// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you 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. #include #include #include #include #define protected public #define private public #include #include "exec/olap_common.h" #include "gen_cpp/PlanNodes_types.h" #include "gen_cpp/Types_types.h" #include "runtime/descriptors.h" #include "util/cpu_info.h" #include "util/runtime_profile.h" namespace doris { void construct_scan_range(TPaloScanRange* doris_scan_range) { TNetworkAddress host; host.__set_hostname("jx-ps-dise174.jx"); host.__set_port(8010); doris_scan_range->hosts.push_back(host); doris_scan_range->__set_schema_hash("216424022"); doris_scan_range->__set_version("0"); doris_scan_range->__set_version_hash("0"); doris_scan_range->engine_table_name.push_back("ShowQStats"); doris_scan_range->__set_db_name("olap"); TKeyRange key_range; key_range.__set_column_type(to_thrift(TYPE_INT)); key_range.__set_begin_key(-1000); key_range.__set_end_key(1000); key_range.__set_column_name("partition_column"); doris_scan_range->partition_column_ranges.push_back(key_range); doris_scan_range->__isset.partition_column_ranges = true; } class ColumnValueRangeTest : public ::testing::Test { public: virtual void SetUp() { } virtual void TearDown() { } }; TEST_F(ColumnValueRangeTest, ExceptionCase) { ColumnValueRange range1; ASSERT_FALSE(range1.add_fixed_value(10).ok()); ASSERT_FALSE(range1.add_range(FILTER_LESS_OR_EQUAL, 10).ok()); } TEST_F(ColumnValueRangeTest, NormalCase) { ColumnValueRange range1("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_TRUE(range1.add_fixed_value(10).ok()); ASSERT_TRUE(range1.add_fixed_value(20).ok()); ASSERT_TRUE(range1.add_fixed_value(30).ok()); ASSERT_TRUE(range1.is_fixed_value_range()); ASSERT_TRUE(range1.add_range(FILTER_LESS, 30).ok()); ASSERT_FALSE(range1.is_empty_value_range()); ColumnValueRange range2("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_TRUE(range2.add_fixed_value(30).ok()); ASSERT_FALSE(range1.has_intersection(range2)); ASSERT_TRUE(range2.add_fixed_value(20).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.is_fixed_value_range()); ASSERT_TRUE(range2.add_range(FILTER_LARGER, 50).ok()); ASSERT_FALSE(range2.is_fixed_value_range()); ASSERT_TRUE(range2.is_empty_value_range()); ASSERT_FALSE(range1.has_intersection(range2)); } TEST_F(ColumnValueRangeTest, FixedAddRangeTest) { ColumnValueRange range1("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 100; i += 10) { ASSERT_TRUE(range1.add_fixed_value(i).ok()); } ASSERT_TRUE(range1.add_range(FILTER_LARGER_OR_EQUAL, 10).ok()); std::set res_set = range1.get_fixed_value_set(); ASSERT_EQ(res_set.count(0), 0); for (int i = 10; i < 100; i += 10) { ASSERT_EQ(res_set.count(i), 1); } ASSERT_TRUE(range1.add_range(FILTER_LARGER, 20).ok()); res_set = range1.get_fixed_value_set(); ASSERT_EQ(res_set.count(10), 0); ASSERT_EQ(res_set.count(20), 0); for (int i = 30; i < 100; i += 10) { ASSERT_EQ(res_set.count(i), 1); } ASSERT_TRUE(range1.add_range(FILTER_LESS, 90).ok()); res_set = range1.get_fixed_value_set(); ASSERT_EQ(res_set.count(90), 0); for (int i = 30; i < 90; i += 10) { ASSERT_EQ(res_set.count(i), 1); } ASSERT_TRUE(range1.add_range(FILTER_LESS_OR_EQUAL, 70).ok()); res_set = range1.get_fixed_value_set(); ASSERT_EQ(res_set.count(80), 0); for (int i = 30; i < 80; i += 10) { ASSERT_EQ(res_set.count(i), 1); } ASSERT_TRUE(range1.add_range(FILTER_LESS_OR_EQUAL, 30).ok()); res_set = range1.get_fixed_value_set(); ASSERT_EQ(res_set.count(30), 1); for (int i = 40; i < 80; i += 10) { ASSERT_EQ(res_set.count(i), 0); } ASSERT_TRUE(range1.add_range(FILTER_LARGER_OR_EQUAL, 30).ok()); res_set = range1.get_fixed_value_set(); ASSERT_EQ(res_set.count(30), 1); ASSERT_TRUE(range1.add_range(FILTER_LARGER, 30).ok()); res_set = range1.get_fixed_value_set(); ASSERT_EQ(res_set.count(30), 0); } TEST_F(ColumnValueRangeTest, RangeAddRangeTest) { ColumnValueRange range1("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_EQ(range1.get_range_min_value(), std::numeric_limits::min()); ASSERT_EQ(range1.get_range_max_value(), std::numeric_limits::max()); ASSERT_TRUE(range1.