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oceanbase/unittest/storage/blocksstable/encoding/test_column_decoder.h
wanghangQ 5cbd86c9e6 [FEAT MERGE] Vector Index & Array Type 
Co-authored-by: helloamateur <magiccheery@163.com>
Co-authored-by: skylhd <dickylhd@gmail.com>
Co-authored-by: JLY2015 <1623359870@qq.com>
2024-08-29 07:52:22 +00:00

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/**
* Copyright (c) 2021 OceanBase
* OceanBase CE is licensed under Mulan PubL v2.
* You can use this software according to the terms and conditions of the Mulan PubL v2.
* You may obtain a copy of Mulan PubL v2 at:
* http://license.coscl.org.cn/MulanPubL-2.0
* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
* See the Mulan PubL v2 for more details.
*/
#ifndef OCEANBASE_ENCODING_TEST_COLUMN_DECODER_H_
#define OCEANBASE_ENCODING_TEST_COLUMN_DECODER_H_
#define USING_LOG_PREFIX STORAGE
#include <gtest/gtest.h>
#define protected public
#define private public
#include "storage/blocksstable/encoding/ob_micro_block_encoder.h"
#include "storage/blocksstable/encoding/ob_micro_block_decoder.h"
#include "storage/blocksstable/ob_row_writer.h"
#include "storage/access/ob_block_row_store.h"
#include "storage/ob_i_store.h"
#include "sql/engine/ob_exec_context.h"
#include "sql/engine/basic/ob_pushdown_filter.h"
#include "lib/string/ob_sql_string.h"
#include "../ob_row_generate.h"
#include "common/rowkey/ob_rowkey.h"
#include "unittest/storage/mock_ob_table_read_info.h"
namespace oceanbase
{
namespace blocksstable
{
using namespace common;
using namespace storage;
using namespace share::schema;
class VectorDecodeTestUtil
{
public:
static int generate_column_output_expr(
const int64_t batch_cnt,
const ObObjMeta &obj_meta,
const VectorFormat &format,
sql::ObEvalCtx &eval_ctx,
sql::ObExpr &col_expr,
ObIAllocator &frame_allocator);
static bool verify_vector_and_datum_match(
const ObIVector &vector,
const int64_t vec_idx,
const ObDatum &datum);
static bool need_test_vec_with_type(
const VectorFormat &format,
const VecValueTypeClass &vec_tc);
static int test_batch_decode_perf(
ObMicroBlockDecoder &decoder,
const int64_t col_idx,
const ObObjMeta obj_meta,
const int64_t decode_cnt,
const VectorFormat vector_format);
};
class TestColumnDecoder : public ::testing::Test
{
public:
static const int64_t ROWKEY_CNT = 1;
int64_t COLUMN_CNT = ObExtendType - 1 + 7;
static const int64_t ROW_CNT = 64;
virtual void SetUp();
virtual void TearDown();
TestColumnDecoder()
: is_retro_(false), tenant_ctx_(OB_SERVER_TENANT_ID)
{
decode_res_pool_ = new(allocator_.alloc(sizeof(ObDecodeResourcePool))) ObDecodeResourcePool;
tenant_ctx_.set(decode_res_pool_);
share::ObTenantEnv::set_tenant(&tenant_ctx_);
encoder_.data_buffer_.allocator_.set_tenant_id(OB_SERVER_TENANT_ID);
encoder_.row_buf_holder_.allocator_.set_tenant_id(OB_SERVER_TENANT_ID);
decode_res_pool_->init();
}
TestColumnDecoder(ObColumnHeader::Type column_encoding_type)
: is_retro_(false), column_encoding_type_(column_encoding_type), tenant_ctx_(OB_SERVER_TENANT_ID)
{
decode_res_pool_ = new(allocator_.alloc(sizeof(ObDecodeResourcePool))) ObDecodeResourcePool;
tenant_ctx_.set(decode_res_pool_);
share::ObTenantEnv::set_tenant(&tenant_ctx_);
encoder_.data_buffer_.allocator_.set_tenant_id(OB_SERVER_TENANT_ID);
encoder_.row_buf_holder_.allocator_.set_tenant_id(OB_SERVER_TENANT_ID);
