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added library json

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This commit is contained in:
hidaba
2023-05-14 11:02:22 +02:00
parent c60123ce97
commit ab8de582d8
421 changed files with 51080 additions and 6 deletions
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29
libraries/ArduinoJson/extras/tests/JsonObject/CMakeLists.txt Normal file
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# ArduinoJson - https://arduinojson.org
# Copyright © 2014-2023, Benoit BLANCHON
# MIT License
add_executable(JsonObjectTests
clear.cpp
compare.cpp
containsKey.cpp
copy.cpp
createNestedArray.cpp
createNestedObject.cpp
equals.cpp
invalid.cpp
isNull.cpp
iterator.cpp
memoryUsage.cpp
nesting.cpp
remove.cpp
size.cpp
std_string.cpp
subscript.cpp
)
add_test(JsonObject JsonObjectTests)
set_tests_properties(JsonObject
PROPERTIES
LABELS "Catch"
)

25
libraries/ArduinoJson/extras/tests/JsonObject/clear.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::clear()") {
SECTION("No-op on null JsonObject") {
JsonObject obj;
obj.clear();
REQUIRE(obj.isNull() == true);
REQUIRE(obj.size() == 0);
}
SECTION("Removes all elements") {
StaticJsonDocument<64> doc;
JsonObject obj = doc.to<JsonObject>();
obj["hello"] = 1;
obj["world"] = 2;
obj.clear();
REQUIRE(obj.size() == 0);
REQUIRE(obj.isNull() == false);
}
}

