db07e51cd3
Refactor TaggableLogger Refactor status handling in agent task: Unify log format in TaskWorkerPool Pass Status to the top caller, and replace some OLAPInternalError with more detailed error message Status Premature return with the opposite condition to reduce indention
379 lines
8.3 KiB
C++
379 lines
8.3 KiB
C++
// Licensed to the Apache Software Foundation (ASF) under one
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// or more contributor license agreements. See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership. The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License. You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
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// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied. See the License for the
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// specific language governing permissions and limitations
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// under the License.
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#include "exprs/hybrid_set.h"
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#include <gtest/gtest.h>
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#include <string>
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#include "common/configbase.h"
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#include "exprs/create_predicate_function.h"
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namespace doris {
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// mock
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class HybridSetTest : public testing::Test {
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public:
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HybridSetTest() {}
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protected:
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};
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TEST_F(HybridSetTest, bool) {
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HybridSetBase* set = create_set(TYPE_BOOLEAN);
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bool a = true;
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set->insert(&a);
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a = false;
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set->insert(&a);
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a = true;
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set->insert(&a);
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a = false;
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set->insert(&a);
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EXPECT_EQ(2, set->size());
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << (*(bool*)base->get_value());
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base->next();
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}
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a = true;
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EXPECT_TRUE(set->find(&a));
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a = false;
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EXPECT_TRUE(set->find(&a));
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}
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TEST_F(HybridSetTest, tinyint) {
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HybridSetBase* set = create_set(TYPE_TINYINT);
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int8_t a = 0;
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set->insert(&a);
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a = 1;
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set->insert(&a);
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a = 2;
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set->insert(&a);
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a = 3;
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set->insert(&a);
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a = 4;
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set->insert(&a);
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a = 4;
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set->insert(&a);
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EXPECT_EQ(5, set->size());
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << (*(int8_t*)base->get_value());
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base->next();
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}
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a = 0;
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EXPECT_TRUE(set->find(&a));
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a = 1;
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EXPECT_TRUE(set->find(&a));
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a = 2;
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EXPECT_TRUE(set->find(&a));
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a = 3;
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EXPECT_TRUE(set->find(&a));
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a = 4;
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EXPECT_TRUE(set->find(&a));
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a = 5;
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EXPECT_FALSE(set->find(&a));
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}
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TEST_F(HybridSetTest, smallint) {
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HybridSetBase* set = create_set(TYPE_SMALLINT);
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int16_t a = 0;
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set->insert(&a);
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a = 1;
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set->insert(&a);
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a = 2;
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set->insert(&a);
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a = 3;
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set->insert(&a);
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a = 4;
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set->insert(&a);
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a = 4;
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set->insert(&a);
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EXPECT_EQ(5, set->size());
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << (*(int16_t*)base->get_value());
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base->next();
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}
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a = 0;
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EXPECT_TRUE(set->find(&a));
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a = 1;
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EXPECT_TRUE(set->find(&a));
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a = 2;
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EXPECT_TRUE(set->find(&a));
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a = 3;
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EXPECT_TRUE(set->find(&a));
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a = 4;
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EXPECT_TRUE(set->find(&a));
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a = 5;
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EXPECT_FALSE(set->find(&a));
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}
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TEST_F(HybridSetTest, int) {
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HybridSetBase* set = create_set(TYPE_INT);
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int32_t a = 0;
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set->insert(&a);
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a = 1;
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set->insert(&a);
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a = 2;
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set->insert(&a);
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a = 3;
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set->insert(&a);
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a = 4;
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set->insert(&a);
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a = 4;
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set->insert(&a);
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EXPECT_EQ(5, set->size());
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << (*(int32_t*)base->get_value());
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base->next();
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}
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a = 0;
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EXPECT_TRUE(set->find(&a));
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a = 1;
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EXPECT_TRUE(set->find(&a));
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a = 2;
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EXPECT_TRUE(set->find(&a));
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a = 3;
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EXPECT_TRUE(set->find(&a));
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a = 4;
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EXPECT_TRUE(set->find(&a));
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a = 5;
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EXPECT_FALSE(set->find(&a));
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}
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TEST_F(HybridSetTest, bigint) {
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HybridSetBase* set = create_set(TYPE_BIGINT);
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int64_t a = 0;
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set->insert(&a);
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a = 1;
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set->insert(&a);
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a = 2;
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set->insert(&a);
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a = 3;
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set->insert(&a);
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a = 4;
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set->insert(&a);
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a = 4;
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set->insert(&a);
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EXPECT_EQ(5, set->size());
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << (*(int64_t*)base->get_value());
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base->next();
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}
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a = 0;
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EXPECT_TRUE(set->find(&a));
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a = 1;
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EXPECT_TRUE(set->find(&a));
