/*----------------------------------------------------------------------------*/ /* Copyright (c) FIRST 2015. All Rights Reserved. */ /* Open Source Software - may be modified and shared by FRC teams. The code */ /* must be accompanied by the FIRST BSD license file in the root directory of */ /* the project. */ /*----------------------------------------------------------------------------*/ #include "Storage.h" #include #include "gtest/gtest.h" #include "gmock/gmock.h" namespace nt { class StorageTest : public ::testing::Test { public: StorageTest() { storage.EnableUpdates(); } Storage::EntriesMap& entries() { return storage.m_entries; } Storage::UpdateQueue& updates() { return storage.updates(); } Storage storage; }; class StorageTestPopulateOne : public StorageTest { public: StorageTestPopulateOne() { storage.SetEntryTypeValue("foo", Value::MakeBoolean(true)); while (!updates().empty()) updates().pop(); } }; class StorageTestPopulated : public StorageTest { public: StorageTestPopulated() { storage.SetEntryTypeValue("foo", Value::MakeBoolean(true)); storage.SetEntryTypeValue("foo2", Value::MakeDouble(0.0)); storage.SetEntryTypeValue("bar", Value::MakeDouble(1.0)); storage.SetEntryTypeValue("bar2", Value::MakeBoolean(false)); while (!updates().empty()) updates().pop(); } }; class StorageTestPersistent : public StorageTest { public: StorageTestPersistent() { storage.SetEntryTypeValue("boolean/true", Value::MakeBoolean(true)); storage.SetEntryTypeValue("boolean/false", Value::MakeBoolean(false)); storage.SetEntryTypeValue("double/neg", Value::MakeDouble(-1.5)); storage.SetEntryTypeValue("double/zero", Value::MakeDouble(0.0)); storage.SetEntryTypeValue("double/big", Value::MakeDouble(1.3e8)); storage.SetEntryTypeValue("string/empty", Value::MakeString("")); storage.SetEntryTypeValue("string/normal", Value::MakeString("hello")); storage.SetEntryTypeValue("string/special", Value::MakeString(StringRef("\0\3\5\n", 4))); storage.SetEntryTypeValue("raw/empty", Value::MakeRaw("")); storage.SetEntryTypeValue("raw/normal", Value::MakeRaw("hello")); storage.SetEntryTypeValue("raw/special", Value::MakeRaw(StringRef("\0\3\5\n", 4))); storage.SetEntryTypeValue("booleanarr/empty", Value::MakeBooleanArray(std::vector{})); storage.SetEntryTypeValue("booleanarr/one", Value::MakeBooleanArray(std::vector{1})); storage.SetEntryTypeValue("booleanarr/two", Value::MakeBooleanArray(std::vector{1, 0})); storage.SetEntryTypeValue("doublearr/empty", Value::MakeDoubleArray(std::vector{})); storage.SetEntryTypeValue("doublearr/one", Value::MakeDoubleArray(std::vector{0.5})); storage.SetEntryTypeValue( "doublearr/two", Value::MakeDoubleArray(std::vector{0.5, -0.25})); storage.SetEntryTypeValue( "stringarr/empty", Value::MakeStringArray(std::vector{})); storage.SetEntryTypeValue( "stringarr/one", Value::MakeStringArray(std::vector{"hello"})); storage.SetEntryTypeValue( "stringarr/two", Value::MakeStringArray(std::vector{"hello", "world\n"})); storage.SetEntryTypeValue(StringRef("\0\3\5\n", 4), Value::MakeBoolean(true)); while (!updates().empty()) updates().pop(); } }; class MockLoadWarn { public: MOCK_METHOD2(Warn, void(std::size_t line, const char* msg)); }; TEST_F(StorageTest, Construct) { ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, FindEntryNotExist) { ASSERT_FALSE(storage.FindEntry("foo")); ASSERT_TRUE(entries().empty()); } TEST_F(StorageTest, FindEntryExist) { auto entry1 = storage.GetEntry("foo"); auto entry = storage.FindEntry("foo"); ASSERT_TRUE(bool(entry)); ASSERT_EQ(entry1, entry); ASSERT_FALSE(storage.FindEntry("bar")); } TEST_F(StorageTest, GetEntryNotExist) { auto entry = storage.GetEntry("foo"); ASSERT_TRUE(bool(entry)); ASSERT_EQ(1u, entries().size()); EXPECT_FALSE(entry->value()); EXPECT_EQ(0u, entry->flags()); EXPECT_EQ(0xffffu, entry->id()); EXPECT_EQ(SequenceNumber(), entry->seq_num()); } TEST_F(StorageTest, GetEntryValueNotExist) { ASSERT_FALSE(storage.GetEntryValue("foo")); ASSERT_TRUE(entries().empty()); } TEST_F(StorageTest, GetEntryValueExist) { auto