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Permet de lire les données de la passerelle enphase pour piloter la chauffe d'un cumulus via un relais statique.
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module_esp12_enphase/lib/ArduinoJson/extras/tests/JsonDocument/MemberProxy.cpp

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// ArduinoJson - https://arduinojson.org
// Copyright © 2014-2024, Benoit BLANCHON
// MIT License
#define ARDUINOJSON_ENABLE_ARDUINO_STRING 1
#define ARDUINOJSON_ENABLE_PROGMEM 1
#include <ArduinoJson.h>
#include <catch.hpp>
#include "Allocators.hpp"
using ArduinoJson::detail::sizeofArray;
using ArduinoJson::detail::sizeofObject;
typedef ArduinoJson::detail::MemberProxy<JsonDocument&, const char*>
MemberProxy;
TEST_CASE("MemberProxy::add()") {
JsonDocument doc;
MemberProxy mp = doc["hello"];
SECTION("add(int)") {
mp.add(42);
REQUIRE(doc.as<std::string>() == "{\"hello\":[42]}");
}
SECTION("add(const char*)") {
mp.add("world");
REQUIRE(doc.as<std::string>() == "{\"hello\":[\"world\"]}");
}
}
TEST_CASE("MemberProxy::clear()") {
JsonDocument doc;
MemberProxy mp = doc["hello"];
SECTION("size goes back to zero") {
mp.add(42);
mp.clear();
REQUIRE(mp.size() == 0);
}
SECTION("isNull() return true") {
mp.add("hello");
mp.clear();
REQUIRE(mp.isNull() == true);
}
}
TEST_CASE("MemberProxy::operator==()") {
JsonDocument doc;
SECTION("1 vs 1") {
doc["a"] = 1;
doc["b"] = 1;
REQUIRE(doc["a"] <= doc["b"]);
REQUIRE(doc["a"] == doc["b"]);
REQUIRE(doc["a"] >= doc["b"]);
REQUIRE_FALSE(doc["a"] != doc["b"]);
REQUIRE_FALSE(doc["a"] < doc["b"]);
REQUIRE_FALSE(doc["a"] > doc["b"]);
}
SECTION("1 vs 2") {
doc["a"] = 1;
doc["b"] = 2;
REQUIRE(doc["a"] != doc["b"]);
REQUIRE(doc["a"] < doc["b"]);
REQUIRE(doc["a"] <= doc["b"]);
REQUIRE_FALSE(doc["a"] == doc["b"]);
REQUIRE_FALSE(doc["a"] > doc["b"]);
REQUIRE_FALSE(doc["a"] >= doc["b"]);
}
SECTION("'abc' vs 'bcd'") {
doc["a"] = "abc";
doc["b"] = "bcd";
REQUIRE(doc["a"] != doc["b"]);
REQUIRE(doc["a"] < doc["b"]);
REQUIRE(doc["a"] <= doc["b"]);
REQUIRE_FALSE(doc["a"] == doc["b"]);
REQUIRE_FALSE(doc["a"] > doc["b"]);
REQUIRE_FALSE(doc["a"] >= doc["b"]);
}
}
TEST_CASE("MemberProxy::containsKey()") {
JsonDocument doc;
MemberProxy mp = doc["hello"];
SECTION("containsKey(const char*)") {
mp["key"] = "value";
REQUIRE(mp.containsKey("key") == true);
REQUIRE(mp.containsKey("key") == true);
}
SECTION("containsKey(std::string)") {
mp["key"] = "value";
REQUIRE(mp.containsKey(std::string("key")) == true);
REQUIRE(mp.containsKey(std::string("key")) == true);
}
}
TEST_CASE("MemberProxy::operator|()") {
JsonDocument doc;
SECTION("const char*") {
doc["a"] = "hello";
REQUIRE((doc["a"] | "world") == std::string("hello"));
REQUIRE((doc["b"] | "world") == std::string("world"));
}
SECTION("Issue #1411") {
doc["sensor"] = "gps";
const char* test = "test"; // <- the literal must be captured in a variable
// to trigger the bug
const char* sensor = doc["sensor"] | test; // "gps"
REQUIRE(sensor == std::string("gps"));
}
SECTION("Issue #1415") {
JsonObject object = doc.to<JsonObject>();
object["hello"] = "world";
JsonDocument emptyDoc;
JsonObject anotherObject = object["hello"] | emptyDoc.to<JsonObject>();
REQUIRE(anotherObject.isNull() == false);
REQUIRE(anotherObject.size() == 0);
}
}
TEST_CASE("MemberProxy::remove()") {
JsonDocument doc;
MemberProxy mp = doc["hello"];
SECTION("remove(int)") {
mp.add(1);
mp.add(2);
mp.add(3);
mp.remove(1);
REQUIRE(mp.as<std::string>() == "[1,3]");
}
SECTION("remove(const char *)") {
mp["a"] = 1;
mp["b"] = 2;
mp.remove("a");
REQUIRE(mp.as<std::string>() == "{\"b\":2}");
}
SECTION("remove(std::string)") {