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ASSERT_EQ(range1.get_range_min_value(), 20); ASSERT_TRUE(range1.add_range(FILTER_LARGER, 30).ok()); ASSERT_EQ(range1.get_range_min_value(), 30); ASSERT_TRUE(range1.add_range(FILTER_LESS, 100).ok()); ASSERT_EQ(range1.get_range_max_value(), 100); ASSERT_TRUE(range1.add_range(FILTER_LESS_OR_EQUAL, 90).ok()); ASSERT_EQ(range1.get_range_max_value(), 90); ASSERT_TRUE(range1.add_range(FILTER_LESS_OR_EQUAL, 31).ok()); ASSERT_EQ(range1.get_range_max_value(), 31); ASSERT_TRUE(range1.add_range(FILTER_LESS, 31).ok()); ASSERT_FALSE(range1.is_empty_value_range()); ASSERT_TRUE(range1.add_range(FILTER_LESS, 30).ok()); ASSERT_TRUE(range1.is_empty_value_range()); } TEST_F(ColumnValueRangeTest, RangeIntersectionTest) { ColumnValueRange range1("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_TRUE(range1.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ColumnValueRange range2("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_TRUE(range2.add_range(FILTER_LESS, 100).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range1.add_range(FILTER_LESS_OR_EQUAL, 80).ok()); ASSERT_TRUE(range2.add_range(FILTER_LARGER, 40).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range1.add_range(FILTER_LESS_OR_EQUAL, 40).ok()); ASSERT_FALSE(range1.has_intersection(range2)); } TEST_F(ColumnValueRangeTest, FixedValueIntersectionTest) { ColumnValueRange range1("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 100; i += 10) { ASSERT_TRUE(range1.add_fixed_value(i).ok()); } ColumnValueRange range2("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 50; i < 200; i += 10) { ASSERT_TRUE(range2.add_fixed_value(i).ok()); } ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.add_range(FILTER_LESS_OR_EQUAL, 70).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range1.add_range(FILTER_LARGER_OR_EQUAL, 50).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.add_range(FILTER_LESS, 60).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range1.add_range(FILTER_LARGER, 50).ok()); ASSERT_FALSE(range1.has_intersection(range2)); } TEST_F(ColumnValueRangeTest, FixedAndRangeIntersectionTest) { for (int type = TYPE_TINYINT; type <= TYPE_BIGINT; type++) { switch (type) { case TYPE_TINYINT: { ColumnValueRange range1("col", TYPE_TINYINT, std::numeric_limits::min(), std::numeric_limits::max()); ColumnValueRange range2("col", TYPE_TINYINT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 100; i += 10) { ASSERT_TRUE(range1.add_fixed_value(i).ok()); } ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.has_intersection(range1)); ASSERT_TRUE(range2.add_range(FILTER_LESS, 50).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.has_intersection(range1)); ASSERT_TRUE(range2.add_range(FILTER_LARGER, 40).ok()); ASSERT_FALSE(range1.has_intersection(range2)); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 100).ok()); ASSERT_FALSE(range1.has_intersection(range2)); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LESS, 0).ok()); ASSERT_FALSE(range1.has_intersection(range2)); } case TYPE_SMALLINT: { ColumnValueRange range1("col", TYPE_SMALLINT, std::numeric_limits::min(), std::numeric_limits::max()); ColumnValueRange range2("col", TYPE_SMALLINT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 100; i += 10) { ASSERT_TRUE(range1.add_fixed_value(i).ok()); } ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.has_intersection(range1)); ASSERT_TRUE(range2.add_range(FILTER_LESS, 50).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.has_intersection(range1)); ASSERT_TRUE(range2.add_range(FILTER_LARGER, 40).ok()); ASSERT_FALSE(range1.has_intersection(range2)); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 100).ok()); ASSERT_FALSE(range1.has_intersection(range2)); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LESS, 0).ok()); ASSERT_FALSE(range1.has_intersection(range2)); } case TYPE_INT: { ColumnValueRange range1("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ColumnValueRange range2("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 100; i += 10) { ASSERT_TRUE(range1.add_fixed_value(i).ok()); } ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.has_intersection(range1)); ASSERT_TRUE(range2.add_range(FILTER_LESS, 50).