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e8da855cd2e680a4e2e4f84f7f7dfd035b7aab05
doris/be/test/olap/run_length_byte_test.cpp
lichaoyong 0d48a3961c Refactor Storage Engine (#1478) 
NOTE: This patch would modify all Backend's data.
And this will cause a very long time to restart be.
So if you want to interferer your product environment,
you should upgrade backend one by one.

1. Refactoring be is to clarify the structure the codes.
2. Use unique id to indicate a rowset.
   Nameing rowset with tablet_id and version will lead to
   many conflicts among compaction, clone, restore.
3. Extract an rowset interface to encapsulate rowsets
   with different format.
2019-07-15 21:18:22 +08:00

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// 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 <gtest/gtest.h>
#include "olap/byte_buffer.h"
#include "olap/out_stream.h"
#include "olap/in_stream.h"
#include "olap/file_stream.h"
#include "olap/rowset/run_length_byte_writer.h"
#include "olap/rowset/run_length_byte_reader.h"
#include "olap/rowset/column_reader.h"
#include "olap/stream_index_reader.h"
#include "olap/stream_index_writer.h"
#include "util/logging.h"
namespace doris {
using namespace testing;
TEST(TestStream, UncompressOutStream) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, NULL);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor == NULL);
out_stream->write(0x5a);
out_stream->flush();
ASSERT_EQ(out_stream->get_stream_length(), sizeof(StreamHead) + 1);
ASSERT_EQ(out_stream->output_buffers().size(), 1);
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
ASSERT_EQ((*it)->position(), 0);
StreamHead head;
(*it)->get((char *)&head, sizeof(head));
ASSERT_EQ(head.type, StreamHead::UNCOMPRESSED);
ASSERT_EQ(head.length, 1);
char data;
ASSERT_EQ(OLAP_SUCCESS, (*it)->get((char *)&data));
ASSERT_EQ(0x5A, data);
ASSERT_NE(OLAP_SUCCESS, (*it)->get((char *)&data));
SAFE_DELETE(out_stream);
}
TEST(TestStream, UncompressOutStream2) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, NULL);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor == NULL);
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE; i++) {
out_stream->write(0x5a);
}
out_stream->write(0x5a);
out_stream->flush();
uint64_t stream_length = sizeof(StreamHead)*2 + OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE + 1;
ASSERT_EQ(out_stream->get_stream_length(), stream_length);
ASSERT_EQ(out_stream->output_buffers().size(), 2);
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
for (; it != out_stream->output_buffers().end(); ++it) {
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->limit());
inputs.push_back(tmp_byte_buffer);
}
std::vector<uint64_t> offsets;
offsets.push_back(0);
offsets.push_back(sizeof(StreamHead) + OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
NULL,
out_stream->get_total_buffer_size());
char data;
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE-1; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
}
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
ASSERT_NE(in_stream->read(&data), OLAP_SUCCESS);
SAFE_DELETE(out_stream);
SAFE_DELETE(in_stream);
}
TEST(TestStream, UncompressOutStream3) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, NULL);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor == NULL);
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE; i++) {
out_stream->write(0x5a);
}
char write_data[2] = {0x5a, 0x5a};
out_stream->write(write_data, 2);
out_stream->flush();
uint64_t stream_length = sizeof(StreamHead)*2 + OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE + 2;
ASSERT_EQ(out_stream->get_stream_length(), stream_length);
ASSERT_EQ(out_stream->output_buffers().size(), 2);
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
for (; it != out_stream->output_buffers().end(); ++it) {
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->limit());
inputs.push_back(tmp_byte_buffer);
}
std::vector<uint64_t> offsets;
offsets.push_back(0);
offsets.push_back(sizeof(StreamHead) + OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
NULL,
out_stream->get_total_buffer_size());
char data;
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
}
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
ASSERT_NE(in_stream->read(&data), OLAP_SUCCESS);
SAFE_DELETE(out_stream);
}
TEST(TestStream, UncompressInStream) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, NULL);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor == NULL);
out_stream->write(0x5a);
out_stream->flush();
// read data
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
ASSERT_NE(it, out_stream->output_buffers().end());
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->capacity());
inputs.push_back(tmp_byte_buffer);
std::vector<uint64_t> offsets;
offsets.assign(inputs.size(), 0);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
NULL,
out_stream->get_total_buffer_size());
SAFE_DELETE(out_stream);
ASSERT_EQ(in_stream->available(), 1);
char data;
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
SAFE_DELETE(in_stream);
}
// the length after compress must be smaller than origal stream, then the compressor will be called.