decode_res_pool_->init();
}
TestColumnDecoder(bool is_retro)
: is_retro_(is_retro), tenant_ctx_(OB_SERVER_TENANT_ID)
{
decode_res_pool_ = new(allocator_.alloc(sizeof(ObDecodeResourcePool))) ObDecodeResourcePool;
tenant_ctx_.set(decode_res_pool_);
share::ObTenantEnv::set_tenant(&tenant_ctx_);
encoder_.data_buffer_.allocator_.set_tenant_id(OB_SERVER_TENANT_ID);
encoder_.row_buf_holder_.allocator_.set_tenant_id(OB_SERVER_TENANT_ID);
decode_res_pool_->init();
}
virtual ~TestColumnDecoder() {}
inline void setup_obj(ObObj& obj, int64_t column_id, int64_t seed);
void init_filter(
sql::ObWhiteFilterExecutor &filter,
common::ObFixedArray<ObObj, ObIAllocator> &filter_objs,
sql::ObExpr *expr_buf,
sql::ObExpr **expr_p_buf,
ObDatum *datums,
void *datum_buf);
void init_in_filter(
sql::ObWhiteFilterExecutor &filter,
common::ObFixedArray<ObObj, ObIAllocator> &filter_objs,
sql::ObExpr *expr_buf,
sql::ObExpr **expr_p_buf,
ObDatum *datums,
void *datum_buf);
int test_filter_pushdown(
const uint64_t col_idx,
bool is_retro,
ObMicroBlockDecoder& decoder,
sql::ObPushdownWhiteFilterNode &filter_node,
common::ObBitmap &result_bitmap,
common::ObFixedArray<ObObj, ObIAllocator> &objs);
int test_filter_pushdown_with_pd_info(
int64_t start,
int64_t end,
const uint64_t col_idx,
bool is_retro,
ObMicroBlockDecoder& decoder,
sql::ObPushdownWhiteFilterNode &filter_node,
common::ObBitmap &result_bitmap,
common::ObFixedArray<ObObj, ObIAllocator> &objs);
void basic_filter_pushdown_in_op_test();
void basic_filter_pushdown_eq_ne_nu_nn_test();
void basic_filter_pushdown_comparison_test();
void basic_filter_pushdown_bt_test();
void filter_pushdown_comaprison_neg_test();
void batch_decode_to_datum_test(bool is_condensed = false);
void batch_decode_to_vector_test(
const bool is_condensed,
const bool has_null,
const bool align_row_id,
const VectorFormat vector_format);
void col_equal_batch_decode_to_vector_test(const VectorFormat vector_format);
void col_substr_batch_decode_to_vector_test(const VectorFormat vector_format);
void cell_decode_to_datum_test();
void cell_decode_to_datum_test_without_hex();
void cell_column_equal_decode_to_datum_test();
void cell_inter_column_substring_to_datum_test();
void batch_get_row_perf_test();
void set_encoding_type(ObColumnHeader::Type type);
void set_column_type_default();
void set_column_type_integer();
void set_column_type_string();
void set_column_type_column_equal();
void set_column_type_column_substring();
protected:
ObRowGenerate row_generate_;
ObMicroBlockEncodingCtx ctx_;
common::ObArray<share::schema::ObColDesc> col_descs_;
ObMicroBlockEncoder encoder_;
MockObTableReadInfo read_info_;
ObArenaAllocator allocator_;
bool is_retro_;
ObColumnHeader::Type column_encoding_type_;
ObObjType *col_obj_types_;
share::ObTenantBase tenant_ctx_;
ObDecodeResourcePool *decode_res_pool_;
int64_t extra_rowkey_cnt_;
int64_t column_cnt_;
int64_t full_column_cnt_;
int64_t rowkey_cnt_;
};
void TestColumnDecoder::set_column_type_default()
{
if (OB_NOT_NULL(col_obj_types_)) {
allocator_.free(col_obj_types_);
}
column_cnt_ = ObExtendType - 1 + 8;
rowkey_cnt_ = 2;
col_obj_types_ = reinterpret_cast<ObObjType *>(allocator_.alloc(sizeof(ObObjType) * column_cnt_));
for (int64_t i = 0; i < column_cnt_; ++i) {
ObObjType type = static_cast<ObObjType>(i + 1);
if (column_cnt_ - 1 == i) {
type = ObURowIDType;
} else if (column_cnt_ - 2 == i) {