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.has_intersection(range1)); ASSERT_TRUE(range2.add_range(FILTER_LARGER, 40).ok()); ASSERT_FALSE(range1.has_intersection(range2)); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 100).ok()); ASSERT_FALSE(range1.has_intersection(range2)); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LESS, 0).ok()); ASSERT_FALSE(range1.has_intersection(range2)); } case TYPE_BIGINT: { ColumnValueRange range1("col", TYPE_BIGINT, std::numeric_limits::min(), std::numeric_limits::max()); ColumnValueRange range2("col", TYPE_BIGINT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 100; i += 10) { ASSERT_TRUE(range1.add_fixed_value(i).ok()); } ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.has_intersection(range1)); ASSERT_TRUE(range2.add_range(FILTER_LESS, 50).ok()); ASSERT_TRUE(range1.has_intersection(range2)); ASSERT_TRUE(range2.has_intersection(range1)); ASSERT_TRUE(range2.add_range(FILTER_LARGER, 40).ok()); ASSERT_FALSE(range1.has_intersection(range2)); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 100).ok()); ASSERT_FALSE(range1.has_intersection(range2)); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LESS, 0).ok()); ASSERT_FALSE(range1.has_intersection(range2)); } default: break; } } } class OlapScanKeysTest : public ::testing::Test { public: virtual void SetUp() { } virtual void TearDown() { } }; TEST_F(OlapScanKeysTest, ExtendFixedTest) { OlapScanKeys scan_keys; ColumnValueRange range1("col", TYPE_BIGINT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 3; ++i) { ASSERT_TRUE(range1.add_fixed_value(i).ok()); } scan_keys.extend_scan_key(range1); std::vector key_range; scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 3); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].begin_scan_range), "1"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].end_scan_range), "1"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].begin_scan_range), "2"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].end_scan_range), "2"); ColumnValueRange range2("col", TYPE_BIGINT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 2; ++i) { ASSERT_TRUE(range2.add_fixed_value(i).ok()); } scan_keys.extend_scan_key(range2); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 6); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "0,0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "0,0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].begin_scan_range), "1,0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].end_scan_range), "1,0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].begin_scan_range), "2,0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].end_scan_range), "2,0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[3].begin_scan_range), "0,1"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[3].end_scan_range), "0,1"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[4].begin_scan_range), "1,1"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[4].end_scan_range), "1,1"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[5].begin_scan_range), "2,1"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[5].end_scan_range), "2,1"); range2.clear(); ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 100).ok()); scan_keys.extend_scan_key(range2); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 6); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "0,0,100"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "0,0,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].begin_scan_range), "1,0,100"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].end_scan_range), "1,0,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].begin_scan_range), "2,0,100"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].end_scan_range), "2,0,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[3].begin_scan_range), "0,1,100"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[3].end_scan_range), "0,1,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[4].begin_scan_range), "1,1,100"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[4].end_scan_range), "1,1,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[5].begin_scan_range), "2,1,100"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[5].end_scan_range), "2,1,2147483647"); } TEST_F(OlapScanKeysTest, ExtendFixedAndRangeTest) { OlapScanKeys