TEST(TestStream, CompressOutStream) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, lz4_compress);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor != NULL);
char *write_data = new char[OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE];
memset(write_data, 0x5a, OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE);
out_stream->write(write_data, OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE);
out_stream->flush();
//ASSERT_EQ(out_stream->get_stream_length(), sizeof(StreamHead) + 2);
//ASSERT_EQ(out_stream->output_buffers().size(), 1);
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
StreamHead head;
(*it)->get((char *)&head, sizeof(head));
ASSERT_EQ(head.type, StreamHead::COMPRESSED);
// if lzo, this should be 49
ASSERT_EQ(51, head.length);
SAFE_DELETE_ARRAY(write_data);
SAFE_DELETE(out_stream);
}
TEST(TestStream, CompressOutStream2) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, lz4_compress);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor != NULL);
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE; i++) {
out_stream->write(0x5a);
}
out_stream->write(0x5a);
out_stream->flush();
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
for (; it != out_stream->output_buffers().end(); ++it) {
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->limit());
inputs.push_back(tmp_byte_buffer);
}
std::vector<uint64_t> offsets;
offsets.push_back(0);
offsets.push_back(59); // if lzo, this shoudl be 57
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
lz4_decompress,
out_stream->get_total_buffer_size());
char data;
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
}
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
ASSERT_NE(in_stream->read(&data), OLAP_SUCCESS);
SAFE_DELETE(out_stream);
}
TEST(TestStream, CompressOutStream3) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, lz4_compress);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor != NULL);
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE; i++) {
out_stream->write(0x5a);
}
char write_data[100];
for (int32_t i = 0; i < sizeof(write_data); i++) {
write_data[i] = 0x5a;
}
out_stream->write(write_data, sizeof(write_data));
out_stream->flush();
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
for (; it != out_stream->output_buffers().end(); ++it) {
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->limit());
inputs.push_back(tmp_byte_buffer);
}
std::vector<uint64_t> offsets;
offsets.push_back(0);
offsets.push_back(57);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
lz4_decompress,
out_stream->get_total_buffer_size());
char data;
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
}
for (int32_t i = 0; i < sizeof(write_data); i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, write_data[i]);
}
ASSERT_NE(in_stream->read(&data), OLAP_SUCCESS);
SAFE_DELETE(out_stream);
}
//test for _slice() in [while (len > 0 && m_current_range < m_inputs.size())]
TEST(TestStream, CompressOutStream4) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(18, lz4_compress);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor != NULL);
for (int32_t i = 0; i < 15; i++) {
out_stream->write(0x5a);
}
out_stream->_spill();
for (int32_t i = 0; i < 12; i++) {
out_stream->write(0x5a);
}
for (int32_t i = 0; i < 6; i++) {
out_stream->write(i);
}
out_stream->flush();
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
for (; it != out_stream->output_buffers().end(); ++it) {
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->limit());
inputs.push_back(tmp_byte_buffer);
}
std::vector<uint64_t> offsets;
offsets.push_back(0);
offsets.push_back(16);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
lz4_decompress,
out_stream->get_total_buffer_size());
char data;
for (int32_t i = 0; i < 15; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
}
for (int32_t i = 0; i < 12; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
}
for (int32_t i = 0; i < 6; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, i);
}