512
libraries/ArduinoJson/extras/tests/JsonObject/compare.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("Compare JsonObject with JsonObject") {
StaticJsonDocument<512> doc;
SECTION("Compare with unbound") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonObject unbound;
CHECK(object != unbound);
CHECK_FALSE(object == unbound);
CHECK_FALSE(object <= unbound);
CHECK_FALSE(object >= unbound);
CHECK_FALSE(object > unbound);
CHECK_FALSE(object < unbound);
CHECK(unbound != object);
CHECK_FALSE(unbound == object);
CHECK_FALSE(unbound <= object);
CHECK_FALSE(unbound >= object);
CHECK_FALSE(unbound > object);
CHECK_FALSE(unbound < object);
}
SECTION("Compare with self") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
CHECK(object == object);
CHECK(object <= object);
CHECK(object >= object);
CHECK_FALSE(object != object);
CHECK_FALSE(object > object);
CHECK_FALSE(object < object);
}
SECTION("Compare with identical object") {
JsonObject object1 = doc.createNestedObject();
object1["a"] = 1;
object1["b"] = "hello";
object1["c"][0] = false;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello";
object2["c"][0] = false;
CHECK(object1 == object2);
CHECK(object1 <= object2);
CHECK(object1 >= object2);
CHECK_FALSE(object1 != object2);
CHECK_FALSE(object1 > object2);
CHECK_FALSE(object1 < object2);
}
SECTION("Compare with different object") {
JsonObject object1 = doc.createNestedObject();
object1["a"] = 1;
object1["b"] = "hello1";
object1["c"][0] = false;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello2";
object2["c"][0] = false;
CHECK(object1 != object2);
CHECK_FALSE(object1 == object2);
CHECK_FALSE(object1 > object2);
CHECK_FALSE(object1 < object2);
CHECK_FALSE(object1 <= object2);
CHECK_FALSE(object1 >= object2);
}
}
TEST_CASE("Compare JsonObject with JsonVariant") {
StaticJsonDocument<512> doc;
SECTION("Compare with self") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonVariant variant = object;
CHECK(object == variant);
CHECK(object <= variant);
CHECK(object >= variant);
CHECK_FALSE(object != variant);
CHECK_FALSE(object > variant);
CHECK_FALSE(object < variant);
CHECK(variant == object);
CHECK(variant <= object);
CHECK(variant >= object);
CHECK_FALSE(variant != object);
CHECK_FALSE(variant > object);
CHECK_FALSE(variant < object);
}
SECTION("Compare with identical object") {
JsonObject object = doc.createNestedObject();
object["a"] = 1;
object["b"] = "hello";
object["c"][0] = false;
JsonVariant variant = doc.createNestedObject();
variant["a"] = 1;
variant["b"] = "hello";
variant["c"][0] = false;
CHECK(object == variant);
CHECK(object <= variant);
CHECK(object >= variant);
CHECK_FALSE(object != variant);
CHECK_FALSE(object > variant);
CHECK_FALSE(object < variant);
CHECK(variant == object);
CHECK(variant <= object);
CHECK(variant >= object);
CHECK_FALSE(variant != object);
CHECK_FALSE(variant > object);
CHECK_FALSE(variant < object);
}
SECTION("Compare with different object") {
JsonObject object = doc.createNestedObject();
object["a"] = 1;
object["b"] = "hello1";
object["c"][0] = false;
JsonVariant variant = doc.createNestedObject();
variant["a"] = 1;
variant["b"] = "hello2";
variant["c"][0] = false;
CHECK(object != variant);
CHECK_FALSE(object == variant);
CHECK_FALSE(object > variant);
CHECK_FALSE(object < variant);
CHECK_FALSE(object <= variant);
CHECK_FALSE(object >= variant);
}
}
TEST_CASE("Compare JsonObject with JsonVariantConst") {
StaticJsonDocument<512> doc;
SECTION("Compare with unbound") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonVariantConst unbound;
CHECK(object != unbound);
CHECK_FALSE(object == unbound);
CHECK_FALSE(object <= unbound);
CHECK_FALSE(object >= unbound);
CHECK_FALSE(object > unbound);
CHECK_FALSE(object < unbound);
CHECK(unbound != object);
CHECK_FALSE(unbound == object);
CHECK_FALSE(unbound <= object);
CHECK_FALSE(unbound >= object);
CHECK_FALSE(unbound > object);
CHECK_FALSE(unbound < object);
}
SECTION("Compare with self") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonVariantConst variant = object;
CHECK(object == variant);
CHECK(object <= variant);
CHECK(object >= variant);
CHECK_FALSE(object != variant);
CHECK_FALSE(object > variant);
CHECK_FALSE(object < variant);
CHECK(variant == object);
CHECK(variant <= object);
CHECK(variant >= object);
CHECK_FALSE(variant != object);
CHECK_FALSE(variant > object);
CHECK_FALSE(variant < object);
}
SECTION("Compare with identical object") {
JsonObject object = doc.createNestedObject();
object["a"] = 1;
object["b"] = "hello";
object["c"][0] = false;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello";
object2["c"][0] = false;
JsonVariantConst variant = object2;
CHECK(object == variant);
CHECK(object <= variant);
CHECK(object >= variant);
CHECK_FALSE(object != variant);
CHECK_FALSE(object > variant);
CHECK_FALSE(object < variant);
CHECK(variant == object);
CHECK(variant <= object);
CHECK(variant >= object);
CHECK_FALSE(variant != object);
CHECK_FALSE(variant > object);
CHECK_FALSE(variant < object);
}
SECTION("Compare with different object") {
JsonObject object = doc.createNestedObject();
object["a"] = 1;
object["b"] = "hello1";
object["c"][0] = false;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello2";
object2["c"][0] = false;
JsonVariantConst variant = object2;
CHECK(object != variant);
CHECK_FALSE(object == variant);
CHECK_FALSE(object > variant);
CHECK_FALSE(object < variant);
CHECK_FALSE(object <= variant);
CHECK_FALSE(object >= variant);
}
}
TEST_CASE("Compare JsonObject with JsonObjectConst") {
StaticJsonDocument<512> doc;
SECTION("Compare with unbound") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonObjectConst unbound;
CHECK(object != unbound);
CHECK_FALSE(object == unbound);
CHECK_FALSE(object <= unbound);
CHECK_FALSE(object >= unbound);
CHECK_FALSE(object > unbound);
CHECK_FALSE(object < unbound);
CHECK(unbound != object);
