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arangodb/tests/IResearch/IResearchQueryExists-test.cpp

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////////////////////////////////////////////////////////////////////////////////
/// 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 "IResearchQueryCommon.h"
#include "IResearch/IResearchView.h"
#include "Transaction/StandaloneContext.h"
#include "Utils/OperationOptions.h"
#include "Utils/SingleCollectionTransaction.h"
#include "VocBase/LogicalCollection.h"
#include <velocypack/Iterator.h>
extern const char* ARGV0; // defined in main.cpp
namespace {
static const VPackBuilder systemDatabaseBuilder = dbArgsBuilder();
static const VPackSlice systemDatabaseArgs = systemDatabaseBuilder.slice();
// -----------------------------------------------------------------------------
// --SECTION-- setup / tear-down
// -----------------------------------------------------------------------------
class IResearchQueryExistsTest : public IResearchQueryTest {};
}
// -----------------------------------------------------------------------------
// --SECTION-- test suite
// -----------------------------------------------------------------------------
////////////////////////////////////////////////////////////////////////////////
/// @brief setup
////////////////////////////////////////////////////////////////////////////////
TEST_F(IResearchQueryExistsTest, test) {
TRI_vocbase_t vocbase(TRI_vocbase_type_e::TRI_VOCBASE_TYPE_NORMAL, testDBInfo(server.server()));
std::vector<arangodb::velocypack::Builder> insertedDocs;
arangodb::LogicalView* view;
// create collection0
{
auto createJson = VPackParser::fromJson("{ \"name\": \"testCollection0\" }");
auto collection = vocbase.createCollection(createJson->slice());
ASSERT_NE(nullptr, collection);
std::vector<std::shared_ptr<arangodb::velocypack::Builder>> docs {
VPackParser::fromJson("{ \"seq\": -6, \"value\": null }"),
VPackParser::fromJson("{ \"seq\": -5, \"value\": true }"),
VPackParser::fromJson("{ \"seq\": -4, \"value\": \"abc\" }"),
VPackParser::fromJson("{ \"seq\": -3, \"value\": 3.14 }"),
VPackParser::fromJson("{ \"seq\": -2, \"value\": [ 1, \"abc\" ] }"),
VPackParser::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
);
EXPECT_TRUE(trx.begin().ok());
for (auto& entry: docs) {
auto res = trx.insert(collection->name(), entry->slice(), options);
EXPECT_TRUE(res.ok());
insertedDocs.emplace_back(res.slice().get("new"));
}
EXPECT_TRUE(trx.commit().ok());
}
// create collection1
{
auto createJson = VPackParser::fromJson("{ \"name\": \"testCollection1\" }");
auto collection = vocbase.createCollection(createJson->slice());
ASSERT_NE(nullptr, collection);
irs::utf8_path resource;
resource/=irs::string_ref(arangodb::tests::testResourceDir);
resource/=irs::string_ref("simple_sequential.json");
auto builder = arangodb::basics::VelocyPackHelper::velocyPackFromFile(resource.utf8());
auto slice = builder.slice();
ASSERT_TRUE(slice.isArray());
arangodb::OperationOptions options;
options.returnNew = true;
arangodb::SingleCollectionTransaction trx(
arangodb::transaction::StandaloneContext::Create(vocbase),
*collection,
arangodb::AccessMode::Type::WRITE
);
EXPECT_TRUE(trx.begin().ok());
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto res = trx.insert(collection->name(), itr.value(), options);
EXPECT_TRUE(res.ok());
insertedDocs.emplace_back(res.slice().get("new"));
}
EXPECT_TRUE(trx.commit().ok());
}
// create view
{
auto createJson = VPackParser::fromJson("{ \"name\": \"testView\", \"type\": \"arangosearch\" }");
auto logicalView = vocbase.createView(createJson->slice());
ASSERT_FALSE(!logicalView);
view = logicalView.get();
auto* impl = dynamic_cast<arangodb::iresearch::IResearchView*>(view);
ASSERT_FALSE(!impl);
auto updateJson = VPackParser::fromJson(
"{ \"links\": {"
"\"testCollection0\": { \"includeAllFields\": true, \"trackListPositions\": true, \"storeValues\": \"id\"},"
"\"testCollection1\": { \"includeAllFields\": true, \"storeValues\": \"id\" }"
"}}"
);
EXPECT_TRUE(impl->properties(updateJson->slice(), true).ok());
std::set<TRI_voc_cid_t> cids;
impl->visitCollections([&cids](TRI_voc_cid_t cid)->bool { cids.emplace(cid); return true; });
EXPECT_EQ(2, cids.size());
EXPECT_TRUE(arangodb::tests::executeQuery(vocbase, "FOR d IN testView SEARCH 1 ==1 OPTIONS { waitForSync: true } RETURN d").result.ok()); // commit
}
// test non-existent (any)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.missing) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (any) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['missing']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (bool)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.name, 'bool') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (bool) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['name'], 'bool') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (boolean)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.name, 'boolean') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (boolean) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['name'], 'boolean') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (numeric)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.name, 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (numeric) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['name'], 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (null)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.name, 'null') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (null) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['name'], 'null') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (string)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.seq, 'string') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (string) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['seq'], 'string') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (text analyzer)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.seq, 'analyzer', 'text_en') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (text analyzer)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d.seq, 'analyzer'), 'text_en') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (analyzer) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d['seq'], 'analyzer'), 'text_en') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (array)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value[2]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (array) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'][2]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (object)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value.d) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (object) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value']['d']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (any)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[0].slice(),
