// ArduinoJson - https://arduinojson.org // Copyright © 2014-2024, Benoit BLANCHON // MIT License #define ARDUINOJSON_ENABLE_PROGMEM 1 #include #include TEST_CASE("Flash strings") { JsonDocument doc; SECTION("deserializeJson()") { DeserializationError err = deserializeJson(doc, F("{'hello':'world'}")); REQUIRE(err == DeserializationError::Ok); REQUIRE(doc["hello"] == "world"); } SECTION("JsonDocument::operator[]") { doc[F("hello")] = F("world"); REQUIRE(doc["hello"] == "world"); } SECTION("JsonDocument::add()") { doc.add(F("world")); REQUIRE(doc[0] == "world"); } SECTION("JsonVariant::set()") { JsonVariant var = doc.to(); var.set(F("world")); REQUIRE(var == "world"); } SECTION("MemberProxy::operator==") { doc["hello"] = "world"; REQUIRE(doc["hello"] == F("world")); } SECTION("ElementProxy::operator==") { doc.add("world"); REQUIRE(doc[0] == F("world")); } } TEST_CASE("parseNumber()") { // tables are in Flash using ArduinoJson::detail::parseNumber; CHECK(parseNumber("1") == 1.f); CHECK(parseNumber("1.23") == 1.23f); CHECK(parseNumber("-1.23e34") == -1.23e34f); } TEST_CASE("strlen_P") { CHECK(strlen_P(PSTR("")) == 0); CHECK(strlen_P(PSTR("a")) == 1); CHECK(strlen_P(PSTR("ac")) == 2); } TEST_CASE("strncmp_P") { CHECK(strncmp_P("a", PSTR("b"), 0) == 0); CHECK(strncmp_P("a", PSTR("b"), 1) == -1); CHECK(strncmp_P("b", PSTR("a"), 1) == 1); CHECK(strncmp_P("a", PSTR("a"), 0) == 0); CHECK(strncmp_P("a", PSTR("b"), 2) == -1); CHECK(strncmp_P("b", PSTR("a"), 2) == 1); CHECK(strncmp_P("a", PSTR("a"), 2) == 0); } TEST_CASE("strcmp_P") { CHECK(strcmp_P("a", PSTR("b")) == -1); CHECK(strcmp_P("b", PSTR("a")) == 1); CHECK(strcmp_P("a", PSTR("a")) == 0); CHECK(strcmp_P("aa", PSTR("ab")) == -1); CHECK(strcmp_P("ab", PSTR("aa")) == 1); CHECK(strcmp_P("aa", PSTR("aa")) == 0); } TEST_CASE("memcpy_P") { char dst[4]; CHECK(memcpy_P(dst, PSTR("ABC"), 4) == dst); CHECK(dst[0] == 'A'); CHECK(dst[1] == 'B'); CHECK(dst[2] == 'C'); CHECK(dst[3] == 0); } TEST_CASE("BoundedReader") { using namespace ArduinoJson::detail; SECTION("read") { BoundedReader reader(F("\x01\xFF"), 2); REQUIRE(reader.read() == 0x01); REQUIRE(reader.read() == 0xFF); REQUIRE(reader.read() == -1); REQUIRE(reader.read() == -1); } SECTION("readBytes() all at once") { BoundedReader reader(F("ABCD"), 3); char buffer[8] = "abcd"; REQUIRE(reader.readBytes(buffer, 4) == 3); REQUIRE(buffer[0] == 'A'); REQUIRE(buffer[1] == 'B'); REQUIRE(buffer[2] == 'C'); REQUIRE(buffer[3] == 'd'); } SECTION("readBytes() in two parts") { BoundedReader reader(F("ABCDEF"), 6); char buffer[8] = "abcdefg"; REQUIRE(reader.readBytes(buffer, 4) == 4); REQUIRE(reader.readBytes(buffer + 4, 4) == 2); REQUIRE(buffer[0] == 'A'); REQUIRE(buffer[1] == 'B'); REQUIRE(buffer[2] == 'C'); REQUIRE(buffer[3] == 'D'); REQUIRE(buffer[4] == 'E'); REQUIRE(buffer[5] == 'F'); REQUIRE(buffer[6] == 'g'); } } TEST_CASE("Reader") { using namespace ArduinoJson::detail; SECTION("read()") { Reader reader(F("\x01\xFF\x00\x12")); REQUIRE(reader.read() == 0x01); REQUIRE(reader.read() == 0xFF); REQUIRE(reader.read() == 0); REQUIRE(reader.read() == 0x12); } SECTION("readBytes() all at once") { Reader reader(F("ABCD")); char buffer[8] = "abcd"; REQUIRE(reader.readBytes(buffer, 3) == 3); REQUIRE(buffer[0] == 'A'); REQUIRE(buffer[1] == 'B'); REQUIRE(buffer[2] == 'C'); REQUIRE(buffer[3] == 'd'); } SECTION("readBytes() in two parts") { Reader reader(F("ABCDEF")); char buffer[8] = "abcdefg"; REQUIRE(reader.readBytes(buffer, 4) == 4); REQUIRE(reader.readBytes(buffer + 4, 2) == 2); REQUIRE(buffer[0] == 'A'); REQUIRE(buffer[1] == 'B'); REQUIRE(buffer[2] == 'C'); REQUIRE(buffer[3] == 'D'); REQUIRE(buffer[4] == 'E'); REQUIRE(buffer[5] == 'F'); REQUIRE(buffer[6] == 'g'); } } static void testStringification(DeserializationError error, std::string expected) { const __FlashStringHelper* s = error.f_str(); CHECK(reinterpret_cast(convertFlashToPtr(s)) == expected); } #define TEST_STRINGIFICATION(symbol) \ testStringification(DeserializationError::symbol, #symbol) TEST_CASE("DeserializationError::f_str()") { TEST_STRINGIFICATION(Ok); TEST_STRINGIFICATION(EmptyInput); TEST_STRINGIFICATION(IncompleteInput); TEST_STRINGIFICATION(InvalidInput); TEST_STRINGIFICATION(NoMemory); TEST_STRINGIFICATION(TooDeep); }