ASSERT_NE(in_stream->read(&data), OLAP_SUCCESS);
SAFE_DELETE(out_stream);
}
TEST(TestStream, CompressMassOutStream) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(100, lz4_compress);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor != NULL);
for (int32_t i = 0; i < 100; i++) {
out_stream->write(0x5a);
}
//out_stream->write(0);
for (int32_t i = 0; i < 100; i++) {
out_stream->write(i);
}
//out_stream->write(100);
out_stream->flush();
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
for (; it != out_stream->output_buffers().end(); ++it) {
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->limit());
inputs.push_back(tmp_byte_buffer);
}
std::vector<uint64_t> offsets;
offsets.push_back(0);
offsets.push_back(19); // if lzo, this should be 17
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
lz4_decompress,
out_stream->get_total_buffer_size());
SAFE_DELETE(out_stream);
char data;
for (int32_t i = 0; i < 100; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
}
for (int32_t i = 0; i < 100; i++) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, i);
}
ASSERT_NE(in_stream->read(&data), OLAP_SUCCESS);
SAFE_DELETE(in_stream);
}
TEST(TestStream, CompressInStream) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, lz4_compress);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor != NULL);
char *write_data = new char[OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE];
memset(write_data, 0x5a, OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE);
out_stream->write(write_data, OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE);
out_stream->flush();
// read data
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
ASSERT_NE(it, out_stream->output_buffers().end());
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->capacity());
inputs.push_back(tmp_byte_buffer);
std::vector<uint64_t> offsets;
offsets.assign(inputs.size(), 0);
InStream *in_stream = new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
lz4_decompress,
out_stream->get_total_buffer_size());
ASSERT_EQ(in_stream->available(), OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE);
char data;
for (int32_t i = 0; i < OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE-1; ++i) {
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
}
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5a);
ASSERT_NE(in_stream->read(&data), OLAP_SUCCESS);
SAFE_DELETE_ARRAY(write_data);
SAFE_DELETE(out_stream);
SAFE_DELETE(in_stream);
}
TEST(TestStream, SeekUncompress) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, NULL);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor == NULL);
out_stream->write(0x5a);
PositionEntryWriter index_entry;
out_stream->get_position(&index_entry);
out_stream->write(0x5b);
ASSERT_EQ(index_entry.positions_count(), 2);
ASSERT_EQ(index_entry.positions(0), 0);
ASSERT_EQ(index_entry.positions(1), 1);
out_stream->flush();
// read data
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
ASSERT_NE(it, out_stream->output_buffers().end());
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->capacity());
inputs.push_back(tmp_byte_buffer);
std::vector<uint64_t> offsets;
offsets.assign(inputs.size(), 0);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
NULL,
out_stream->get_total_buffer_size());
ASSERT_EQ(in_stream->available(), 2);
char buffer[256];
index_entry.write_to_buffer(buffer);
StreamIndexHeader header;
header.position_format = index_entry.positions_count();
header.statistic_format = OLAP_FIELD_TYPE_TINYINT;
PositionEntryReader entry;
entry.init(&header, OLAP_FIELD_TYPE_TINYINT, false);
entry.attach(buffer);
PositionProvider position(&entry);
ASSERT_EQ(entry.positions_count(), 2);
ASSERT_EQ(entry.positions(0), 0);
ASSERT_EQ(entry.positions(1), 1);
in_stream->seek(&position);
char data;
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5b);
SAFE_DELETE(out_stream);
SAFE_DELETE(in_stream);
}
TEST(TestStream, SkipUncompress) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, NULL);