insertedDocs[1].slice(),
insertedDocs[2].slice(),
insertedDocs[3].slice(),
insertedDocs[4].slice(),
insertedDocs[5].slice(),
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
insertedDocs[11].slice(),
insertedDocs[12].slice(),
insertedDocs[13].slice(),
insertedDocs[14].slice(),
insertedDocs[15].slice(),
insertedDocs[16].slice(),
insertedDocs[17].slice(),
insertedDocs[18].slice(),
insertedDocs[19].slice(),
insertedDocs[20].slice(),
insertedDocs[21].slice(),
insertedDocs[22].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (any) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[0].slice(),
insertedDocs[1].slice(),
insertedDocs[2].slice(),
insertedDocs[3].slice(),
insertedDocs[4].slice(),
insertedDocs[5].slice(),
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
insertedDocs[11].slice(),
insertedDocs[12].slice(),
insertedDocs[13].slice(),
insertedDocs[14].slice(),
insertedDocs[15].slice(),
insertedDocs[16].slice(),
insertedDocs[17].slice(),
insertedDocs[18].slice(),
insertedDocs[19].slice(),
insertedDocs[20].slice(),
insertedDocs[21].slice(),
insertedDocs[22].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (bool)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[1].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'bool') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (bool) with bound params
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[1].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, @type) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d",
VPackParser::fromJson("{ \"type\" : \"bool\" }")
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (bool) with bound view name
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[1].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN @@testView SEARCH EXISTS(d.value, @type) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d",
VPackParser::fromJson("{ \"type\" : \"bool\", \"@testView\": \"testView\" }")
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (bool) with invalid bound view name
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[1].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN @@testView SEARCH EXISTS(d.value, @type) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d",
VPackParser::fromJson("{ \"type\" : \"bool\", \"@testView\": \"invlaidViewName\" }")
);
ASSERT_TRUE(result.result.is(TRI_ERROR_ARANGO_DATA_SOURCE_NOT_FOUND));
}
// test existent (bool) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[1].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'bool') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (boolean)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[1].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'boolean') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (boolean) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[1].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'boolean') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (numeric)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[3].slice(),
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
insertedDocs[11].slice(),
insertedDocs[12].slice(),
insertedDocs[13].slice(),
insertedDocs[14].slice(),
insertedDocs[15].slice(),
insertedDocs[16].slice(),
insertedDocs[17].slice(),
insertedDocs[18].slice(),
insertedDocs[19].slice(),
insertedDocs[20].slice(),
insertedDocs[21].slice(),
insertedDocs[22].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (numeric) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[3].slice(),
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
insertedDocs[11].slice(),
insertedDocs[12].slice(),
insertedDocs[13].slice(),
insertedDocs[14].slice(),
insertedDocs[15].slice(),
insertedDocs[16].slice(),
insertedDocs[17].slice(),
insertedDocs[18].slice(),
insertedDocs[19].slice(),
insertedDocs[20].slice(),
insertedDocs[21].slice(),
insertedDocs[22].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (numeric) via [], limit 5
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[3].slice(),
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice()
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq LIMIT 5 RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (null)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[0].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'null') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (null) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[0].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'null') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (identity analyzer)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (identity analyzer)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'analyzer', 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (string)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d.value, 'analyzer'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (any string)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d.value, 'string'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (any string)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'string') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (any string) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'string') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (identity analyzer)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'analyzer', 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (identity analyzer)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (identity analyzer) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d['value'], 'analyzer'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (identity analyzer) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d['value'], 'analyzer'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (identity analyzer) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[2].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'analyzer', 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (array)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[4].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value[1]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (array) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[4].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'][1]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (object)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[5].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value.b) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (object) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[5].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value']['b']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