CHECK_FALSE(unbound == object);
CHECK_FALSE(unbound <= object);
CHECK_FALSE(unbound >= object);
CHECK_FALSE(unbound > object);
CHECK_FALSE(unbound < object);
}
SECTION("Compare with self") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonObjectConst cobject = object;
CHECK(object == cobject);
CHECK(object <= cobject);
CHECK(object >= cobject);
CHECK_FALSE(object != cobject);
CHECK_FALSE(object > cobject);
CHECK_FALSE(object < cobject);
CHECK(cobject == object);
CHECK(cobject <= object);
CHECK(cobject >= object);
CHECK_FALSE(cobject != object);
CHECK_FALSE(cobject > object);
CHECK_FALSE(cobject < object);
}
SECTION("Compare with identical object") {
JsonObject object1 = doc.createNestedObject();
object1["a"] = 1;
object1["b"] = "hello";
object1["c"][0] = false;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello";
object2["c"][0] = false;
JsonObjectConst carray2 = object2;
CHECK(object1 == carray2);
CHECK(object1 <= carray2);
CHECK(object1 >= carray2);
CHECK_FALSE(object1 != carray2);
CHECK_FALSE(object1 > carray2);
CHECK_FALSE(object1 < carray2);
CHECK(carray2 == object1);
CHECK(carray2 <= object1);
CHECK(carray2 >= object1);
CHECK_FALSE(carray2 != object1);
CHECK_FALSE(carray2 > object1);
CHECK_FALSE(carray2 < object1);
}
SECTION("Compare with different object") {
JsonObject object1 = doc.createNestedObject();
object1["a"] = 1;
object1["b"] = "hello1";
object1["c"][0] = false;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello2";
object2["c"][0] = false;
JsonObjectConst carray2 = object2;
CHECK(object1 != carray2);
CHECK_FALSE(object1 == carray2);
CHECK_FALSE(object1 > carray2);
CHECK_FALSE(object1 < carray2);
CHECK_FALSE(object1 <= carray2);
CHECK_FALSE(object1 >= carray2);
CHECK(carray2 != object1);
CHECK_FALSE(carray2 == object1);
CHECK_FALSE(carray2 > object1);
CHECK_FALSE(carray2 < object1);
CHECK_FALSE(carray2 <= object1);
CHECK_FALSE(carray2 >= object1);
}
}
TEST_CASE("Compare JsonObjectConst with JsonObjectConst") {
StaticJsonDocument<512> doc;
SECTION("Compare with unbound") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonObjectConst cobject = object;
JsonObjectConst unbound;
CHECK(cobject != unbound);
CHECK_FALSE(cobject == unbound);
CHECK_FALSE(cobject <= unbound);
CHECK_FALSE(cobject >= unbound);
CHECK_FALSE(cobject > unbound);
CHECK_FALSE(cobject < unbound);
CHECK(unbound != cobject);
CHECK_FALSE(unbound == cobject);
CHECK_FALSE(unbound <= cobject);
CHECK_FALSE(unbound >= cobject);
CHECK_FALSE(unbound > cobject);
CHECK_FALSE(unbound < cobject);
}
SECTION("Compare with self") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonObjectConst cobject = object;
CHECK(cobject == cobject);
CHECK(cobject <= cobject);
CHECK(cobject >= cobject);
CHECK_FALSE(cobject != cobject);
CHECK_FALSE(cobject > cobject);
CHECK_FALSE(cobject < cobject);
}
SECTION("Compare with identical object") {
JsonObject object1 = doc.createNestedObject();
object1["a"] = 1;
object1["b"] = "hello";
object1["c"][0] = false;
JsonObjectConst carray1 = object1;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello";
object2["c"][0] = false;
JsonObjectConst carray2 = object2;
CHECK(carray1 == carray2);
CHECK(carray1 <= carray2);
CHECK(carray1 >= carray2);
CHECK_FALSE(carray1 != carray2);
CHECK_FALSE(carray1 > carray2);
CHECK_FALSE(carray1 < carray2);
}
SECTION("Compare with different object") {
JsonObject object1 = doc.createNestedObject();
object1["a"] = 1;
object1["b"] = "hello1";
object1["c"][0] = false;
JsonObjectConst carray1 = object1;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello2";
object2["c"][0] = false;
JsonObjectConst carray2 = object2;
CHECK(carray1 != carray2);
CHECK_FALSE(carray1 == carray2);
CHECK_FALSE(carray1 > carray2);
CHECK_FALSE(carray1 < carray2);
CHECK_FALSE(carray1 <= carray2);
CHECK_FALSE(carray1 >= carray2);
}
}
TEST_CASE("Compare JsonObjectConst with JsonVariant") {
StaticJsonDocument<512> doc;
SECTION("Compare with self") {
JsonObject object = doc.to<JsonObject>();
object["a"] = 1;
object["b"] = "hello";
JsonObjectConst cobject = object;
JsonVariant variant = object;
CHECK(cobject == variant);
CHECK(cobject <= variant);
CHECK(cobject >= variant);
CHECK_FALSE(cobject != variant);
CHECK_FALSE(cobject > variant);
CHECK_FALSE(cobject < variant);
CHECK(variant == cobject);
CHECK(variant <= cobject);
CHECK(variant >= cobject);
CHECK_FALSE(variant != cobject);
CHECK_FALSE(variant > cobject);
CHECK_FALSE(variant < cobject);
}
SECTION("Compare with identical object") {
JsonObject object1 = doc.createNestedObject();
object1["a"] = 1;
object1["b"] = "hello";
object1["c"][0] = false;
JsonObjectConst carray1 = object1;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello";
object2["c"][0] = false;
JsonVariant variant2 = object2;
CHECK(carray1 == variant2);
CHECK(carray1 <= variant2);
CHECK(carray1 >= variant2);
CHECK_FALSE(carray1 != variant2);
CHECK_FALSE(carray1 > variant2);
CHECK_FALSE(carray1 < variant2);
CHECK(variant2 == carray1);
CHECK(variant2 <= carray1);
CHECK(variant2 >= carray1);
CHECK_FALSE(variant2 != carray1);
CHECK_FALSE(variant2 > carray1);
CHECK_FALSE(variant2 < carray1);
}
SECTION("Compare with different object") {
JsonObject object1 = doc.createNestedObject();
object1["a"] = 1;
object1["b"] = "hello1";
object1["c"][0] = false;
JsonObjectConst carray1 = object1;
JsonObject object2 = doc.createNestedObject();
object2["a"] = 1;
object2["b"] = "hello2";
object2["c"][0] = false;
JsonVariant variant2 = object2;
CHECK(carray1 != variant2);
CHECK_FALSE(carray1 == variant2);
CHECK_FALSE(carray1 > variant2);
CHECK_FALSE(carray1 < variant2);
CHECK_FALSE(carray1 <= variant2);
CHECK_FALSE(carray1 >= variant2);
CHECK(variant2 != carray1);
CHECK_FALSE(variant2 == carray1);
CHECK_FALSE(variant2 > carray1);
CHECK_FALSE(variant2 < carray1);
CHECK_FALSE(variant2 <= carray1);
CHECK_FALSE(variant2 >= carray1);
}
}