type = ObIntervalYMType;
} else if (column_cnt_ - 3 == i) {
type = ObIntervalDSType;
} else if (column_cnt_ - 4 == i) {
type = ObTimestampTZType;
} else if (column_cnt_ - 5 == i) {
type = ObTimestampLTZType;
} else if (column_cnt_ - 6 == i) {
type = ObTimestampNanoType;
} else if (column_cnt_ - 7 == i) {
type = ObRawType;
} else if (column_cnt_ - 8 == i) {
type = ObDecimalIntType;
} else if (type == ObExtendType || type == ObUnknownType) {
type = ObVarcharType;
}
col_obj_types_[i] = type;
}
}
void TestColumnDecoder::set_column_type_integer()
{
if (OB_NOT_NULL(col_obj_types_)) {
allocator_.free(col_obj_types_);
}
column_cnt_ = ObUDoubleType - ObTinyIntType + 1 + 5;
rowkey_cnt_ = 1;
col_obj_types_ = reinterpret_cast<ObObjType *>(allocator_.alloc(sizeof(ObObjType) * column_cnt_));
for (int64_t i = 0; i <= ObUDoubleType - ObTinyIntType + 1; ++i) {
ObObjType type = static_cast<ObObjType>(i + ObTinyIntType);
col_obj_types_[i] = type;
}
col_obj_types_[column_cnt_ - 5] = static_cast<ObObjType>(ObDateTimeType);
col_obj_types_[column_cnt_ - 4] = static_cast<ObObjType>(ObTimestampType);
col_obj_types_[column_cnt_ - 3] = static_cast<ObObjType>(ObDateType);
col_obj_types_[column_cnt_ - 2] = static_cast<ObObjType>(ObTimeType);
col_obj_types_[column_cnt_ - 1] = static_cast<ObObjType>(ObYearType);
}
void TestColumnDecoder::set_column_type_string()
{
if (OB_NOT_NULL(col_obj_types_)) {
allocator_.free(col_obj_types_);
}
column_cnt_ = 4;
rowkey_cnt_ = 1;
col_obj_types_ = reinterpret_cast<ObObjType *>(allocator_.alloc(sizeof(ObObjType) * column_cnt_));
col_obj_types_[0] = ObIntType;
col_obj_types_[1] = ObVarcharType;
col_obj_types_[2] = ObCharType;
col_obj_types_[3] = ObHexStringType;
}
void TestColumnDecoder::set_column_type_column_equal()
{
if (OB_NOT_NULL(col_obj_types_)) {
allocator_.free(col_obj_types_);
}
column_cnt_ = 11;
rowkey_cnt_ = 1;
col_obj_types_ = reinterpret_cast<ObObjType *>(allocator_.alloc(sizeof(ObObjType) * column_cnt_));
col_obj_types_[0] = ObIntType;
col_obj_types_[1] = ObUInt32Type;
col_obj_types_[2] = ObUInt32Type;
col_obj_types_[3] = ObNumberType;
col_obj_types_[4] = ObNumberType;
col_obj_types_[5] = ObVarcharType;
col_obj_types_[6] = ObVarcharType;
col_obj_types_[7] = ObTimestampTZType;
col_obj_types_[8] = ObTimestampTZType;
col_obj_types_[9] = ObIntervalYMType;
col_obj_types_[10] = ObIntervalYMType;
}
void TestColumnDecoder::set_column_type_column_substring()
{
if (OB_NOT_NULL(col_obj_types_)) {
allocator_.free(col_obj_types_);
}
column_cnt_ = 7;
rowkey_cnt_ = 1;
col_obj_types_ = reinterpret_cast<ObObjType *>(allocator_.alloc(sizeof(ObObjType) * column_cnt_));
col_obj_types_[0] = ObIntType;
col_obj_types_[1] = ObVarcharType;
col_obj_types_[2] = ObVarcharType;
col_obj_types_[3] = ObCharType;
col_obj_types_[4] = ObCharType;
col_obj_types_[5] = ObHexStringType;
col_obj_types_[6] = ObHexStringType;
}
void TestColumnDecoder::SetUp()
{
if (column_encoding_type_ == ObColumnHeader::Type::INTEGER_BASE_DIFF) {
set_column_type_integer();
} else if (column_encoding_type_ == ObColumnHeader::Type::HEX_PACKING
|| column_encoding_type_ == ObColumnHeader::Type::STRING_DIFF
|| column_encoding_type_ == ObColumnHeader::Type::STRING_PREFIX) {
set_column_type_string();
} else if (column_encoding_type_ == ObColumnHeader::Type::COLUMN_EQUAL){
set_column_type_column_equal();