value = Value::MakeBoolean(true); storage.SetEntryTypeValue("foo", value); ASSERT_EQ(1u, updates().size()); updates().pop(); ASSERT_EQ(value, storage.GetEntryValue("foo")); } TEST_F(StorageTest, SetEntryTypeValueAssignNew) { // brand new entry auto value = Value::MakeBoolean(true); storage.SetEntryTypeValue("foo", value); auto entry = storage.GetEntry("foo"); EXPECT_EQ(value, entry->value()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kAssign, update.kind); } TEST_F(StorageTestPopulateOne, SetEntryTypeValueAssignTypeChange) { // update with different type results in assignment message auto value = Value::MakeDouble(0.0); storage.SetEntryTypeValue("foo", value); auto entry = storage.GetEntry("foo"); EXPECT_EQ(value, entry->value()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kAssign, update.kind); } TEST_F(StorageTestPopulateOne, SetEntryTypeValueEqualValue) { // update with same type and same value: change value contents but no update // message is issued (minimizing bandwidth usage) auto value = Value::MakeBoolean(true); storage.SetEntryTypeValue("foo", value); auto entry = storage.GetEntry("foo"); EXPECT_EQ(value, entry->value()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTestPopulateOne, SetEntryTypeValueDifferentValue) { // update with same type and different value results in value update message auto value = Value::MakeBoolean(false); storage.SetEntryTypeValue("foo", value); auto entry = storage.GetEntry("foo"); EXPECT_EQ(value, entry->value()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kValueUpdate, update.kind); } TEST_F(StorageTest, SetEntryTypeValueEmptyName) { auto value = Value::MakeBoolean(true); storage.SetEntryTypeValue("", value); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, SetEntryTypeValueEmptyValue) { storage.SetEntryTypeValue("foo", nullptr); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, SetEntryValueAssignNew) { // brand new entry auto value = Value::MakeBoolean(true); EXPECT_TRUE(storage.SetEntryValue("foo", value)); auto entry = storage.GetEntry("foo"); EXPECT_EQ(value, entry->value()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kAssign, update.kind); } TEST_F(StorageTestPopulateOne, SetEntryValueAssignTypeChange) { // update with different type results in error and no message auto value = Value::MakeDouble(0.0); EXPECT_FALSE(storage.SetEntryValue("foo", value)); auto entry = storage.GetEntry("foo"); EXPECT_NE(value, entry->value()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTestPopulateOne, SetEntryValueEqualValue) { // update with same type and same value: change value contents but no update // message is issued (minimizing bandwidth usage) auto value = Value::MakeBoolean(true); EXPECT_TRUE(storage.SetEntryValue("foo", value)); auto entry = storage.GetEntry("foo"); EXPECT_EQ(value, entry->value()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTestPopulateOne, SetEntryValueDifferentValue) { // update with same type and different value results in value update message auto value = Value::MakeBoolean(false); EXPECT_TRUE(storage.SetEntryValue("foo", value)); auto entry = storage.GetEntry("foo"); EXPECT_EQ(value, entry->value()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kValueUpdate, update.kind); } TEST_F(StorageTest, SetEntryValueEmptyName) { auto value = Value::MakeBoolean(true); EXPECT_TRUE(storage.SetEntryValue("", value)); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, SetEntryValueEmptyValue) { EXPECT_TRUE(storage.SetEntryValue("foo", nullptr)); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, SetEntryFlagsNew) { // flags setting doesn't create an entry storage.SetEntryFlags("foo", 0u); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTestPopulateOne, SetEntryFlagsEqualValue) { // update with same value: no update message is issued (minimizing bandwidth // usage) storage.SetEntryFlags("foo", 0u); auto entry = storage.GetEntry("foo"); EXPECT_EQ(0u, entry->flags()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTestPopulateOne, SetEntryFlagsDifferentValue) { // update with different value results in flags update message storage.SetEntryFlags("foo", 1u); auto entry = storage.GetEntry("foo"); EXPECT_EQ(1u, entry->flags()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kFlagsUpdate, update.kind); } TEST_F(StorageTest, SetEntryFlagsEmptyName) { storage.SetEntryFlags("", 0u); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, GetEntryFlagsNotExist) { ASSERT_EQ(0u, storage.GetEntryFlags("foo")); ASSERT_TRUE(entries().empty()); } TEST_F(StorageTestPopulateOne, GetEntryFlagsExist) { storage.SetEntryFlags("foo", 1u); while (!updates().empty()) updates().pop(); ASSERT_EQ(1u, storage.GetEntryFlags("foo")); } TEST_F(StorageTest, DeleteEntryNotExist) { storage.DeleteEntry("foo"); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTestPopulateOne, DeleteEntryExist) { auto entry = storage.GetEntry("foo"); storage.DeleteEntry("foo"); ASSERT_TRUE(entries().empty()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kDelete, update.kind); } TEST_F(StorageTest, DeleteAllEntriesEmpty) { storage.DeleteAllEntries(); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTestPopulated, DeleteAllEntries) { storage.DeleteAllEntries(); ASSERT_TRUE(entries().empty()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(nullptr, update.entry); EXPECT_EQ(Storage::Update::kDeleteAll, update.kind); } TEST_F(StorageTestPopulated, GetEntryInfoAll) { auto info = storage.GetEntryInfo("", 0u); ASSERT_EQ(4u, info.size()); } TEST_F(StorageTestPopulated, GetEntryInfoPrefix) { auto info = storage.GetEntryInfo("foo", 0u); ASSERT_EQ(2u, info.size()); if (info[0].name == "foo") { EXPECT_EQ("foo", info[0].name); EXPECT_EQ(NT_BOOLEAN, info[0].type); EXPECT_EQ("foo2", info[1].name); EXPECT_EQ(NT_DOUBLE, info[1].type); } else { EXPECT_EQ("foo2", info[0].name); EXPECT_EQ(NT_DOUBLE, info[0].type); EXPECT_EQ("foo", info[1].name); EXPECT_EQ(NT_BOOLEAN, info[1].type); } } TEST_F(StorageTestPopulated, GetEntryInfoTypes) { auto info = storage.GetEntryInfo("", NT_DOUBLE); ASSERT_EQ(2u, info.size()); EXPECT_EQ(NT_DOUBLE, info[0].type); EXPECT_EQ(NT_DOUBLE, info[1].type); if (info[0].name == "foo2") { EXPECT_EQ("foo2", info[0].name); EXPECT_EQ("bar", info[1].name); } else { EXPECT_EQ("bar", info[0].name); EXPECT_EQ("foo2", info[1].name); } } TEST_F(StorageTestPopulated, GetEntryInfoPrefixTypes) { auto info = storage.GetEntryInfo("bar", NT_BOOLEAN); ASSERT_EQ(1u, info.size()); EXPECT_EQ("bar2", info[0].name); EXPECT_EQ(NT_BOOLEAN, info[0].type); } TEST_F(StorageTestPersistent, SavePersistentEmpty) { std::ostringstream oss; storage.SavePersistent(oss); ASSERT_EQ("[NetworkTables Storage 3.0]\n", oss.str()); } TEST_F(StorageTestPersistent, SavePersistent) { for (auto& i : entries()) i.getValue()->set_flags(NT_PERSISTENT); std::ostringstream oss; storage.SavePersistent(oss); std::string out = oss.str(); //fputs(out.c_str(), stderr); llvm::StringRef line, rem = out; std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("[NetworkTables Storage 3.0]", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("boolean \"\\x00\\x03\\x05\\n\"=true", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("boolean \"boolean/false\"=false", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("boolean \"boolean/true\"=true", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array boolean \"booleanarr/empty\"=", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array boolean \"booleanarr/one\"=true", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array boolean \"booleanarr/two\"=true,false", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("double \"double/big\"=1.3e+08", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("double \"double/neg\"=-1.5", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("double \"double/zero\"=0", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array double \"doublearr/empty\"=", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array double \"doublearr/one\"=0.5", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array double \"doublearr/two\"=0.5,-0.25", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("raw \"raw/empty\"=", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("raw \"raw/normal\"=aGVsbG8=", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("raw \"raw/special\"=AAMFCg==", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("string \"string/empty\"=\"\"", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("string \"string/normal\"=\"hello\"", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("string \"string/special\"=\"\\x00\\x03\\x05\\n\"", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array string \"stringarr/empty\"=", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array string \"stringarr/one\"=\"hello\"", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("array string \"stringarr/two\"=\"hello\",\"world\\n\"", line); std::tie(line, rem) = rem.split('\n'); ASSERT_EQ("", line); } TEST_F(StorageTest, LoadPersistentBadHeader) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; std::istringstream iss(""); EXPECT_CALL(warn, Warn(1, "header line mismatch, ignoring rest of file")); EXPECT_FALSE(storage.LoadPersistent(iss, warn_func)); std::istringstream iss2("[NetworkTables"); EXPECT_CALL(warn, Warn(1, "header line mismatch, ignoring rest of file")); EXPECT_FALSE(storage.LoadPersistent(iss2, warn_func)); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, LoadPersistentCommentHeader) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; std::istringstream iss( "\n; comment\n# comment\n[NetworkTables Storage 3.0]\n"); EXPECT_TRUE(storage.LoadPersistent(iss, warn_func)); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, LoadPersistentEmptyName) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; std::istringstream iss( "[NetworkTables Storage 3.0]\nboolean \"\"=true\n"); EXPECT_TRUE(storage.LoadPersistent(iss, warn_func)); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } TEST_F(StorageTest, LoadPersistentAssign) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; std::istringstream iss( "[NetworkTables Storage 3.0]\nboolean \"foo\"=true\n"); EXPECT_TRUE(storage.LoadPersistent(iss, warn_func)); auto entry = storage.GetEntry("foo"); EXPECT_EQ(*Value::MakeBoolean(true), *entry->value()); EXPECT_EQ(NT_PERSISTENT, entry->flags()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kAssign, update.kind); } TEST_F(StorageTestPopulateOne, LoadPersistentUpdateFlags) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; std::istringstream iss( "[NetworkTables Storage 3.0]\nboolean \"foo\"=true\n"); EXPECT_TRUE(storage.LoadPersistent(iss, warn_func)); auto entry = storage.GetEntry("foo"); EXPECT_EQ(*Value::MakeBoolean(true), *entry->value()); EXPECT_EQ(NT_PERSISTENT, entry->flags()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kFlagsUpdate, update.kind); } TEST_F(StorageTestPopulateOne, LoadPersistentUpdateValue) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; storage.GetEntry("foo")->set_flags(NT_PERSISTENT); while (!updates().empty()) updates().pop(); std::istringstream iss( "[NetworkTables Storage 3.0]\nboolean \"foo\"=false\n"); EXPECT_TRUE(storage.LoadPersistent(iss, warn_func)); auto entry = storage.GetEntry("foo"); EXPECT_EQ(*Value::MakeBoolean(false), *entry->value()); EXPECT_EQ(NT_PERSISTENT, entry->flags()); ASSERT_EQ(1u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kValueUpdate, update.kind); } TEST_F(StorageTestPopulateOne, LoadPersistentUpdateValueFlags) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; std::istringstream iss( "[NetworkTables Storage 3.0]\nboolean \"foo\"=false\n"); EXPECT_TRUE(storage.LoadPersistent(iss, warn_func)); auto