}
TEST_F(IResearchQueryExistsTest, StoreMaskPartially) {
TRI_vocbase_t vocbase(TRI_vocbase_type_e::TRI_VOCBASE_TYPE_NORMAL, testDBInfo(server.server()));
std::vector<arangodb::velocypack::Builder> insertedDocs;
arangodb::LogicalView* view;
// create collection0
{
auto createJson = VPackParser::fromJson("{ \"name\": \"testCollection0\" }");
auto collection = vocbase.createCollection(createJson->slice());
ASSERT_NE(nullptr, collection);
std::vector<std::shared_ptr<arangodb::velocypack::Builder>> docs {
VPackParser::fromJson("{ \"seq\": -6, \"value\": null }"),
VPackParser::fromJson("{ \"seq\": -5, \"value\": true }"),
VPackParser::fromJson("{ \"seq\": -4, \"value\": \"abc\" }"),
VPackParser::fromJson("{ \"seq\": -3, \"value\": 3.14 }"),
VPackParser::fromJson("{ \"seq\": -2, \"value\": [ 1, \"abc\" ] }"),
VPackParser::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
);
EXPECT_TRUE(trx.begin().ok());
for (auto& entry: docs) {
auto res = trx.insert(collection->name(), entry->slice(), options);
EXPECT_TRUE(res.ok());
insertedDocs.emplace_back(res.slice().get("new"));
}
EXPECT_TRUE(trx.commit().ok());
}
// create collection1
{
auto createJson = VPackParser::fromJson("{ \"name\": \"testCollection1\" }");
auto collection = vocbase.createCollection(createJson->slice());
ASSERT_NE(nullptr, collection);
irs::utf8_path resource;
resource/=irs::string_ref(arangodb::tests::testResourceDir);
resource/=irs::string_ref("simple_sequential.json");
auto builder = arangodb::basics::VelocyPackHelper::velocyPackFromFile(resource.utf8());
auto slice = builder.slice();
ASSERT_TRUE(slice.isArray());
arangodb::OperationOptions options;
options.returnNew = true;
arangodb::SingleCollectionTransaction trx(
arangodb::transaction::StandaloneContext::Create(vocbase),
*collection,
arangodb::AccessMode::Type::WRITE
);
EXPECT_TRUE(trx.begin().ok());
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto res = trx.insert(collection->name(), itr.value(), options);
EXPECT_TRUE(res.ok());
insertedDocs.emplace_back(res.slice().get("new"));
}
EXPECT_TRUE(trx.commit().ok());
}
// create view
{
auto createJson = VPackParser::fromJson("{ \"name\": \"testView\", \"type\": \"arangosearch\" }");
auto logicalView = vocbase.createView(createJson->slice());
ASSERT_FALSE(!logicalView);
view = logicalView.get();
auto* impl = dynamic_cast<arangodb::iresearch::IResearchView*>(view);
ASSERT_FALSE(!impl);
auto updateJson = VPackParser::fromJson(
"{ \"links\": {"
"\"testCollection0\": { \"includeAllFields\": true, \"trackListPositions\": true },"
"\"testCollection1\": { \"includeAllFields\": true, \"storeValues\": \"id\" }"
"}}"
);
EXPECT_TRUE(impl->properties(updateJson->slice(), true).ok());
std::set<TRI_voc_cid_t> cids;
impl->visitCollections([&cids](TRI_voc_cid_t cid)->bool { cids.emplace(cid); return true; });
EXPECT_EQ(2, cids.size());
EXPECT_TRUE(arangodb::tests::executeQuery(vocbase, "FOR d IN testView SEARCH 1 ==1 OPTIONS { waitForSync: true } RETURN d").result.ok()); // commit
}
// test non-existent (any)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.missing) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (any) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['missing']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (bool)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.name, 'bool') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (bool) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['name'], 'bool') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (boolean)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.name, 'boolean') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (boolean) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['name'], 'boolean') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (numeric)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.name, 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (numeric) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['name'], 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (null)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.name, 'null') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (null) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['name'], 'null') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (string)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.seq, 'string') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (string) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['seq'], 'string') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (text analyzer)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.seq, 'analyzer', 'text_en') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (text analyzer)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d.seq, 'analyzer'), 'text_en') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (analyzer) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d['seq'], 'analyzer'), 'text_en') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (array)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value[2]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (array) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'][2]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (object)
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value.d) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test non-existent (object) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value']['d']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (any)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