} else if (column_encoding_type_ == ObColumnHeader::Type::COLUMN_SUBSTR){
set_column_type_column_substring();
} else {
set_column_type_default();
}
extra_rowkey_cnt_ = ObMultiVersionRowkeyHelpper::get_extra_rowkey_col_cnt();
full_column_cnt_ = column_cnt_ + extra_rowkey_cnt_;
const int64_t tid = 200001;
ObTableSchema table;
ObColumnSchemaV2 col;
table.reset();
table.set_tenant_id(1);
table.set_tablegroup_id(1);
table.set_database_id(1);
table.set_table_id(tid);
table.set_table_name("test_column_decoder_schema");
table.set_rowkey_column_num(rowkey_cnt_);
table.set_max_column_id(column_cnt_ * 2);
table.set_block_size(2 * 1024);
table.set_compress_func_name("none");
table.set_row_store_type(ENCODING_ROW_STORE);
table.set_storage_format_version(OB_STORAGE_FORMAT_VERSION_V4);
ObSqlString str;
for (int64_t i = 0; i < column_cnt_; ++i) {
col.reset();
col.set_table_id(tid);
col.set_column_id(i + OB_APP_MIN_COLUMN_ID);
str.assign_fmt("test%ld", i);
col.set_column_name(str.ptr());
ObObjType type = col_obj_types_[i]; // 0 is ObNullType
col.set_data_type(type);
if (ObVarcharType == type || ObCharType == type || ObHexStringType == type
|| ObNVarchar2Type == type || ObNCharType == type || ObTextType == type){
col.set_collation_type(CS_TYPE_UTF8MB4_GENERAL_CI);
if (ObCharType == type) {
const int64_t max_char_length = lib::is_oracle_mode()
? OB_MAX_ORACLE_CHAR_LENGTH_BYTE
: OB_MAX_CHAR_LENGTH;
col.set_data_length(max_char_length);
}
} else {
col.set_collation_type(CS_TYPE_BINARY);
}
if (type == ObDecimalIntType) {
col.set_data_precision(10);
col.set_data_scale(0);
}
if (type == ObIntType) {
col.set_rowkey_position(1);
} else if (type == ObUInt64Type) {
col.set_rowkey_position(2);
} else{
col.set_rowkey_position(0);
}
ASSERT_EQ(OB_SUCCESS, table.add_column(col));
}
ASSERT_EQ(OB_SUCCESS, row_generate_.init(table, true/*multi_version*/));
ASSERT_EQ(OB_SUCCESS, table.get_multi_version_column_descs(col_descs_));
ASSERT_EQ(OB_SUCCESS, read_info_.init(
allocator_,
table.get_column_count(),
table.get_rowkey_column_num(),
lib::is_oracle_mode(),
col_descs_));
ctx_.micro_block_size_ = 64L << 11;
ctx_.macro_block_size_ = 2L << 20;
ctx_.rowkey_column_cnt_ = rowkey_cnt_ + extra_rowkey_cnt_;
ctx_.column_cnt_ = column_cnt_ + extra_rowkey_cnt_;
ctx_.col_descs_ = &col_descs_;
ctx_.row_store_type_ = common::ENCODING_ROW_STORE;
ctx_.compressor_type_ = common::ObCompressorType::NONE_COMPRESSOR;
if (!is_retro_) {
int64_t *column_encodings = reinterpret_cast<int64_t *>(allocator_.alloc(sizeof(int64_t) * ctx_.column_cnt_));
ctx_.column_encodings_ = column_encodings;
for (int64_t i = 0; i < ctx_.column_cnt_; ++i) {
if (i >= rowkey_cnt_ && i < read_info_.get_rowkey_count()) {
ctx_.column_encodings_[i] = ObColumnHeader::Type::RAW;
continue;
}
if (ObColumnHeader::Type::COLUMN_EQUAL == column_encoding_type_ || ObColumnHeader::Type::COLUMN_SUBSTR == column_encoding_type_){
if(i >= read_info_.get_rowkey_count() && i % 2){
ctx_.column_encodings_[i] = column_encoding_type_;
} else {
ctx_.column_encodings_[i] = ObColumnHeader::Type::RAW;
}
} else if (ObColumnHeader::Type::INTEGER_BASE_DIFF == column_encoding_type_) {
ctx_.column_encodings_[i] = column_encoding_type_;
} else if (col_obj_types_[i] == ObIntType) {
ctx_.column_encodings_[i] = ObColumnHeader::Type::DICT;
} else {
ctx_.column_encodings_[i] = column_encoding_type_;
}
}
}
ASSERT_EQ(OB_SUCCESS, encoder_.init(ctx_));