entry = storage.GetEntry("foo"); EXPECT_EQ(*Value::MakeBoolean(false), *entry->value()); EXPECT_EQ(NT_PERSISTENT, entry->flags()); ASSERT_EQ(2u, updates().size()); auto update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kValueUpdate, update.kind); update = updates().pop(); EXPECT_EQ(entry, update.entry); EXPECT_EQ(Storage::Update::kFlagsUpdate, update.kind); } TEST_F(StorageTest, LoadPersistent) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; std::string in = "[NetworkTables Storage 3.0]\n"; in += "boolean \"\\x00\\x03\\x05\\n\"=true\n"; in += "boolean \"boolean/false\"=false\n"; in += "boolean \"boolean/true\"=true\n"; in += "array boolean \"booleanarr/empty\"=\n"; in += "array boolean \"booleanarr/one\"=true\n"; in += "array boolean \"booleanarr/two\"=true,false\n"; in += "double \"double/big\"=1.3e+08\n"; in += "double \"double/neg\"=-1.5\n"; in += "double \"double/zero\"=0\n"; in += "array double \"doublearr/empty\"=\n"; in += "array double \"doublearr/one\"=0.5\n"; in += "array double \"doublearr/two\"=0.5,-0.25\n"; in += "raw \"raw/empty\"=\n"; in += "raw \"raw/normal\"=aGVsbG8=\n"; in += "raw \"raw/special\"=AAMFCg==\n"; in += "string \"string/empty\"=\"\"\n"; in += "string \"string/normal\"=\"hello\"\n"; in += "string \"string/special\"=\"\\x00\\x03\\x05\\n\"\n"; in += "array string \"stringarr/empty\"=\n"; in += "array string \"stringarr/one\"=\"hello\"\n"; in += "array string \"stringarr/two\"=\"hello\",\"world\\n\"\n"; std::istringstream iss(in); EXPECT_TRUE(storage.LoadPersistent(iss, warn_func)); ASSERT_EQ(21u, entries().size()); ASSERT_EQ(21u, updates().size()); EXPECT_EQ(*Value::MakeBoolean(true), *storage.GetEntryValue("boolean/true")); EXPECT_EQ(*Value::MakeBoolean(false), *storage.GetEntryValue("boolean/false")); EXPECT_EQ(*Value::MakeDouble(-1.5), *storage.GetEntryValue("double/neg")); EXPECT_EQ(*Value::MakeDouble(0.0), *storage.GetEntryValue("double/zero")); EXPECT_EQ(*Value::MakeDouble(1.3e8), *storage.GetEntryValue("double/big")); EXPECT_EQ(*Value::MakeString(""), *storage.GetEntryValue("string/empty")); EXPECT_EQ(*Value::MakeString("hello"), *storage.GetEntryValue("string/normal")); EXPECT_EQ(*Value::MakeString(StringRef("\0\3\5\n", 4)), *storage.GetEntryValue("string/special")); EXPECT_EQ(*Value::MakeRaw(""), *storage.GetEntryValue("raw/empty")); EXPECT_EQ(*Value::MakeRaw("hello"), *storage.GetEntryValue("raw/normal")); EXPECT_EQ(*Value::MakeRaw(StringRef("\0\3\5\n", 4)), *storage.GetEntryValue("raw/special")); EXPECT_EQ(*Value::MakeBooleanArray(std::vector{}), *storage.GetEntryValue("booleanarr/empty")); EXPECT_EQ(*Value::MakeBooleanArray(std::vector{1}), *storage.GetEntryValue("booleanarr/one")); EXPECT_EQ(*Value::MakeBooleanArray(std::vector{1, 0}), *storage.GetEntryValue("booleanarr/two")); EXPECT_EQ(*Value::MakeDoubleArray(std::vector{}), *storage.GetEntryValue("doublearr/empty")); EXPECT_EQ(*Value::MakeDoubleArray(std::vector{0.5}), *storage.GetEntryValue("doublearr/one")); EXPECT_EQ(*Value::MakeDoubleArray(std::vector{0.5, -0.25}), *storage.GetEntryValue("doublearr/two")); EXPECT_EQ(*Value::MakeStringArray(std::vector{}), *storage.GetEntryValue("stringarr/empty")); EXPECT_EQ(*Value::MakeStringArray(std::vector{"hello"}), *storage.GetEntryValue("stringarr/one")); EXPECT_EQ( *Value::MakeStringArray(std::vector{"hello", "world\n"}), *storage.GetEntryValue("stringarr/two")); EXPECT_EQ(*Value::MakeBoolean(true), *storage.GetEntryValue(StringRef("\0\3\5\n", 4))); } TEST_F(StorageTest, LoadPersistentWarn) { MockLoadWarn warn; auto warn_func = [&](std::size_t line, const char* msg) { warn.Warn(line, msg); }; std::istringstream iss( "[NetworkTables Storage 3.0]\nboolean \"foo\"=foo\n"); EXPECT_CALL(warn, Warn(2, "unrecognized boolean value, not 'true' or 'false'")); EXPECT_TRUE(storage.LoadPersistent(iss, warn_func)); ASSERT_TRUE(entries().empty()); ASSERT_TRUE(updates().empty()); } } // namespace nt