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libraries/ArduinoJson/extras/tests/JsonObject/containsKey.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::containsKey()") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
obj["hello"] = 42;
SECTION("returns true only if key is present") {
REQUIRE(false == obj.containsKey("world"));
REQUIRE(true == obj.containsKey("hello"));
}
SECTION("works with JsonObjectConst") {
JsonObjectConst cobj = obj;
REQUIRE(false == cobj.containsKey("world"));
REQUIRE(true == cobj.containsKey("hello"));
}
SECTION("returns false after remove()") {
obj.remove("hello");
REQUIRE(false == obj.containsKey("hello"));
}
#ifdef HAS_VARIABLE_LENGTH_ARRAY
SECTION("key is a VLA") {
size_t i = 16;
char vla[i];
strcpy(vla, "hello");
REQUIRE(true == obj.containsKey(vla));
}
#endif
}

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libraries/ArduinoJson/extras/tests/JsonObject/copy.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::set()") {
DynamicJsonDocument doc1(4096);
DynamicJsonDocument doc2(4096);
JsonObject obj1 = doc1.to<JsonObject>();
JsonObject obj2 = doc2.to<JsonObject>();
SECTION("doesn't copy static string in key or value") {
obj1["hello"] = "world";
bool success = obj2.set(obj1);
REQUIRE(success == true);
REQUIRE(doc1.memoryUsage() == doc2.memoryUsage());
REQUIRE(obj2["hello"] == std::string("world"));
}
SECTION("copy local string value") {
obj1["hello"] = std::string("world");
bool success = obj2.set(obj1);
REQUIRE(success == true);
REQUIRE(doc1.memoryUsage() == doc2.memoryUsage());
REQUIRE(obj2["hello"] == std::string("world"));
}
SECTION("copy local key") {
obj1[std::string("hello")] = "world";
bool success = obj2.set(obj1);
REQUIRE(success == true);
REQUIRE(doc1.memoryUsage() == doc2.memoryUsage());
REQUIRE(obj2["hello"] == std::string("world"));
}
SECTION("copy string from deserializeJson()") {
deserializeJson(doc1, "{'hello':'world'}");
bool success = obj2.set(obj1);
REQUIRE(success == true);
REQUIRE(doc1.memoryUsage() == doc2.memoryUsage());
REQUIRE(obj2["hello"] == std::string("world"));
}
SECTION("copy string from deserializeMsgPack()") {
deserializeMsgPack(doc1, "\x81\xA5hello\xA5world");
bool success = obj2.set(obj1);
REQUIRE(success == true);
REQUIRE(doc1.memoryUsage() == doc2.memoryUsage());
REQUIRE(obj2["hello"] == std::string("world"));
}
SECTION("should work with JsonObjectConst") {
obj1["hello"] = "world";
obj2.set(static_cast<JsonObjectConst>(obj1));
REQUIRE(doc1.memoryUsage() == doc2.memoryUsage());
REQUIRE(obj2["hello"] == std::string("world"));
}
SECTION("destination too small to store the key") {
StaticJsonDocument<JSON_OBJECT_SIZE(1)> doc3;
JsonObject obj3 = doc3.to<JsonObject>();
obj1[std::string("hello")] = "world";
bool success = obj3.set(obj1);
REQUIRE(success == false);
REQUIRE(doc3.as<std::string>() == "{}");
}
SECTION("destination too small to store the value") {
StaticJsonDocument<JSON_OBJECT_SIZE(1)> doc3;
JsonObject obj3 = doc3.to<JsonObject>();
obj1["hello"] = std::string("world");
bool success = obj3.set(obj1);
REQUIRE(success == false);
REQUIRE(doc3.as<std::string>() == "{\"hello\":null}");
}
SECTION("destination is null") {
JsonObject null;
obj1["hello"] = "world";
bool success = null.set(obj1);
REQUIRE(success == false);
}
SECTION("source is null") {
JsonObject null;
obj1["hello"] = "world";
bool success = obj1.set(null);
REQUIRE(success == false);
}
}

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libraries/ArduinoJson/extras/tests/JsonObject/createNestedArray.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::createNestedArray()") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
SECTION("key is a const char*") {
JsonArray arr = obj.createNestedArray("hello");
REQUIRE(arr.isNull() == false);
}
#ifdef HAS_VARIABLE_LENGTH_ARRAY
SECTION("key is a VLA") {
size_t i = 16;
char vla[i];
strcpy(vla, "hello");
JsonArray arr = obj.createNestedArray(vla);
REQUIRE(arr.isNull() == false);
}
#endif
}

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libraries/ArduinoJson/extras/tests/JsonObject/createNestedObject.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::createNestedObject()") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
SECTION("key is a const char*") {
obj.createNestedObject("hello");
}
#ifdef HAS_VARIABLE_LENGTH_ARRAY
SECTION("key is a VLA") {
size_t i = 16;
char vla[i];
strcpy(vla, "hello");
obj.createNestedObject(vla);
}
#endif
}

