": 5 }]}");
SchemaDocument s(sd);
VALIDATE(s, "\"ok\"", true);
INVALIDATE(s, "\"too long\"", "", "allOf", "");
}
{
Document sd;
sd.Parse("{\"allOf\": [{ \"type\": \"string\" }, { \"type\": \"number\" } ] }");
SchemaDocument s(sd);
VALIDATE(s, "\"No way\"", false);
INVALIDATE(s, "-1", "", "allOf", "");
}
}
TEST(SchemaValidator, ObjectInArray) {
Document sd;
sd.Parse("{\"type\":\"array\", \"items\": { \"type\":\"string\" }}");
SchemaDocument s(sd);
VALIDATE(s, "[\"a\"]", true);
INVALIDATE(s, "[1]", "/items", "type", "/0");
INVALIDATE(s, "[{}]", "/items", "type", "/0");
}
TEST(SchemaValidator, Array) {
Document sd;
sd.Parse("{\"type\":\"array\"}");
SchemaDocument s(sd);
VALIDATE(s, "[1, 2, 3, 4, 5]", true);
VALIDATE(s, "[3, \"different\", { \"types\" : \"of values\" }]", true);
INVALIDATE(s, "{\"Not\": \"an array\"}", "", "type", "");
}
void query(string &word) {
auto response = cpr::Get(cpr::Url{string(YD_API_URL) + word});
Document doc;
doc.Parse(response.text.c_str());
print_explanation(doc);
}
TEST(SchemaValidator, Array_UniqueItems) {
Document sd;
sd.Parse("{\"type\": \"array\", \"uniqueItems\": true}");
SchemaDocument s(sd);
VALIDATE(s, "[1, 2, 3, 4, 5]", true);
INVALIDATE(s, "[1, 2, 3, 3, 4]", "", "uniqueItems", "/3");
VALIDATE(s, "[]", true);
}
TEST(SchemaValidator, String_Pattern_Invalid) {
Document sd;
sd.Parse("{\"type\":\"string\",\"pattern\":\"a{0}\"}"); // TODO: report regex is invalid somehow
SchemaDocument s(sd);
VALIDATE(s, "\"\"", true);
VALIDATE(s, "\"a\"", true);
VALIDATE(s, "\"aa\"", true);
}
bool loadJson(const std::string_view json, Document& doc)
{
if (json.empty() == true)
{
return false;
}
// Default template parameter uses UTF8 and MemoryPoolAllocator.
return (doc.Parse(json.data(), json.size()).HasParseError() == false);
}
TEST(SchemaValidator, Typeless) {
Document sd;
sd.Parse("{}");
SchemaDocument s(sd);
VALIDATE(s, "42", true);
VALIDATE(s, "\"I'm a string\"", true);
VALIDATE(s, "{ \"an\": [ \"arbitrarily\", \"nested\" ], \"data\": \"structure\" }", true);
}
void GBlurProcessor::init(const char* json) {
// Read json string to set properties
using namespace rapidjson;
Document document;
document.Parse(json);
assert(document.IsObject());
assert(document.HasMember("level"));
level = document["level"].GetInt();
}
TEST(SchemaValidator, MultiType) {
Document sd;
sd.Parse("{ \"type\": [\"number\", \"string\"] }");
SchemaDocument s(sd);
VALIDATE(s, "42", true);
VALIDATE(s, "\"Life, the universe, and everything\"", true);
INVALIDATE(s, "[\"Life\", \"the universe\", \"and everything\"]", "", "type", "");
}
