TEST_F(ArduinoStringTests, JsonObject_SetKeyValue) {
JsonObject &object = _jsonBuffer.createObject();
String key("hello");
String value("world");
object.set(key, value);
eraseString(key);
eraseString(value);
ASSERT_STREQ("world", object["hello"]);
}
TEST_F(ArduinoStringTests, JsonBuffer_ParseObject) {
String json("{\"hello\":\"world\"}");
JsonObject &object = _jsonBuffer.parseObject(json);
eraseString(json);
ASSERT_TRUE(object.success());
ASSERT_STREQ("world", object["hello"]);
}
TEST_F(ArduinoStringTests, JsonBuffer_ParseArray) {
String json("[\"hello\"]");
JsonArray &array = _jsonBuffer.parseArray(json);
eraseString(json);
ASSERT_TRUE(array.success());
ASSERT_STREQ("hello", array[0]);
}
TEST_F(ArduinoStringTests, JsonArray_Add) {
JsonArray &array = _jsonBuffer.createArray();
String value("hello");
array.add(value);
eraseString(value);
ASSERT_STREQ("hello", array[0]);
}
TEST_F(ArduinoStringTests, JsonObjectSubscript_SetValue) {
JsonObject &object = _jsonBuffer.createObject();
String value("world");
object["hello"] = value;
eraseString(value);
ASSERT_STREQ("world", object["hello"]);
}
TEST_F(ArduinoStringTests, JsonObjectSubscript_SetKey) {
JsonObject &object = _jsonBuffer.createObject();
String key("hello");
object[key] = "world";
eraseString(key);
ASSERT_STREQ("world", object["hello"]);
}
TEST_F(ArduinoStringTests, JsonArraySubscript) {
JsonArray &array = _jsonBuffer.createArray();
String value("world");
array.add("hello");
array[0] = value;
eraseString(value);
ASSERT_STREQ("world", array[0]);
}
TEST_F(ArduinoStringTests, JsonObject_CreateNestedObject) {
String key = "key";
char json[64];
JsonObject &object = _jsonBuffer.createObject();
object.createNestedObject(key);
eraseString(key);
object.printTo(json, sizeof(json));
ASSERT_STREQ("{\"key\":{}}", json);
}
int main()
{
int gDriver=DETECT,gMode=0,i;
initgraph(&gDriver,&gMode,"C:\\TC\\BGI");
float rad=0.01;
int string_bottom_x,string_bottom_y;
int ball_x,ball_y,sign=1;
background();
drawString(320,300);
eraseString(320,300);
//drawBall(320,320);
for(rad=0.01;rad<T;rad+=(sign*0.01))
{ string_bottom_y=cos(rad)*L;
string_bottom_x=sin(rad)*L;
ball_y=cos(rad)*(L+20);
ball_x=sin(rad)*(L+20);
//cout<<"("<<ball_x<<"|"<<ball_y<<")";
drawString(320-string_bottom_x,100+string_bottom_y);
drawBall(320-ball_x,100+ball_y);
delay(60);
eraseString(320-string_bottom_x,100+string_bottom_y);
eraseBall(320-ball_x,100+ball_y);
if(ball_y==190&&ball_x==109)
{ sign=-1;
}
if(ball_y==190&&ball_x==-109)
{ sign=1;
//getch();
}
}
getch();
return 0;
}