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libraries/ArduinoJson/extras/tests/JsonObject/equals.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::operator==()") {
DynamicJsonDocument doc1(4096);
JsonObject obj1 = doc1.to<JsonObject>();
JsonObjectConst obj1c = obj1;
DynamicJsonDocument doc2(4096);
JsonObject obj2 = doc2.to<JsonObject>();
JsonObjectConst obj2c = obj2;
SECTION("should return false when objs differ") {
obj1["hello"] = "coucou";
obj2["world"] = 1;
REQUIRE_FALSE(obj1 == obj2);
REQUIRE_FALSE(obj1c == obj2c);
}
SECTION("should return false when LHS has more elements") {
obj1["hello"] = "coucou";
obj1["world"] = 666;
obj2["hello"] = "coucou";
REQUIRE_FALSE(obj1 == obj2);
REQUIRE_FALSE(obj1c == obj2c);
}
SECTION("should return false when RKS has more elements") {
obj1["hello"] = "coucou";
obj2["hello"] = "coucou";
obj2["world"] = 666;
REQUIRE_FALSE(obj1 == obj2);
REQUIRE_FALSE(obj1c == obj2c);
}
SECTION("should return true when objs equal") {
obj1["hello"] = "world";
obj1["anwser"] = 42;
// insert in different order
obj2["anwser"] = 42;
obj2["hello"] = "world";
REQUIRE(obj1 == obj2);
REQUIRE(obj1c == obj2c);
}
SECTION("should return false when RHS is null") {
JsonObject null;
REQUIRE_FALSE(obj1 == null);
REQUIRE_FALSE(obj1c == null);
}
SECTION("should return false when LHS is null") {
JsonObject null;
REQUIRE_FALSE(null == obj2);
REQUIRE_FALSE(null == obj2c);
}
}

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libraries/ArduinoJson/extras/tests/JsonObject/invalid.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
using namespace Catch::Matchers;
TEST_CASE("JsonObject::invalid()") {
JsonObject obj;
SECTION("SubscriptFails") {
REQUIRE(obj["key"].isNull());
}
SECTION("AddFails") {
obj["hello"] = "world";
REQUIRE(0 == obj.size());
}
SECTION("CreateNestedArrayFails") {
REQUIRE(obj.createNestedArray("hello").isNull());
}
SECTION("CreateNestedObjectFails") {
REQUIRE(obj.createNestedObject("world").isNull());
}
SECTION("serialize to 'null'") {
char buffer[32];
serializeJson(obj, buffer, sizeof(buffer));
REQUIRE_THAT(buffer, Equals("null"));
}
}

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libraries/ArduinoJson/extras/tests/JsonObject/isNull.cpp Normal file
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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::isNull()") {
SECTION("returns true") {
JsonObject obj;
REQUIRE(obj.isNull() == true);
}
SECTION("returns false") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
REQUIRE(obj.isNull() == false);
}
}
TEST_CASE("JsonObjectConst::isNull()") {
SECTION("returns true") {
JsonObjectConst obj;
REQUIRE(obj.isNull() == true);
}
SECTION("returns false") {
DynamicJsonDocument doc(4096);
JsonObjectConst obj = doc.to<JsonObject>();
REQUIRE(obj.isNull() == false);
}
}
TEST_CASE("JsonObject::operator bool()") {
SECTION("returns false") {
JsonObject obj;
REQUIRE(static_cast<bool>(obj) == false);
}
SECTION("returns true") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
REQUIRE(static_cast<bool>(obj) == true);
}
}
TEST_CASE("JsonObjectConst::operator bool()") {
SECTION("returns false") {
JsonObjectConst obj;
REQUIRE(static_cast<bool>(obj) == false);
}
SECTION("returns true") {
DynamicJsonDocument doc(4096);
JsonObjectConst obj = doc.to<JsonObject>();
REQUIRE(static_cast<bool>(obj) == true);
}
}

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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
using namespace Catch::Matchers;
TEST_CASE("JsonObject::begin()/end()") {
StaticJsonDocument<JSON_OBJECT_SIZE(2)> doc;
JsonObject obj = doc.to<JsonObject>();
obj["ab"] = 12;
obj["cd"] = 34;
SECTION("NonConstIterator") {
JsonObject::iterator it = obj.begin();
REQUIRE(obj.end() != it);
REQUIRE(it->key() == "ab");
REQUIRE(12 == it->value());
++it;
REQUIRE(obj.end() != it);
REQUIRE(it->key() == "cd");
REQUIRE(34 == it->value());
++it;
REQUIRE(obj.end() == it);
}
SECTION("Dereferencing end() is safe") {
REQUIRE(obj.end()->key().isNull());
REQUIRE(obj.end()->value().isNull());
}
SECTION("null JsonObject") {
JsonObject null;
REQUIRE(null.begin() == null.end());
}
}
TEST_CASE("JsonObjectConst::begin()/end()") {
StaticJsonDocument<JSON_OBJECT_SIZE(2)> doc;
JsonObject obj = doc.to<JsonObject>();
obj["ab"] = 12;
obj["cd"] = 34;
JsonObjectConst cobj = obj;
SECTION("Iteration") {
JsonObjectConst::iterator it = cobj.begin();
REQUIRE(cobj.end() != it);
REQUIRE(it->key() == "ab");
REQUIRE(12 == it->value());
++it;
REQUIRE(cobj.end() != it);
JsonPairConst pair = *it;
REQUIRE(pair.key() == "cd");
REQUIRE(34 == pair.value());
++it;
REQUIRE(cobj.end() == it);
}
SECTION("Dereferencing end() is safe") {
REQUIRE(cobj.end()->key().isNull());
REQUIRE(cobj.end()->value().isNull());
}
SECTION("null JsonObjectConst") {
JsonObjectConst null;
REQUIRE(null.begin() == null.end());
}
}