scan_keys; ColumnValueRange range1("col", TYPE_BIGINT, std::numeric_limits::min(), std::numeric_limits::max()); for (int i = 0; i < 3; ++i) { ASSERT_TRUE(range1.add_fixed_value(i).ok()); } scan_keys.extend_scan_key(range1); ColumnValueRange range2("col", TYPE_BIGINT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); scan_keys.extend_scan_key(range2); std::vector key_range; scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 3); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "0,20"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "0,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].begin_scan_range), "1,20"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].end_scan_range), "1,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].begin_scan_range), "2,20"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].end_scan_range), "2,2147483647"); ASSERT_TRUE(range2.add_range(FILTER_LESS, 100).ok()); scan_keys.extend_scan_key(range2); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 3); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "0,20"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "0,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].begin_scan_range), "1,20"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[1].end_scan_range), "1,2147483647"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].begin_scan_range), "2,20"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[2].end_scan_range), "2,2147483647"); } TEST_F(OlapScanKeysTest, ExtendRangeTest) { OlapScanKeys scan_keys; config::doris_max_scan_key_num = 1; ColumnValueRange range2("col", TYPE_BIGINT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_TRUE(range2.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ASSERT_TRUE(range2.add_range(FILTER_LESS, 100).ok()); ASSERT_TRUE(scan_keys.extend_scan_key(range2).ok()); std::vector key_range; scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 1); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "20"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "100"); ASSERT_TRUE(range2.add_range(FILTER_LESS, 50).ok()); ASSERT_TRUE(scan_keys.extend_scan_key(range2).ok()); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 1); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "20"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "100"); } TEST_F(OlapScanKeysTest, EachtypeTest) { std::vector key_range; { OlapScanKeys scan_keys; ColumnValueRange range("col", TYPE_TINYINT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_TRUE(scan_keys.extend_scan_key(range).ok()); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 1); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "-128"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "127"); ASSERT_TRUE(range.add_range(FILTER_LESS, 50).ok()); scan_keys.clear(); ASSERT_TRUE(scan_keys.extend_scan_key(range).ok()); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 1); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "-128"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "50"); } { OlapScanKeys scan_keys; ColumnValueRange range("col", TYPE_SMALLINT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_TRUE(scan_keys.extend_scan_key(range).ok()); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 1); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "-32768"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "32767"); ASSERT_TRUE(range.add_range(FILTER_LARGER, 0).ok()); scan_keys.clear(); ASSERT_TRUE(scan_keys.extend_scan_key(range).ok()); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 1); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "32767"); ASSERT_TRUE(range.add_range(FILTER_LESS, 32768).ok()); scan_keys.clear(); ASSERT_TRUE(scan_keys.extend_scan_key(range).ok()); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 1); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "32767"); ASSERT_TRUE(range.add_range(FILTER_LESS, 32766).ok()); scan_keys.clear(); ASSERT_TRUE(scan_keys.extend_scan_key(range).ok()); scan_keys.get_key_range(&key_range); ASSERT_EQ(key_range.size(), 1); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].begin_scan_range), "0"); ASSERT_EQ(OlapScanKeys::to_print_key(key_range[0].end_scan_range), "32766"); } } class DorisScanRangeTest : public ::testing::Test { public: void SetUp() { } void TearDown() { } }; TEST_F(DorisScanRangeTest, ToOlapFilterTest) { ColumnValueRange range("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ASSERT_EQ(range.to_olap_filter(), std::string("")); ASSERT_TRUE(range.