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a = 2;
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EXPECT_TRUE(set->find(&a));
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a = 3;
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EXPECT_TRUE(set->find(&a));
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a = 4;
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EXPECT_TRUE(set->find(&a));
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a = 5;
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EXPECT_FALSE(set->find(&a));
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}
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TEST_F(HybridSetTest, float) {
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HybridSetBase* set = create_set(TYPE_FLOAT);
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float a = 0;
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set->insert(&a);
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a = 1.1;
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set->insert(&a);
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a = 2.1;
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set->insert(&a);
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a = 3.1;
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set->insert(&a);
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a = 4.1;
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set->insert(&a);
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a = 4.1;
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set->insert(&a);
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EXPECT_EQ(5, set->size());
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << (*(float*)base->get_value());
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base->next();
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}
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a = 0;
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EXPECT_TRUE(set->find(&a));
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a = 1.1;
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EXPECT_TRUE(set->find(&a));
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a = 2.1;
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EXPECT_TRUE(set->find(&a));
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a = 3.1;
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EXPECT_TRUE(set->find(&a));
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a = 4.1;
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EXPECT_TRUE(set->find(&a));
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a = 5.1;
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EXPECT_FALSE(set->find(&a));
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}
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TEST_F(HybridSetTest, double) {
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HybridSetBase* set = create_set(TYPE_DOUBLE);
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double a = 0;
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set->insert(&a);
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a = 1.1;
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set->insert(&a);
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a = 2.1;
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set->insert(&a);
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a = 3.1;
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set->insert(&a);
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a = 4.1;
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set->insert(&a);
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a = 4.1;
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set->insert(&a);
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EXPECT_EQ(5, set->size());
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << (*(double*)base->get_value());
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base->next();
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}
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a = 0;
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EXPECT_TRUE(set->find(&a));
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a = 1.1;
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EXPECT_TRUE(set->find(&a));
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a = 2.1;
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EXPECT_TRUE(set->find(&a));
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a = 3.1;
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EXPECT_TRUE(set->find(&a));
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a = 4.1;
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EXPECT_TRUE(set->find(&a));
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a = 5.1;
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EXPECT_FALSE(set->find(&a));
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}
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TEST_F(HybridSetTest, string) {
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HybridSetBase* set = create_set(TYPE_VARCHAR);
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StringValue a;
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char buf[100];
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snprintf(buf, 100, "abcdefghigk");
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a.ptr = buf;
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a.len = 0;
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set->insert(&a);
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a.len = 1;
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set->insert(&a);
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a.len = 2;
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set->insert(&a);
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a.len = 3;
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set->insert(&a);
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a.len = 4;
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set->insert(&a);
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a.len = 4;
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set->insert(&a);
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EXPECT_EQ(5, set->size());
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << ((StringValue*)base->get_value())->ptr;
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base->next();
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}
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StringValue b;
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char buf1[100];
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snprintf(buf1, 100, "abcdefghigk");
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b.ptr = buf1;
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b.len = 0;
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EXPECT_TRUE(set->find(&b));
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b.len = 1;
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EXPECT_TRUE(set->find(&b));
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b.len = 2;
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EXPECT_TRUE(set->find(&b));
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b.len = 3;
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EXPECT_TRUE(set->find(&b));
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b.len = 4;
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EXPECT_TRUE(set->find(&b));
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b.len = 5;
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EXPECT_FALSE(set->find(&b));
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}
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TEST_F(HybridSetTest, timestamp) {
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CpuInfo::init();
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HybridSetBase* set = create_set(TYPE_DATETIME);
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char s1[] = "2012-01-20 01:10:01";
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char s2[] = "1990-10-20 10:10:10.123456 ";
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char s3[] = " 1990-10-20 10:10:10.123456";
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DateTimeValue v1;
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v1.from_date_str(s1, strlen(s1));
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LOG(INFO) << v1.debug_string();
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DateTimeValue v2;
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v2.from_date_str(s2, strlen(s2));
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LOG(INFO) << v2.debug_string();
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DateTimeValue v3;
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v3.from_date_str(s3, strlen(s3));
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LOG(INFO) << v3.debug_string();
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set->insert(&v1);
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set->insert(&v2);
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set->insert(&v3);
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HybridSetBase::IteratorBase* base = set->begin();
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while (base->has_next()) {
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LOG(INFO) << ((DateTimeValue*)base->get_value())->debug_string();
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base->next();
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}
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EXPECT_EQ(2, set->size());
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char s11[] = "2012-01-20 01:10:01";
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char s12[] = "1990-10-20 10:10:10.123456 ";
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char s13[] = "1990-10-20 10:10:10.123456";
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DateTimeValue v11;
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v11.from_date_str(s11, strlen(s11));
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DateTimeValue v12;
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v12.from_date_str(s12, strlen(s12));
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DateTimeValue v13;
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v13.from_date_str(s13, strlen(s13));
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EXPECT_TRUE(set->find(&v11));
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EXPECT_TRUE(set->find(&v12));
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EXPECT_TRUE(set->find(&v13));
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char s23[] = "1992-10-20 10:10:10.123456";
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DateTimeValue v23;
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v23.from_date_str(s23, strlen(s23));
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EXPECT_FALSE(set->find(&v23));
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}
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} // namespace doris
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