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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
#include <string>
TEST_CASE("JsonObject::memoryUsage()") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
SECTION("return 0 if uninitialized") {
JsonObject unitialized;
REQUIRE(unitialized.memoryUsage() == 0);
}
SECTION("JSON_OBJECT_SIZE(0) for empty object") {
REQUIRE(obj.memoryUsage() == JSON_OBJECT_SIZE(0));
}
SECTION("JSON_OBJECT_SIZE(1) after add") {
obj["hello"] = 42;
REQUIRE(obj.memoryUsage() == JSON_OBJECT_SIZE(1));
}
SECTION("includes the size of the key") {
obj[std::string("hello")] = 42;
REQUIRE(obj.memoryUsage() == JSON_OBJECT_SIZE(1) + 6);
}
SECTION("includes the size of the nested array") {
JsonArray nested = obj.createNestedArray("nested");
nested.add(42);
REQUIRE(obj.memoryUsage() == JSON_OBJECT_SIZE(1) + JSON_ARRAY_SIZE(1));
}
SECTION("includes the size of the nested object") {
JsonObject nested = obj.createNestedObject("nested");
nested["hello"] = "world";
REQUIRE(obj.memoryUsage() == 2 * JSON_OBJECT_SIZE(1));
}
}

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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::nesting()") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
SECTION("return 0 if uninitialized") {
JsonObject unitialized;
REQUIRE(unitialized.nesting() == 0);
}
SECTION("returns 1 for empty object") {
REQUIRE(obj.nesting() == 1);
}
SECTION("returns 1 for flat object") {
obj["hello"] = "world";
REQUIRE(obj.nesting() == 1);
}
SECTION("returns 2 with nested array") {
obj.createNestedArray("nested");
REQUIRE(obj.nesting() == 2);
}
SECTION("returns 2 with nested object") {
obj.createNestedObject("nested");
REQUIRE(obj.nesting() == 2);
}
}

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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
#include <string>
TEST_CASE("JsonObject::remove()") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
obj["a"] = 0;
obj["b"] = 1;
obj["c"] = 2;
std::string result;
SECTION("remove(key)") {
SECTION("Remove first") {
obj.remove("a");
serializeJson(obj, result);
REQUIRE("{\"b\":1,\"c\":2}" == result);
}
SECTION("Remove middle") {
obj.remove("b");
serializeJson(obj, result);
REQUIRE("{\"a\":0,\"c\":2}" == result);
}
SECTION("Remove last") {
obj.remove("c");
serializeJson(obj, result);
REQUIRE("{\"a\":0,\"b\":1}" == result);
}
}
SECTION("remove(iterator)") {
JsonObject::iterator it = obj.begin();
SECTION("Remove first") {
obj.remove(it);
serializeJson(obj, result);
REQUIRE("{\"b\":1,\"c\":2}" == result);
}
SECTION("Remove middle") {
++it;
obj.remove(it);
serializeJson(obj, result);
REQUIRE("{\"a\":0,\"c\":2}" == result);
}
SECTION("Remove last") {
it += 2;
obj.remove(it);
serializeJson(obj, result);
REQUIRE("{\"a\":0,\"b\":1}" == result);
}
}
#ifdef HAS_VARIABLE_LENGTH_ARRAY
SECTION("key is a vla") {
size_t i = 16;
char vla[i];
strcpy(vla, "b");
obj.remove(vla);
serializeJson(obj, result);
REQUIRE("{\"a\":0,\"c\":2}" == result);
}
#endif
SECTION("remove by key on unbound reference") {
JsonObject unboundObject;
unboundObject.remove("key");
}
SECTION("remove by iterator on unbound reference") {
JsonObject unboundObject;
unboundObject.remove(unboundObject.begin());
}
}

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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
#include <string>
TEST_CASE("JsonObject::size()") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
SECTION("initial size is zero") {
REQUIRE(0 == obj.size());
}
SECTION("increases when values are added") {
obj["hello"] = 42;
REQUIRE(1 == obj.size());
}
SECTION("decreases when values are removed") {
obj["hello"] = 42;
obj.remove("hello");
REQUIRE(0 == obj.size());
}
SECTION("doesn't increase when the same key is added twice") {
obj["hello"] = 1;
obj["hello"] = 2;
REQUIRE(1 == obj.size());
}
SECTION("doesn't decrease when another key is removed") {
obj["hello"] = 1;
obj.remove("world");
REQUIRE(1 == obj.size());
}
}