}
void TestColumnDecoder::TearDown()
{
if (OB_NOT_NULL(col_obj_types_)) {
allocator_.free(col_obj_types_);
}
if (OB_NOT_NULL(ctx_.column_encodings_)) {
allocator_.free(ctx_.column_encodings_);
}
col_descs_.reset();
encoder_.reuse();
}
void TestColumnDecoder::set_encoding_type(ObColumnHeader::Type type)
{
column_encoding_type_ = type;
}
inline void TestColumnDecoder::setup_obj(ObObj& obj, int64_t column_id, int64_t seed)
{
obj.copy_meta_type(row_generate_.column_list_.at(column_id).col_type_);
ObObjType column_type = row_generate_.column_list_.at(column_id).col_type_.get_type();
row_generate_.set_obj(column_type, row_generate_.column_list_.at(column_id).col_id_, seed, obj, 0);
if ( ObVarcharType == column_type || ObCharType == column_type || ObHexStringType == column_type
|| ObNVarchar2Type == column_type || ObNCharType == column_type || ObTextType == column_type){
obj.set_collation_type(CS_TYPE_UTF8MB4_GENERAL_CI);
obj.set_collation_level(CS_LEVEL_IMPLICIT);
} else {
obj.set_collation_type(CS_TYPE_BINARY);
obj.set_collation_level(CS_LEVEL_NUMERIC);
}
}
void TestColumnDecoder::init_filter(
sql::ObWhiteFilterExecutor &filter,
common::ObFixedArray<ObObj, ObIAllocator> &filter_objs,
sql::ObExpr *expr_buf,
sql::ObExpr **expr_p_buf,
ObDatum *datums,
void *datum_buf)
{
int count = filter_objs.count();
ObWhiteFilterOperatorType op_type = filter.filter_.get_op_type();
if (sql::WHITE_OP_NU == op_type || sql::WHITE_OP_NN == op_type) {
count = 1;
}
filter.filter_.expr_ = new (expr_buf) ObExpr();
filter.filter_.expr_->arg_cnt_ = count + 1;
filter.filter_.expr_->args_ = expr_p_buf;
ASSERT_EQ(OB_SUCCESS, filter.datum_params_.init(count));
for (int64_t i = 0; i <= count; ++i) {
filter.filter_.expr_->args_[i] = new (expr_buf + 1 + i) ObExpr();
if (i < count) {
if (sql::WHITE_OP_NU == op_type || sql::WHITE_OP_NN == op_type) {
filter.filter_.expr_->args_[i]->obj_meta_.set_null();
filter.filter_.expr_->args_[i]->datum_meta_.type_ = ObNullType;
} else {
filter.filter_.expr_->args_[i]->obj_meta_ = filter_objs.at(i).get_meta();
filter.filter_.expr_->args_[i]->datum_meta_.type_ = filter_objs.at(i).get_meta().get_type();
datums[i].ptr_ = reinterpret_cast<char *>(datum_buf) + i * 128;
datums[i].from_obj(filter_objs.at(i));
ASSERT_EQ(OB_SUCCESS, filter.datum_params_.push_back(datums[i]));
if (filter.is_null_param(datums[i], filter_objs.at(i).get_meta())) {
filter.null_param_contained_ = true;
}
}
} else {
filter.filter_.expr_->args_[i]->type_ = T_REF_COLUMN;
filter.filter_.expr_->args_[i]->obj_meta_.set_null(); // unused
}
}
filter.cmp_func_ = get_datum_cmp_func(filter.filter_.expr_->args_[0]->obj_meta_, filter.filter_.expr_->args_[0]->obj_meta_);
}
void TestColumnDecoder::init_in_filter(
sql::ObWhiteFilterExecutor &filter,
common::ObFixedArray<ObObj, ObIAllocator> &filter_objs,
sql::ObExpr *expr_buf,
sql::ObExpr **expr_p_buf,
ObDatum *datums,
void *datum_buf)
{
int count = filter_objs.count();
ASSERT_TRUE(count > 0);
filter.filter_.expr_ = new (expr_buf) ObExpr();
filter.filter_.expr_->arg_cnt_ = 2;
filter.filter_.expr_->args_ = expr_p_buf;
filter.filter_.expr_->args_[0] = new (expr_buf + 1) ObExpr();
filter.filter_.expr_->args_[1] = new (expr_buf + 2) ObExpr();
filter.filter_.expr_->inner_func_cnt_ = count;
filter.filter_.expr_->args_[1]->args_ = expr_p_buf + 2;
ObObjMeta obj_meta = filter_objs.at(0).get_meta();
