ArduinoJson/test/JsonObject_Container_Tests.cpp

// Copyright Benoit Blanchon 2014
// MIT License
//
// Arduino JSON library
// https://github.com/bblanchon/ArduinoJson

#include <gtest/gtest.h>
#include <ArduinoJson.h>

class JsonObject_Container_Tests : public ::testing::Test {
 public:
  JsonObject_Container_Tests() : _object(_jsonBuffer.createObject()) {}

 protected:
  DynamicJsonBuffer _jsonBuffer;
  JsonObject& _object;
};

TEST_F(JsonObject_Container_Tests, InitialSizeIsZero) {
  EXPECT_EQ(0, _object.size());
}

TEST_F(JsonObject_Container_Tests, Grow_WhenValuesAreAdded) {
  _object["hello"];
  EXPECT_EQ(1, _object.size());

  _object["world"];
  EXPECT_EQ(2, _object.size());
}

TEST_F(JsonObject_Container_Tests, DoNotGrow_WhenSameValueIsAdded) {
  _object["hello"];
  EXPECT_EQ(1, _object.size());

  _object["hello"];
  EXPECT_EQ(1, _object.size());
}

TEST_F(JsonObject_Container_Tests, Shrink_WhenValuesAreRemoved) {
  _object["hello"];
  _object["world"];

  _object.remove("hello");
  EXPECT_EQ(1, _object.size());

  _object.remove("world");
  EXPECT_EQ(0, _object.size());
}

TEST_F(JsonObject_Container_Tests,
       DoNotShrink_WhenRemoveIsCalledWithAWrongKey) {
  _object["hello"];
  _object["world"];

  _object.remove(":-P");

  EXPECT_EQ(2, _object.size());
}

TEST_F(JsonObject_Container_Tests, CanStoreIntegers) {
  _object["hello"] = 123;
  _object["world"] = 456;

  EXPECT_EQ(123, _object["hello"].as<int>());
  EXPECT_EQ(456, _object["world"].as<int>());
}

TEST_F(JsonObject_Container_Tests, CanStoreDoubles) {
  _object["hello"] = 123.45;
  _object["world"] = 456.78;

  EXPECT_EQ(123.45, _object["hello"].as<double>());
  EXPECT_EQ(456.78, _object["world"].as<double>());
}

TEST_F(JsonObject_Container_Tests, CanStoreBooleans) {
  _object["hello"] = true;
  _object["world"] = false;

  EXPECT_TRUE(_object["hello"].as<bool>());
  EXPECT_FALSE(_object["world"].as<bool>());
}

TEST_F(JsonObject_Container_Tests, CanStoreStrings) {
  _object["hello"] = "h3110";
  _object["world"] = "w0r1d";

  EXPECT_STREQ("h3110", _object["hello"].as<const char*>());
  EXPECT_STREQ("w0r1d", _object["world"].as<const char*>());
}

TEST_F(JsonObject_Container_Tests, CanStoreInnerArrays) {
  JsonArray& innerarray1 = _jsonBuffer.createArray();
  JsonArray& innerarray2 = _jsonBuffer.createArray();

  _object["hello"] = innerarray1;
  _object["world"] = innerarray2;

  EXPECT_EQ(&innerarray1, &_object["hello"].asArray());
  EXPECT_EQ(&innerarray2, &_object["world"].asArray());
}

TEST_F(JsonObject_Container_Tests, CanStoreInnerObjects) {
  JsonObject& innerObject1 = _jsonBuffer.createObject();
  JsonObject& innerObject2 = _jsonBuffer.createObject();

  _object["hello"] = innerObject1;
  _object["world"] = innerObject2;

  EXPECT_EQ(&innerObject1, &_object["hello"].asObject());
  EXPECT_EQ(&innerObject2, &_object["world"].asObject());
}

TEST_F(JsonObject_Container_Tests, ContainsKeyReturnFalseForNonExistingKey) {
  EXPECT_FALSE(_object.containsKey("hello"));
}

TEST_F(JsonObject_Container_Tests, ContainsKeyReturnTrueForDefinedValue) {
  _object.add("hello", 42);
  EXPECT_TRUE(_object.containsKey("hello"));
}

TEST_F(JsonObject_Container_Tests, ContainsKeyReturnFalseForUndefinedValue) {
  _object.add("hello");
  EXPECT_FALSE(_object.containsKey("hello"));
}