ASSERT_TRUE(out_stream != NULL);
ASSERT_TRUE(out_stream->_compressor == NULL);
char write_data[] = {0x5a, 0x5b, 0x5c, 0x5d};
for (int32_t i = 0; i < sizeof(write_data); i++) {
out_stream->write(write_data[i]);
}
out_stream->write(0x5e);
out_stream->flush();
// read data
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
ASSERT_NE(it, out_stream->output_buffers().end());
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->capacity());
inputs.push_back(tmp_byte_buffer);
std::vector<uint64_t> offsets;
offsets.assign(inputs.size(), 0);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
NULL,
out_stream->get_total_buffer_size());
ASSERT_EQ(in_stream->available(), sizeof(write_data)+1);
in_stream->skip(sizeof(write_data)-1);
char data;
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, write_data[sizeof(write_data)-1]);
SAFE_DELETE(out_stream);
SAFE_DELETE(in_stream);
}
TEST(TestStream, SeekCompress) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, lz4_compress);
ASSERT_TRUE(out_stream != NULL);
for (int32_t i = 0; i < 10; i++) {
out_stream->write(0x5a);
}
PositionEntryWriter index_entry;
out_stream->get_position(&index_entry);
out_stream->write(0x5b);
ASSERT_EQ(index_entry.positions_count(), 2);
ASSERT_EQ(index_entry.positions(0), 0);
ASSERT_EQ(index_entry.positions(1), 10);
out_stream->flush();
// read data
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
ASSERT_NE(it, out_stream->output_buffers().end());
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->capacity());
inputs.push_back(tmp_byte_buffer);
std::vector<uint64_t> offsets;
offsets.assign(inputs.size(), 0);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
lz4_decompress,
out_stream->get_total_buffer_size());
//ASSERT_EQ(in_stream->available(), 2);
char buffer[256];
index_entry.write_to_buffer(buffer);
StreamIndexHeader header;
header.position_format = index_entry.positions_count();
header.statistic_format = OLAP_FIELD_TYPE_TINYINT;
PositionEntryReader entry;
entry.init(&header, OLAP_FIELD_TYPE_TINYINT, false);
entry.attach(buffer);
PositionProvider position(&entry);
in_stream->seek(&position);
char data;
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5b);
SAFE_DELETE(out_stream);
SAFE_DELETE(in_stream);
}
TEST(TestStream, SkipCompress) {
// write data
OutStream *out_stream =
new(std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, lz4_compress);
ASSERT_TRUE(out_stream != NULL);
for (int32_t i = 0; i < 10; i++) {
out_stream->write(0x5a);
}
out_stream->write(0x5e);
out_stream->flush();
// read data
std::vector<StorageByteBuffer*> inputs;
std::vector<StorageByteBuffer*>::const_iterator it = out_stream->output_buffers().begin();
ASSERT_NE(it, out_stream->output_buffers().end());
StorageByteBuffer *tmp_byte_buffer = StorageByteBuffer::reference_buffer(*it, 0, (*it)->capacity());
inputs.push_back(tmp_byte_buffer);
std::vector<uint64_t> offsets;
offsets.assign(inputs.size(), 0);
InStream *in_stream =
new (std::nothrow) InStream(&inputs,
offsets,
out_stream->get_stream_length(),
lz4_decompress,
out_stream->get_total_buffer_size());
in_stream->skip(10);
char data;
ASSERT_EQ(in_stream->read(&data), OLAP_SUCCESS);
ASSERT_EQ(data, 0x5e);
SAFE_DELETE(out_stream);
SAFE_DELETE(in_stream);
}
class TestRunLengthByte : public testing::Test {
public:
TestRunLengthByte() {
}
virtual ~TestRunLengthByte() {
}
virtual void SetUp() {
system("mkdir -p ./ut_dir");
system("rm -rf ./ut_dir/tmp_file");
_out_stream = new (std::nothrow) OutStream(OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE, NULL);
ASSERT_TRUE(_out_stream != NULL);
_writer = new (std::nothrow) RunLengthByteWriter(_out_stream);
ASSERT_TRUE(_writer != NULL);
}
virtual void TearDown() {
SAFE_DELETE(_reader);
SAFE_DELETE(_out_stream);
SAFE_DELETE(_writer);
SAFE_DELETE(_shared_buffer);
SAFE_DELETE(_stream);
}
void CreateReader() {
ASSERT_EQ(OLAP_SUCCESS, helper.open_with_mode(_file_path.c_str(),
O_CREAT | O_EXCL | O_WRONLY, S_IRUSR | S_IWUSR));
_out_stream->write_to_file(&helper, 0);
helper.close();