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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
static void eraseString(std::string& str) {
char* p = const_cast<char*>(str.c_str());
while (*p)
*p++ = '*';
}
TEST_CASE("std::string") {
DynamicJsonDocument doc(4096);
SECTION("operator[]") {
char json[] = "{\"key\":\"value\"}";
deserializeJson(doc, json);
JsonObject obj = doc.as<JsonObject>();
REQUIRE(std::string("value") == obj[std::string("key")]);
}
SECTION("operator[] const") {
char json[] = "{\"key\":\"value\"}";
deserializeJson(doc, json);
JsonObject obj = doc.as<JsonObject>();
REQUIRE(std::string("value") == obj[std::string("key")]);
}
SECTION("createNestedObject()") {
JsonObject obj = doc.to<JsonObject>();
std::string key = "key";
char json[64];
obj.createNestedObject(key);
eraseString(key);
serializeJson(doc, json, sizeof(json));
REQUIRE(std::string("{\"key\":{}}") == json);
}
SECTION("createNestedArray()") {
JsonObject obj = doc.to<JsonObject>();
std::string key = "key";
char json[64];
obj.createNestedArray(key);
eraseString(key);
serializeJson(doc, json, sizeof(json));
REQUIRE(std::string("{\"key\":[]}") == json);
}
SECTION("containsKey()") {
char json[] = "{\"key\":\"value\"}";
deserializeJson(doc, json);
JsonObject obj = doc.as<JsonObject>();
REQUIRE(true == obj.containsKey(std::string("key")));
}
SECTION("remove()") {
JsonObject obj = doc.to<JsonObject>();
obj["key"] = "value";
obj.remove(std::string("key"));
REQUIRE(0 == obj.size());
}
SECTION("operator[], set key") {
std::string key("hello");
JsonObject obj = doc.to<JsonObject>();
obj[key] = "world";
eraseString(key);
REQUIRE(std::string("world") == obj["hello"]);
}
SECTION("operator[], set value") {
std::string value("world");
JsonObject obj = doc.to<JsonObject>();
obj["hello"] = value;
eraseString(value);
REQUIRE(std::string("world") == obj["hello"]);
}
SECTION("memoryUsage() increases when adding a new key") {
std::string key1("hello"), key2("world");
JsonObject obj = doc.to<JsonObject>();
obj[key1] = 1;
size_t sizeBefore = doc.memoryUsage();
obj[key2] = 2;
size_t sizeAfter = doc.memoryUsage();
REQUIRE(sizeAfter - sizeBefore >= key2.size());
}
SECTION("memoryUsage() remains when adding the same key") {
std::string key("hello");
JsonObject obj = doc.to<JsonObject>();
obj[key] = 1;
size_t sizeBefore = doc.memoryUsage();
obj[key] = 2;
size_t sizeAfter = doc.memoryUsage();
REQUIRE(sizeBefore == sizeAfter);
}
}