insertedDocs[11].slice(),
insertedDocs[12].slice(),
insertedDocs[13].slice(),
insertedDocs[14].slice(),
insertedDocs[15].slice(),
insertedDocs[16].slice(),
insertedDocs[17].slice(),
insertedDocs[18].slice(),
insertedDocs[19].slice(),
insertedDocs[20].slice(),
insertedDocs[21].slice(),
insertedDocs[22].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (any) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
insertedDocs[11].slice(),
insertedDocs[12].slice(),
insertedDocs[13].slice(),
insertedDocs[14].slice(),
insertedDocs[15].slice(),
insertedDocs[16].slice(),
insertedDocs[17].slice(),
insertedDocs[18].slice(),
insertedDocs[19].slice(),
insertedDocs[20].slice(),
insertedDocs[21].slice(),
insertedDocs[22].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (bool)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'bool') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (bool) with bound params
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, @type) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d",
VPackParser::fromJson("{ \"type\" : \"bool\" }")
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (bool) with bound view name
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN @@testView SEARCH EXISTS(d.value, @type) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d",
VPackParser::fromJson("{ \"type\" : \"bool\", \"@testView\": \"testView\" }")
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (bool) with invalid bound view name
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN @@testView SEARCH EXISTS(d.value, @type) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d",
VPackParser::fromJson("{ \"type\" : \"bool\", \"@testView\": \"invlaidViewName\" }")
);
ASSERT_TRUE(result.result.is(TRI_ERROR_ARANGO_DATA_SOURCE_NOT_FOUND));
}
// test existent (bool) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'bool') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (boolean)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'boolean') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (boolean) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'boolean') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (numeric)
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
insertedDocs[11].slice(),
insertedDocs[12].slice(),
insertedDocs[13].slice(),
insertedDocs[14].slice(),
insertedDocs[15].slice(),
insertedDocs[16].slice(),
insertedDocs[17].slice(),
insertedDocs[18].slice(),
insertedDocs[19].slice(),
insertedDocs[20].slice(),
insertedDocs[21].slice(),
insertedDocs[22].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (numeric) via []
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
insertedDocs[11].slice(),
insertedDocs[12].slice(),
insertedDocs[13].slice(),
insertedDocs[14].slice(),
insertedDocs[15].slice(),
insertedDocs[16].slice(),
insertedDocs[17].slice(),
insertedDocs[18].slice(),
insertedDocs[19].slice(),
insertedDocs[20].slice(),
insertedDocs[21].slice(),
insertedDocs[22].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (numeric) via [], limit 5
{
std::vector<arangodb::velocypack::Slice> expected = {
insertedDocs[6].slice(),
insertedDocs[7].slice(),
insertedDocs[8].slice(),
insertedDocs[9].slice(),
insertedDocs[10].slice(),
};
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'numeric') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq LIMIT 5 RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
size_t i = 0;
for (arangodb::velocypack::ArrayIterator itr(slice); itr.valid(); ++itr) {
auto const resolved = itr.value().resolveExternals();
EXPECT_TRUE(i < expected.size());
EXPECT_EQ(0, arangodb::basics::VelocyPackHelper::compare(expected[i++], resolved, true));
}
EXPECT_EQ(i, expected.size());
}
// test existent (null)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'null') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (null) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'null') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (identity analyzer)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (identity analyzer)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'analyzer', 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (string)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d.value, 'analyzer'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (any string)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d.value, 'string'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (any string)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'string') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (any string) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'string') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (identity analyzer)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'analyzer', 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (identity analyzer)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value, 'analyzer') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (identity analyzer) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d['value'], 'analyzer'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (identity analyzer) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH ANALYZER(EXISTS(d['value'], 'analyzer'), 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (identity analyzer) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'], 'analyzer', 'identity') SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (array)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value[1]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (array) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value'][1]) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (object)
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d.value.b) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
// test existent (object) via []
{
auto result = arangodb::tests::executeQuery(
vocbase,
"FOR d IN testView SEARCH EXISTS(d['value']['b']) SORT BM25(d) ASC, TFIDF(d) DESC, d.seq RETURN d"
);
ASSERT_TRUE(result.result.ok());
auto slice = result.data->slice();
EXPECT_TRUE(slice.isArray());
EXPECT_EQ(0, slice.length());
}
}
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