ASSERT_EQ(OLAP_SUCCESS, helper.open_with_mode(_file_path.c_str(),
O_RDONLY, S_IRUSR | S_IWUSR));
_shared_buffer = StorageByteBuffer::create(
OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE + sizeof(StreamHead));
ASSERT_TRUE(_shared_buffer != NULL);
_stream = new (std::nothrow) ReadOnlyFileStream(
&helper,
&_shared_buffer,
0,
helper.length(),
NULL,
OLAP_DEFAULT_COLUMN_STREAM_BUFFER_SIZE,
&_stats);
ASSERT_EQ(OLAP_SUCCESS, _stream->init());
_reader = new (std::nothrow) RunLengthByteReader(_stream);
ASSERT_TRUE(_reader != NULL);
}
RunLengthByteReader* _reader;
OutStream* _out_stream;
RunLengthByteWriter* _writer;
FileHandler helper;
StorageByteBuffer* _shared_buffer;
ReadOnlyFileStream* _stream;
OlapReaderStatistics _stats;
std::string _file_path = "./ut_dir/tmp_file";
};
TEST_F(TestRunLengthByte, ReadWriteOneByte) {
_writer->write(0x5a);
_writer->flush();
CreateReader();
ASSERT_TRUE(_reader->has_next());
char value = 0xff;
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, 0X5A);
ASSERT_FALSE(_reader->has_next());
}
TEST_F(TestRunLengthByte, ReadWriteMultiBytes) {
// write data
char write_data[] = {0x5a, 0x5b, 0x5c, 0x5d};
for (int32_t i = 0; i < sizeof(write_data); i++) {
_writer->write(write_data[i]);
}
_writer->flush();
// the stream contain head, contral byte and four byte literal
ASSERT_EQ(_out_stream->get_stream_length(), sizeof(StreamHead) + 1 + 4);
// read data
CreateReader();
for (int32_t i = 0; i < sizeof(write_data); i++) {
ASSERT_TRUE(_reader->has_next());
char value = 0xff;
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, write_data[i]);
}
ASSERT_FALSE(_reader->has_next());
}
TEST_F(TestRunLengthByte, ReadWriteSameBytes) {
// write data
char write_data[] = {0x5a, 0x5a, 0x5a, 0x5a};
for (int32_t i = 0; i < sizeof(write_data); i++) {
_writer->write(write_data[i]);
}
_writer->flush();
// the stream contain head, contral byte(4-3) and one byte literal
ASSERT_EQ(_out_stream->get_stream_length(), sizeof(StreamHead) + 1 + 1);
// read data
CreateReader();
for (int32_t i = 0; i < sizeof(write_data); i++) {
ASSERT_TRUE(_reader->has_next());
char value = 0xff;
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, write_data[i]);
}
ASSERT_FALSE(_reader->has_next());
}
TEST_F(TestRunLengthByte, Seek) {
// write data
char write_data[] = {0x5a, 0x5b, 0x5c, 0x5d};
for (int32_t i = 0; i < sizeof(write_data); i++) {
_writer->write(write_data[i]);
}
PositionEntryWriter index_entry;
_writer->get_position(&index_entry);
_writer->write(0x5e);
_writer->write(0x5f);
_writer->write(0x60);
_writer->write(0x61);
_writer->flush();
// read data
CreateReader();
char buffer[256];
index_entry.write_to_buffer(buffer);
StreamIndexHeader header;
header.position_format = index_entry.positions_count();
header.statistic_format = OLAP_FIELD_TYPE_TINYINT;
PositionEntryReader entry;
entry.init(&header, OLAP_FIELD_TYPE_TINYINT, false);
entry.attach(buffer);
PositionProvider position(&entry);
_reader->seek(&position);
char value = 0xff;
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, 0x5e);
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, 0x5f);
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, 0x60);
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, 0x61);
}
TEST_F(TestRunLengthByte, Skip) {
// write data
char write_data[] = {0x5a, 0x5b, 0x5c, 0x5d};
for (int32_t i = 0; i < sizeof(write_data); i++) {
_writer->write(write_data[i]);
}
_writer->write(0x5e);
_writer->flush();
// read data
CreateReader();
_reader->skip(sizeof(write_data) - 1);
char value = 0xff;
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, write_data[sizeof(write_data) - 1]);
ASSERT_EQ(OLAP_SUCCESS, _reader->next(&value));
ASSERT_EQ(value, 0x5e);
}
}
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;
}
doris::init_glog("be-test");
int ret = doris::OLAP_SUCCESS;
testing::InitGoogleTest(&argc, argv);
ret = RUN_ALL_TESTS();
google::protobuf::ShutdownProtobufLibrary();
return ret;
}
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