sql::ObExprBasicFuncs *basic_funcs = ObDatumFuncs::get_basic_func(
obj_meta.get_type(), obj_meta.get_collation_type(), obj_meta.get_scale(), false, obj_meta.has_lob_header());
ObDatumCmpFuncType cmp_func = get_datum_cmp_func(obj_meta, obj_meta);
filter.filter_.expr_->args_[0]->type_ = T_REF_COLUMN;
filter.filter_.expr_->args_[0]->obj_meta_ = obj_meta;
filter.filter_.expr_->args_[0]->datum_meta_.type_ = obj_meta.get_type();
filter.filter_.expr_->args_[0]->basic_funcs_ = basic_funcs;
ASSERT_EQ(OB_SUCCESS, filter.datum_params_.init(count));
ASSERT_EQ(OB_SUCCESS, filter.param_set_.create(count * 2));
filter.param_set_.set_hash_and_cmp_func(basic_funcs->murmur_hash_v2_, basic_funcs->null_first_cmp_);
for (int64_t i = 0; i < count; ++i) {
filter.filter_.expr_->args_[1]->args_[i] = new (expr_buf + 3 + i) ObExpr();
filter.filter_.expr_->args_[1]->args_[i]->obj_meta_ = obj_meta;
filter.filter_.expr_->args_[1]->args_[i]->datum_meta_.type_ = obj_meta.get_type();
filter.filter_.expr_->args_[1]->args_[i]->basic_funcs_ = basic_funcs;
datums[i].ptr_ = reinterpret_cast<char *>(datum_buf) + i * 128;
datums[i].from_obj(filter_objs.at(i));
if (!filter.is_null_param(datums[i], filter_objs.at(i).get_meta())) {
ASSERT_EQ(OB_SUCCESS, filter.add_to_param_set_and_array(datums[i], filter.filter_.expr_->args_[1]->args_[i]));
}
}
std::sort(filter.datum_params_.begin(), filter.datum_params_.end(),
[cmp_func] (const ObDatum datum1, const ObDatum datum2) {
int cmp_ret = 0;
cmp_func(datum1, datum2, cmp_ret);
return cmp_ret < 0;
});
filter.cmp_func_ = cmp_func;
filter.param_set_.set_hash_and_cmp_func(basic_funcs->murmur_hash_v2_, filter.cmp_func_);
}
int TestColumnDecoder::test_filter_pushdown(
const uint64_t col_idx,
bool is_retro,
ObMicroBlockDecoder& decoder,
sql::ObPushdownWhiteFilterNode &filter_node,
common::ObBitmap &result_bitmap,
common::ObFixedArray<ObObj, ObIAllocator> &objs)
{
int ret = OB_SUCCESS;
sql::PushdownFilterInfo pd_filter_info;
sql::ObExecContext exec_ctx(allocator_);
sql::ObEvalCtx eval_ctx(exec_ctx);
sql::ObPushdownExprSpec expr_spec(allocator_);
sql::ObPushdownOperator op(eval_ctx, expr_spec);
sql::ObWhiteFilterExecutor filter(allocator_, filter_node, op);
filter.col_offsets_.init(COLUMN_CNT);
filter.col_params_.init(COLUMN_CNT);
const ObColumnParam *col_param = nullptr;
filter.col_params_.push_back(col_param);
filter.col_offsets_.push_back(col_idx);
filter.n_cols_ = 1;
void *storage_datum_buf = allocator_.alloc(sizeof(ObStorageDatum) * COLUMN_CNT);
EXPECT_TRUE(storage_datum_buf != nullptr);
pd_filter_info.datum_buf_ = new (storage_datum_buf) ObStorageDatum [COLUMN_CNT]();
pd_filter_info.col_capacity_ = full_column_cnt_;
pd_filter_info.start_ = 0;
pd_filter_info.count_ = decoder.row_count_;
int count = objs.count();
ObWhiteFilterOperatorType op_type = filter_node.get_op_type();
if (sql::WHITE_OP_NU == op_type || sql::WHITE_OP_NN == op_type) {
count = 1;
}
int count_expr = WHITE_OP_IN == op_type ? count + 3 : count + 2;
int count_expr_p = WHITE_OP_IN == op_type ? count + 2 : count + 1;
sql::ObExpr *expr_buf = reinterpret_cast<sql::ObExpr *>(allocator_.alloc(sizeof(sql::ObExpr) * count_expr));
sql::ObExpr **expr_p_buf = reinterpret_cast<sql::ObExpr **>(allocator_.alloc(sizeof(sql::ObExpr*) * count_expr_p));
void *datum_buf = allocator_.alloc(sizeof(int8_t) * 128 * count);