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col>=20")); ASSERT_TRUE(range.add_range(FILTER_LESS, 100).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col>=20,col<<100")); range.clear(); ASSERT_TRUE(range.add_range(FILTER_LESS_OR_EQUAL, 100).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col<=100")); ASSERT_TRUE(range.add_range(FILTER_LARGER, 20).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col>>20,col<=100")); range.clear(); ASSERT_TRUE(range.add_fixed_value(30).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col*=30")); ASSERT_TRUE(range.add_fixed_value(40).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col*=30|40")); ASSERT_TRUE(range.add_fixed_value(50).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col*=30|40|50")); ASSERT_TRUE(range.add_fixed_value(20).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col*=20|30|40|50")); ASSERT_TRUE(range.add_range(FILTER_LARGER, 20).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col*=30|40|50")); ASSERT_TRUE(range.add_range(FILTER_LESS_OR_EQUAL, 40).ok()); ASSERT_EQ(range.to_olap_filter(), std::string("col*=30|40")); } TEST_F(DorisScanRangeTest, RangeIntersectionTest) { TPaloScanRange doris_scan_range; construct_scan_range(&doris_scan_range); DorisScanRange scan_range(doris_scan_range); ASSERT_TRUE(scan_range.init().ok()); ColumnValueRange range("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ColumnValueRangeType range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); ASSERT_EQ(-1, scan_range.has_intersection("nopartition_column", range_type)); ASSERT_TRUE(range.add_range(FILTER_LARGER_OR_EQUAL, 20).ok()); ASSERT_TRUE(range.add_range(FILTER_LESS, 100).ok()); range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); range.clear(); ASSERT_TRUE(range.add_range(FILTER_LARGER_OR_EQUAL, -5000).ok()); ASSERT_TRUE(range.add_range(FILTER_LESS, 100).ok()); range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); range.clear(); ASSERT_TRUE(range.add_range(FILTER_LARGER_OR_EQUAL, -5000).ok()); ASSERT_TRUE(range.add_range(FILTER_LESS, -999).ok()); range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); range.clear(); ASSERT_TRUE(range.add_range(FILTER_LARGER_OR_EQUAL, 999).ok()); ASSERT_TRUE(range.add_range(FILTER_LESS, 5000).ok()); range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); range.clear(); ASSERT_TRUE(range.add_range(FILTER_LARGER_OR_EQUAL, -5000).ok()); ASSERT_TRUE(range.add_range(FILTER_LESS, -1000).ok()); range_type = range; ASSERT_EQ(0, scan_range.has_intersection("partition_column", range_type)); range.clear(); ASSERT_TRUE(range.add_range(FILTER_LARGER_OR_EQUAL, 1000).ok()); ASSERT_TRUE(range.add_range(FILTER_LESS, 5000).ok()); range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); } TEST_F(DorisScanRangeTest, FixedIntersectionTest) { TPaloScanRange doris_scan_range; construct_scan_range(&doris_scan_range); DorisScanRange scan_range(doris_scan_range); ASSERT_TRUE(scan_range.init().ok()); ColumnValueRange range("col", TYPE_INT, std::numeric_limits::min(), std::numeric_limits::max()); ColumnValueRangeType range_type = range; ASSERT_TRUE(range.add_fixed_value(-1001).ok()); range_type = range; ASSERT_EQ(0, scan_range.has_intersection("partition_column", range_type)); ASSERT_TRUE(range.add_fixed_value(1000).ok()); range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); ASSERT_TRUE(range.add_fixed_value(-1000).ok()); range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); range.clear(); ASSERT_TRUE(range.add_fixed_value(999).ok()); range_type = range; ASSERT_EQ(1, scan_range.has_intersection("partition_column", range_type)); } } int main(int argc, char** argv) { std::string conffile = std::string(getenv("DORIS_HOME")) + "/conf/be.conf"; if (!doris::config::init(conffile.c_str(), false)) { fprintf(stderr, "error read config file. \n"); return -1; } init_glog("be-test"); ::testing::InitGoogleTest(&argc, argv); doris::CpuInfo::Init(); return RUN_ALL_TESTS(); }