//////////////////////////////////////////////////////////////////////////////// /// DISCLAIMER /// /// Copyright 2017 ArangoDB GmbH, Cologne, Germany /// /// Licensed under the Apache License, Version 2.0 (the "License"); /// you may not use this file except in compliance with the License. /// You may obtain a copy of the License at /// /// http://www.apache.org/licenses/LICENSE-2.0 /// /// Unless required by applicable law or agreed to in writing, software /// distributed under the License is distributed on an "AS IS" BASIS, /// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. /// See the License for the specific language governing permissions and /// limitations under the License. /// /// Copyright holder is ArangoDB GmbH, Cologne, Germany /// /// @author Andrey Abramov /// @author Vasiliy Nabatchikov //////////////////////////////////////////////////////////////////////////////// #include "catch.hpp" #include "common.h" #include "StorageEngineMock.h" #if USE_ENTERPRISE #include "Enterprise/Ldap/LdapFeature.h" #endif #include "V8/v8-globals.h" #include "VocBase/LogicalCollection.h" #include "VocBase/LogicalView.h" #include "Transaction/StandaloneContext.h" #include "Utils/OperationOptions.h" #include "Utils/SingleCollectionTransaction.h" #include "Aql/AqlFunctionFeature.h" #include "Aql/OptimizerRulesFeature.h" #include "GeneralServer/AuthenticationFeature.h" #include "IResearch/IResearchCommon.h" #include "IResearch/IResearchFeature.h" #include "IResearch/IResearchFilterFactory.h" #include "IResearch/IResearchView.h" #include "IResearch/IResearchAnalyzerFeature.h" #include "Logger/Logger.h" #include "Logger/LogTopic.h" #include "StorageEngine/EngineSelectorFeature.h" #include "RestServer/DatabasePathFeature.h" #include "RestServer/ViewTypesFeature.h" #include "RestServer/AqlFeature.h" #include "RestServer/DatabaseFeature.h" #include "RestServer/QueryRegistryFeature.h" #include "RestServer/SystemDatabaseFeature.h" #include "RestServer/TraverserEngineRegistryFeature.h" #include "Sharding/ShardingFeature.h" #include "Basics/VelocyPackHelper.h" #include "Aql/Ast.h" #include "Aql/Query.h" #include "3rdParty/iresearch/tests/tests_config.hpp" #include "IResearch/VelocyPackHelper.h" #include "analysis/analyzers.hpp" #include "analysis/token_attributes.hpp" #include "utils/utf8_path.hpp" #include extern const char* ARGV0; // defined in main.cpp NS_LOCAL // ----------------------------------------------------------------------------- // --SECTION-- setup / tear-down // ----------------------------------------------------------------------------- struct IResearchQueryPhraseSetup { StorageEngineMock engine; arangodb::application_features::ApplicationServer server; std::unique_ptr system; std::vector> features; IResearchQueryPhraseSetup(): engine(server), server(nullptr, nullptr) { arangodb::EngineSelectorFeature::ENGINE = &engine; arangodb::tests::init(true); // suppress INFO {authentication} Authentication is turned on (system only), authentication for unix sockets is turned on arangodb::LogTopic::setLogLevel(arangodb::Logger::AUTHENTICATION.name(), arangodb::LogLevel::WARN); // suppress log messages since tests check error conditions arangodb::LogTopic::setLogLevel(arangodb::Logger::FIXME.name(), arangodb::LogLevel::ERR); // suppress WARNING DefaultCustomTypeHandler called arangodb::LogTopic::setLogLevel(arangodb::iresearch::TOPIC.name(), arangodb::LogLevel::FATAL); irs::logger::output_le(iresearch::logger::IRL_FATAL, stderr); // setup required application features features.emplace_back(new arangodb::ViewTypesFeature(server), true); features.emplace_back(new arangodb::AuthenticationFeature(server), true); features.emplace_back(new arangodb::DatabasePathFeature(server), false); features.emplace_back(new arangodb::DatabaseFeature(server), false); features.emplace_back(new arangodb::ShardingFeature(server), false); features.emplace_back(new arangodb::QueryRegistryFeature(server), false); // must be first arangodb::application_features::ApplicationServer::server->addFeature(features.back().first); // need QueryRegistryFeature feature to be added now in order to create the system database system = irs::memory::make_unique(TRI_vocbase_type_e::TRI_VOCBASE_TYPE_NORMAL, 0, TRI_VOC_SYSTEM_DATABASE); features.emplace_back(new arangodb::SystemDatabaseFeature(server, system.get()), false); // required for IResearchAnalyzerFeature features.emplace_back(new arangodb::TraverserEngineRegistryFeature(server), false); // must be before AqlFeature features.emplace_back(new arangodb::AqlFeature(server), true); features.emplace_back(new arangodb::aql::OptimizerRulesFeature(server), true); features.emplace_back(new arangodb::aql::AqlFunctionFeature(server), true); // required for IResearchAnalyzerFeature features.emplace_back(new arangodb::iresearch::IResearchAnalyzerFeature(server), true); features.emplace_back(new arangodb::iresearch::IResearchFeature(server), true); #if USE_ENTERPRISE features.emplace_back(new arangodb::LdapFeature(server), false); // required for AuthenticationFeature with USE_ENTERPRISE #endif for (auto& f : features) { arangodb::application_features::ApplicationServer::server->addFeature(f.first); } for (auto& f : features) { f.first->prepare(); } for (auto& f : features) { if (f.second) { f.first->start(); } } auto* analyzers = arangodb::application_features::ApplicationServer::lookupFeature< arangodb::iresearch::IResearchAnalyzerFeature >(); analyzers->emplace( "test_analyzer", "TestAnalyzer", "abc", irs::flags{ irs::frequency::type(), irs::position::type() } // required for PHRASE ); // cache analyzer analyzers->emplace( "test_csv_analyzer", "TestDelimAnalyzer", "," ); // cache analyzer auto* dbPathFeature = arangodb::application_features::ApplicationServer::getFeature("DatabasePath"); arangodb::tests::setDatabasePath(*dbPathFeature); // ensure test data is stored in a unique directory } ~IResearchQueryPhraseSetup() { system.reset(); // destroy before reseting the 'ENGINE' arangodb::AqlFeature(server).stop(); // unset