ObDatum datums[count];
EXPECT_TRUE(OB_NOT_NULL(expr_buf));
EXPECT_TRUE(OB_NOT_NULL(expr_p_buf));
if (WHITE_OP_IN == op_type) {
init_in_filter(filter, objs, expr_buf, expr_p_buf, datums, datum_buf);
} else {
init_filter(filter, objs, expr_buf, expr_p_buf, datums, datum_buf);
}
if (OB_UNLIKELY(2 > filter.filter_.expr_->arg_cnt_)) {
ret = OB_ERR_UNEXPECTED;
LOG_WARN("Unexpected filter expr", K(ret), K(filter.filter_.expr_->arg_cnt_));
} else {
if (is_retro) {
ret = decoder.filter_pushdown_retro(nullptr, filter, pd_filter_info, col_idx, filter.col_params_.at(0), pd_filter_info.datum_buf_[0], result_bitmap);
} else {
ret = decoder.filter_pushdown_filter(nullptr, filter, pd_filter_info, result_bitmap);
}
}
if (nullptr != storage_datum_buf) {
allocator_.free(storage_datum_buf);
}
if (nullptr != expr_buf) {
allocator_.free(expr_buf);
}
if (nullptr != expr_p_buf) {
allocator_.free(expr_p_buf);
}
if (nullptr != datum_buf) {
allocator_.free(datum_buf);
}
return ret;
}
int TestColumnDecoder::test_filter_pushdown_with_pd_info(
int64_t start,
int64_t end,
const uint64_t col_idx,
bool is_retro,
ObMicroBlockDecoder& decoder,
sql::ObPushdownWhiteFilterNode &filter_node,
common::ObBitmap &result_bitmap,
common::ObFixedArray<ObObj, ObIAllocator> &objs)
{
int ret = OB_SUCCESS;
sql::PushdownFilterInfo pd_filter_info;
sql::ObExecContext exec_ctx(allocator_);
sql::ObEvalCtx eval_ctx(exec_ctx);
sql::ObPushdownExprSpec expr_spec(allocator_);
sql::ObPushdownOperator op(eval_ctx, expr_spec);
sql::ObWhiteFilterExecutor filter(allocator_, filter_node, op);
filter.col_offsets_.init(COLUMN_CNT);
filter.col_params_.init(COLUMN_CNT);
const ObColumnParam *col_param = nullptr;
filter.col_params_.push_back(col_param);
filter.col_offsets_.push_back(col_idx);
filter.n_cols_ = 1;
void *storage_datum_buf = allocator_.alloc(sizeof(ObStorageDatum) * COLUMN_CNT);
EXPECT_TRUE(storage_datum_buf != nullptr);
pd_filter_info.datum_buf_ = new (storage_datum_buf) ObStorageDatum [COLUMN_CNT]();
pd_filter_info.col_capacity_ = full_column_cnt_;
pd_filter_info.start_ = start;
pd_filter_info.count_ = end - start;
int count = objs.count();
ObWhiteFilterOperatorType op_type = filter_node.get_op_type();
if (sql::WHITE_OP_NU == op_type || sql::WHITE_OP_NN == op_type) {
count = 1;
}
int count_expr = WHITE_OP_IN == op_type ? count + 3 : count + 2;
int count_expr_p = WHITE_OP_IN == op_type ? count + 2 : count + 1;
sql::ObExpr *expr_buf = reinterpret_cast<sql::ObExpr *>(allocator_.alloc(sizeof(sql::ObExpr) * count_expr));
sql::ObExpr **expr_p_buf = reinterpret_cast<sql::ObExpr **>(allocator_.alloc(sizeof(sql::ObExpr*) * count_expr_p));
void *datum_buf = allocator_.alloc(sizeof(int8_t) * 128 * count);
ObDatum datums[count];
EXPECT_TRUE(OB_NOT_NULL(expr_buf));
EXPECT_TRUE(OB_NOT_NULL(expr_p_buf));
if (WHITE_OP_IN == op_type) {
init_in_filter(filter, objs, expr_buf, expr_p_buf, datums, datum_buf);
} else {
init_filter(filter, objs, expr_buf, expr_p_buf, datums, datum_buf);
}
if (OB_UNLIKELY(2 > filter.filter_.expr_->arg_cnt_)) {
ret = OB_ERR_UNEXPECTED;
LOG_WARN("Unexpected filter expr", K(ret), K(filter.filter_.expr_->arg_cnt_));
} else {
if (is_retro) {
ret = decoder.filter_pushdown_retro(nullptr, filter, pd_filter_info, col_idx, filter.col_params_.at(0), pd_filter_info.datum_buf_[0], result_bitmap);
} else {
ret = decoder.filter_pushdown_filter(nullptr, filter, pd_filter_info, result_bitmap);