mp["a"] = 1;
mp["b"] = 2;
mp.remove(std::string("b"));
REQUIRE(mp.as<std::string>() == "{\"a\":1}");
}
#ifdef HAS_VARIABLE_LENGTH_ARRAY
SECTION("remove(vla)") {
mp["a"] = 1;
mp["b"] = 2;
size_t i = 4;
char vla[i];
strcpy(vla, "b");
mp.remove(vla);
REQUIRE(mp.as<std::string>() == "{\"a\":1}");
}
#endif
}
TEST_CASE("MemberProxy::set()") {
JsonDocument doc;
MemberProxy mp = doc["hello"];
SECTION("set(int)") {
mp.set(42);
REQUIRE(doc.as<std::string>() == "{\"hello\":42}");
}
SECTION("set(const char*)") {
mp.set("world");
REQUIRE(doc.as<std::string>() == "{\"hello\":\"world\"}");
}
SECTION("set(char[])") { // issue #1191
char s[] = "world";
mp.set(s);
strcpy(s, "!!!!!");
REQUIRE(doc.as<std::string>() == "{\"hello\":\"world\"}");
}
}
TEST_CASE("MemberProxy::size()") {
JsonDocument doc;
MemberProxy mp = doc["hello"];
SECTION("returns 0") {
REQUIRE(mp.size() == 0);
}
SECTION("as an array, return 2") {
mp.add(1);
mp.add(2);
REQUIRE(mp.size() == 2);
}
SECTION("as an object, return 2") {
mp["a"] = 1;
mp["b"] = 2;
REQUIRE(mp.size() == 2);
}
}
TEST_CASE("MemberProxy::operator[]") {
JsonDocument doc;
MemberProxy mp = doc["hello"];
SECTION("set member") {
mp["world"] = 42;
REQUIRE(doc.as<std::string>() == "{\"hello\":{\"world\":42}}");
}
SECTION("set element") {
mp[2] = 42;
REQUIRE(doc.as<std::string>() == "{\"hello\":[null,null,42]}");
}
}
TEST_CASE("MemberProxy cast to JsonVariantConst") {
JsonDocument doc;
doc["hello"] = "world";
const MemberProxy mp = doc["hello"];
JsonVariantConst var = mp;
CHECK(var.as<std::string>() == "world");
}
TEST_CASE("MemberProxy cast to JsonVariant") {
JsonDocument doc;
doc["hello"] = "world";
MemberProxy mp = doc["hello"];
JsonVariant var = mp;
CHECK(var.as<std::string>() == "world");
var.set("toto");
CHECK(doc.as<std::string>() == "{\"hello\":\"toto\"}");
}
TEST_CASE("Deduplicate keys") {
SpyingAllocator spy;
JsonDocument doc(&spy);
SECTION("std::string") {
doc[0][std::string("example")] = 1;
doc[1][std::string("example")] = 2;
const char* key1 = doc[0].as<JsonObject>().begin()->key().c_str();
const char* key2 = doc[1].as<JsonObject>().begin()->key().c_str();
CHECK(key1 == key2);
REQUIRE(spy.log() == AllocatorLog{
Allocate(sizeofPool()),
Allocate(sizeofString("example")),
});
}
SECTION("char*") {
char key[] = "example";
doc[0][key] = 1;
doc[1][key] = 2;
const char* key1 = doc[0].as<JsonObject>().begin()->key().c_str();
const char* key2 = doc[1].as<JsonObject>().begin()->key().c_str();
CHECK(key1 == key2);
REQUIRE(spy.log() == AllocatorLog{
Allocate(sizeofPool()),
Allocate(sizeofString("example")),
});
}
SECTION("Arduino String") {
doc[0][String("example")] = 1;
doc[1][String("example")] = 2;
const char* key1 = doc[0].as<JsonObject>().begin()->key().c_str();
const char* key2 = doc[1].as<JsonObject>().begin()->key().c_str();
CHECK(key1 == key2);
REQUIRE(spy.log() == AllocatorLog{
Allocate(sizeofPool()),
Allocate(sizeofString("example")),
});
}
SECTION("Flash string") {
doc[0][F("example")] = 1;
doc[1][F("example")] = 2;
const char* key1 = doc[0].as<JsonObject>().begin()->key().c_str();
const char* key2 = doc[1].as<JsonObject>().begin()->key().c_str();
CHECK(key1 == key2);
REQUIRE(spy.log() == AllocatorLog{
Allocate(sizeofPool()),
Allocate(sizeofString("example")),
});
}
}
TEST_CASE("MemberProxy under memory constraints") {
KillswitchAllocator killswitch;
SpyingAllocator spy(&killswitch);
JsonDocument doc(&spy);
SECTION("key allocation fails") {
killswitch.on();
doc[std::string("hello")] = "world";
REQUIRE(doc.is<JsonObject>());
REQUIRE(doc.size() == 0);
REQUIRE(doc.overflowed() == true);
REQUIRE(spy.log() == AllocatorLog{
AllocateFail(sizeofString("hello")),
});
}
}