singleton instance arangodb::LogTopic::setLogLevel(arangodb::iresearch::TOPIC.name(), arangodb::LogLevel::DEFAULT); arangodb::LogTopic::setLogLevel(arangodb::Logger::FIXME.name(), arangodb::LogLevel::DEFAULT); arangodb::application_features::ApplicationServer::server = nullptr; arangodb::EngineSelectorFeature::ENGINE = nullptr; // destroy application features for (auto& f : features) { if (f.second) { f.first->stop(); } } for (auto& f : features) { f.first->unprepare(); } arangodb::LogTopic::setLogLevel(arangodb::Logger::AUTHENTICATION.name(), arangodb::LogLevel::DEFAULT); } }; // IResearchQuerySetup NS_END // ----------------------------------------------------------------------------- // --SECTION-- test suite // ----------------------------------------------------------------------------- //////////////////////////////////////////////////////////////////////////////// /// @brief setup //////////////////////////////////////////////////////////////////////////////// TEST_CASE("IResearchQueryTestPhrase", "[iresearch][iresearch-query]") { IResearchQueryPhraseSetup s; UNUSED(s); TRI_vocbase_t vocbase(TRI_vocbase_type_e::TRI_VOCBASE_TYPE_NORMAL, 1, "testVocbase"); std::vector insertedDocs; arangodb::LogicalView* view; // create collection0 { auto createJson = arangodb::velocypack::Parser::fromJson("{ \"name\": \"testCollection0\" }"); auto collection = vocbase.createCollection(createJson->slice()); REQUIRE((nullptr != collection)); std::vector> docs { arangodb::velocypack::Parser::fromJson("{ \"seq\": -6, \"value\": null }"), arangodb::velocypack::Parser::fromJson("{ \"seq\": -5, \"value\": true }"), arangodb::velocypack::Parser::fromJson("{ \"seq\": -4, \"value\": \"abc\" }"), arangodb::velocypack::Parser::fromJson("{ \"seq\": -3, \"value\": 3.14 }"), arangodb::velocypack::Parser::fromJson("{ \"seq\": -2, \"value\": [ 1, \"abc\" ] }"), arangodb::velocypack::Parser::fromJson("{ \"seq\": -1, \"value\": { \"a\": 7, \"b\": \"c\" } }"), }; arangodb::OperationOptions options; options.returnNew = true; arangodb::SingleCollectionTransaction trx( arangodb::transaction::StandaloneContext::Create(vocbase), *collection, arangodb::AccessMode::Type::WRITE ); CHECK((trx.begin().ok())); for (auto& entry: docs) { auto res = trx.insert(collection->name(), entry->slice(), options); CHECK((res.ok())); insertedDocs.emplace_back(res.slice().get("new")); } CHECK((trx.commit().ok())); } // create collection1 { auto createJson = arangodb::velocypack::Parser::fromJson("{ \"name\": \"testCollection1\" }"); auto collection = vocbase.createCollection(createJson->slice()); REQUIRE((nullptr != collection)); irs::utf8_path resource; resource/=irs::string_ref(IResearch_test_resource_dir); resource/=irs::string_ref("simple_sequential.json"); auto builder = arangodb::basics::VelocyPackHelper::velocyPackFromFile(resource.utf8()); auto slice = builder.slice(); REQUIRE(slice.isArray()); arangodb::OperationOptions options; options.returnNew = true; arangodb::SingleCollectionTransaction trx( arangodb::transaction::StandaloneContext::Create(vocbase), *collection, arangodb::AccessMode::Type::WRITE ); CHECK((trx.begin().ok())); for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto res = trx.insert(collection->name(), itr.value(), options); CHECK((res.ok())); insertedDocs.emplace_back(res.slice().get("new")); } CHECK((trx.commit().ok())); } // create view { auto createJson = arangodb::velocypack::Parser::fromJson("{ \"name\": \"testView\", \"type\": \"arangosearch\" }"); auto logicalView = vocbase.createView(createJson->slice()); REQUIRE((false == !logicalView)); view = logicalView.get(); auto* impl = dynamic_cast(view); REQUIRE((false == !impl)); auto updateJson = arangodb::velocypack::Parser::fromJson( "{ \"links\": {" "\"testCollection0\": { \"analyzers\": [ \"test_analyzer\", \"identity\" ], \"includeAllFields\": true, \"trackListPositions\": true }," "\"testCollection1\": { \"analyzers\": [ \"test_analyzer\", \"identity\" ], \"includeAllFields\": true }" "}}" ); CHECK((impl->properties(updateJson->slice(), true).ok())); std::set cids; impl->visitCollections([&cids](TRI_voc_cid_t cid)->bool { cids.emplace(cid); return true; }); CHECK((2 == cids.size())); CHECK(impl->commit().ok()); } // test missing field { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.missing, 'abc') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test missing field via [] { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['missing'], 'abc') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test invalid column type { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.seq, '0') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test invalid column type via [] { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['seq'], '0') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test invalid input type (empty-array) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.value, [ ]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (empty-array) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['value'], [ ]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (array) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.value, [ 1, \"abc\" ]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (array) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['value'], [ 1, \"abc\" ]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (boolean) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.value, true) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (boolean) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['value'], false) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (null) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.value, null) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (null) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['value'], null) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (numeric) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.value, 