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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2023, Benoit BLANCHON
// MIT License
#include <ArduinoJson.h>
#include <catch.hpp>
TEST_CASE("JsonObject::operator[]") {
DynamicJsonDocument doc(4096);
JsonObject obj = doc.to<JsonObject>();
SECTION("int") {
obj["hello"] = 123;
REQUIRE(123 == obj["hello"].as<int>());
REQUIRE(true == obj["hello"].is<int>());
REQUIRE(false == obj["hello"].is<bool>());
}
SECTION("volatile int") { // issue #415
volatile int i = 123;
obj["hello"] = i;
REQUIRE(123 == obj["hello"].as<int>());
REQUIRE(true == obj["hello"].is<int>());
REQUIRE(false == obj["hello"].is<bool>());
}
SECTION("double") {
obj["hello"] = 123.45;
REQUIRE(true == obj["hello"].is<double>());
REQUIRE(false == obj["hello"].is<long>());
REQUIRE(123.45 == obj["hello"].as<double>());
}
SECTION("bool") {
obj["hello"] = true;
REQUIRE(true == obj["hello"].is<bool>());
REQUIRE(false == obj["hello"].is<long>());
REQUIRE(true == obj["hello"].as<bool>());
}
SECTION("const char*") {
obj["hello"] = "h3110";
REQUIRE(true == obj["hello"].is<const char*>());
REQUIRE(false == obj["hello"].is<long>());
REQUIRE(std::string("h3110") == obj["hello"].as<const char*>());
}
SECTION("array") {
DynamicJsonDocument doc2(4096);
JsonArray arr = doc2.to<JsonArray>();
obj["hello"] = arr;
REQUIRE(arr == obj["hello"].as<JsonArray>());
REQUIRE(true == obj["hello"].is<JsonArray>());
REQUIRE(false == obj["hello"].is<JsonObject>());
}
SECTION("object") {
DynamicJsonDocument doc2(4096);
JsonObject obj2 = doc2.to<JsonObject>();
obj["hello"] = obj2;
REQUIRE(obj2 == obj["hello"].as<JsonObject>());
REQUIRE(true == obj["hello"].is<JsonObject>());
REQUIRE(false == obj["hello"].is<JsonArray>());
}
SECTION("array subscript") {
DynamicJsonDocument doc2(4096);
JsonArray arr = doc2.to<JsonArray>();
arr.add(42);
obj["a"] = arr[0];
REQUIRE(42 == obj["a"]);
}
SECTION("object subscript") {
DynamicJsonDocument doc2(4096);
JsonObject obj2 = doc2.to<JsonObject>();
obj2["x"] = 42;
obj["a"] = obj2["x"];
REQUIRE(42 == obj["a"]);
}
SECTION("char key[]") { // issue #423
char key[] = "hello";
obj[key] = 42;
REQUIRE(42 == obj[key]);
}
SECTION("should not duplicate const char*") {
obj["hello"] = "world";
const size_t expectedSize = JSON_OBJECT_SIZE(1);
REQUIRE(expectedSize == doc.memoryUsage());
}
SECTION("should duplicate char* value") {
obj["hello"] = const_cast<char*>("world");
const size_t expectedSize = JSON_OBJECT_SIZE(1) + JSON_STRING_SIZE(5);
REQUIRE(expectedSize == doc.memoryUsage());
}
SECTION("should duplicate char* key") {
obj[const_cast<char*>("hello")] = "world";
const size_t expectedSize = JSON_OBJECT_SIZE(1) + JSON_STRING_SIZE(5);
REQUIRE(expectedSize == doc.memoryUsage());
}
SECTION("should duplicate char* key&value") {
obj[const_cast<char*>("hello")] = const_cast<char*>("world");
const size_t expectedSize = JSON_OBJECT_SIZE(1) + 2 * JSON_STRING_SIZE(5);
REQUIRE(expectedSize <= doc.memoryUsage());
}
SECTION("should duplicate std::string value") {
obj["hello"] = std::string("world");
const size_t expectedSize = JSON_OBJECT_SIZE(1) + JSON_STRING_SIZE(5);
REQUIRE(expectedSize == doc.memoryUsage());
}
SECTION("should duplicate std::string key") {
obj[std::string("hello")] = "world";
const size_t expectedSize = JSON_OBJECT_SIZE(1) + JSON_STRING_SIZE(5);
REQUIRE(expectedSize == doc.memoryUsage());
}
SECTION("should duplicate std::string key&value") {
obj[std::string("hello")] = std::string("world");
const size_t expectedSize = JSON_OBJECT_SIZE(1) + 2 * JSON_STRING_SIZE(5);
REQUIRE(expectedSize <= doc.memoryUsage());
}
SECTION("should duplicate a non-static JsonString key") {
obj[JsonString("hello", JsonString::Copied)] = "world";
const size_t expectedSize = JSON_OBJECT_SIZE(1) + JSON_STRING_SIZE(5);
REQUIRE(expectedSize == doc.memoryUsage());
}
SECTION("should not duplicate a static JsonString key") {
obj[JsonString("hello", JsonString::Linked)] = "world";
const size_t expectedSize = JSON_OBJECT_SIZE(1);
REQUIRE(expectedSize == doc.memoryUsage());
}
SECTION("should ignore null key") {
// object must have a value to make a call to strcmp()
obj["dummy"] = 42;
const char* null = 0;
obj[null] = 666;
REQUIRE(obj.size() == 1);
REQUIRE(obj[null] == null);
}
SECTION("obj[key].to<JsonArray>()") {
JsonArray arr = obj["hello"].to<JsonArray>();
REQUIRE(arr.isNull() == false);
}
#if defined(HAS_VARIABLE_LENGTH_ARRAY) && \
!defined(SUBSCRIPT_CONFLICTS_WITH_BUILTIN_OPERATOR)
SECTION("obj[VLA] = str") {
size_t i = 16;
char vla[i];
strcpy(vla, "hello");
obj[vla] = "world";
REQUIRE(std::string("world") == obj["hello"]);
}
SECTION("obj[str] = VLA") { // issue #416
size_t i = 32;
char vla[i];
strcpy(vla, "world");
obj["hello"] = vla;
REQUIRE(std::string("world") == obj["hello"].as<const char*>());
}
SECTION("obj.set(VLA, str)") {
size_t i = 16;
char vla[i];
strcpy(vla, "hello");
obj[vla] = "world";
REQUIRE(std::string("world") == obj["hello"]);
}
SECTION("obj.set(str, VLA)") {
size_t i = 32;
char vla[i];
strcpy(vla, "world");
obj["hello"].set(vla);
REQUIRE(std::string("world") == obj["hello"].as<const char*>());
}
SECTION("obj[VLA]") {
size_t i = 16;
char vla[i];
strcpy(vla, "hello");
deserializeJson(doc, "{\"hello\":\"world\"}");
obj = doc.as<JsonObject>();
REQUIRE(std::string("world") == obj[vla]);
}
#endif
SECTION("chain") {
obj.createNestedObject("hello")["world"] = 123;
REQUIRE(123 == obj["hello"]["world"].as<int>());
REQUIRE(true == obj["hello"]["world"].is<int>());
REQUIRE(false == obj["hello"]["world"].is<bool>());
}
}