3.14) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (numeric) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['value'], 1234) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (object) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.value, { \"a\": 7, \"b\": \"c\" }) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid input type (object) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['value'], { \"a\": 7, \"b\": \"c\" }) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test missing value { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.value) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH == result.code); } // test missing value via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['value']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH == result.code); } // test invalid analyzer type (array) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d.duplicated, 'z'), [ 1, \"abc\" ]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (array) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], 'z'), [ 1, \"abc\" ]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (boolean) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d.duplicated, 'z'), true) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (boolean) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d['duplicated'], 'z'), false) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (null) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d.duplicated, 'z'), null) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (null) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d['duplicated'], 'z'), null) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (numeric) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d.duplicated, 'z'), 3.14) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (numeric) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d['duplicated'], 'z'), 1234) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (object) { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d.duplicated, 'z'), { \"a\": 7, \"b\": \"c\" }) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test invalid analyzer type (object) via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d['duplicated'], 'z'), { \"a\": 7, \"b\": \"c\" }) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test undefined analyzer { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d.duplicated, 'z'), 'invalid_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test undefined analyzer via [] { auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], 'z'), 'invalid_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_QUERY_PARSE == result.code); } // test custom analyzer { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d.duplicated, 'z'), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.duplicated, 'z', 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer via [] { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH analyzer(PHRASE(d['duplicated'], 'z'), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d.duplicated, 'v', 1, 'z'), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d.duplicated, 'v', 1, 'z', 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets via [] { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], 'v', 2, 'c'), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets via [] { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], 'v', 2, 'c', 'test_analyzer'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets (no match) { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d.duplicated, 'v', 0, 'z'), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets (no match) via [] { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], 'v', 1, 'c'), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with [ phrase ] arg { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d.duplicated, [ 'z' ]), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer via [] with [ phrase ] arg { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], [ 'z' ]), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets with [ phrase ] arg { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d.duplicated, [ 'v', 1, 'z' ]), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets via [] with [ phrase ] arg { std::vector expected = { insertedDocs[7].slice(), insertedDocs[8].slice(), insertedDocs[13].slice(), insertedDocs[19].slice(), insertedDocs[22].slice(), insertedDocs[24].slice(), insertedDocs[29].slice(), }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], [ 'v', 2, 'c' ]), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets (no match) with [ phrase ] arg { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d.duplicated, [ 'v', 0, 'z' ]), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets (no match) via [] with [ phrase ] arg { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], [ 'v', 1, 'c' ]), 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets (no match) via [] with [ phrase ] arg { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH PHRASE(d['duplicated'], [ 'v', 1, 'c' ], 'test_analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } // test custom analyzer with offsets (no match) via [] with [ phrase ] arg { std::vector expected = { }; auto result = arangodb::tests::executeQuery( vocbase, "FOR d IN testView SEARCH ANALYZER(PHRASE(d['duplicated'], [ 'v', 1, 'c' ], 'test_analyzer'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d" ); REQUIRE(TRI_ERROR_NO_ERROR == result.code); auto slice = result.result->slice(); CHECK(slice.isArray()); size_t i = 0; for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) { auto const resolved = itr.value().resolveExternals(); CHECK((i < expected.size())); CHECK((0 == arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true))); } CHECK((i == expected.size())); } } // ----------------------------------------------------------------------------- // --SECTION-- END-OF-FILE // -----------------------------------------------------------------------------