}
}
if (nullptr != storage_datum_buf) {
allocator_.free(storage_datum_buf);
}
if (nullptr != expr_buf) {
allocator_.free(expr_buf);
}
if (nullptr != expr_p_buf) {
allocator_.free(expr_p_buf);
}
if (nullptr != datum_buf) {
allocator_.free(datum_buf);
}
return ret;
}
void TestColumnDecoder::basic_filter_pushdown_in_op_test()
{
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
int64_t seed2 = 10002;
int64_t seed3 = 10003;
int64_t seed5 = 10005;
for (int64_t i = 0; i < ROW_CNT - 40; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 40; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT - 20; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed2, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 20; i < ROW_CNT - 10; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed3, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 10; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
int64_t seed0_count = ROW_CNT - 40;
int64_t seed1_count = 10;
int64_t seed2_count = 10;
int64_t seed3_count = 10;
int64_t null_count = 10;
int64_t seed5_count = 0;
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_)) << "buffer size: " << data.get_buf_size() << std::endl;
for (int64_t i = 0; i < full_column_cnt_; ++i) {
if (i >= rowkey_cnt_ && i < read_info_.get_rowkey_count()) {
continue;
}
sql::ObPushdownWhiteFilterNode white_filter(allocator_);
sql::ObPushdownWhiteFilterNode white_filter_2(allocator_);
ObMalloc mallocer;
mallocer.set_label("ColumnDecoder");
ObFixedArray<ObObj, ObIAllocator> objs(mallocer, 3);
objs.init(3);
ObObj ref_obj0;
setup_obj(ref_obj0, i, seed0);
ObObj ref_obj1;
setup_obj(ref_obj1, i, seed1);
ObObj ref_obj2;
setup_obj(ref_obj2, i, seed2);
ObObj ref_obj5;
setup_obj(ref_obj5, i, seed5);
objs.push_back(ref_obj1);
objs.push_back(ref_obj2);
objs.push_back(ref_obj5);
// 0--- ROW_CNT-40 --- ROW_CNT-30 --- ROW_CNT-20 ---ROW_CNT-10 --- ROW_CNT
// | seed0 | seed1 | seed2 | seed3 | null |
// | |
// ROW_CNT-35 ROW_CNT-5
int32_t col_idx = i;
white_filter.op_type_ = sql::WHITE_OP_IN;
ObBitmap result_bitmap(allocator_);
result_bitmap.init(ROW_CNT);
ASSERT_EQ(0, result_bitmap.popcnt());
ObBitmap pd_result_bitmap(allocator_);
pd_result_bitmap.init(30);
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed1_count + seed2_count, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 35, ROW_CNT - 5, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(5 + seed2_count, pd_result_bitmap.popcnt());
objs.reuse();
objs.init(3);
objs.push_back(ref_obj5);
objs.push_back(ref_obj5);
objs.push_back(ref_obj5);
white_filter_2.op_type_ = sql::WHITE_OP_IN;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter_2, result_bitmap, objs));
ASSERT_EQ(0, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 35, ROW_CNT - 5, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(0, pd_result_bitmap.popcnt());
}
}
void TestColumnDecoder::basic_filter_pushdown_eq_ne_nu_nn_test()
{
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed_1 = 10001;
int64_t seed_2 = 10002;
for (int64_t i = 0; i < ROW_CNT - 40; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed_1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 40; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT - 10; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed_2, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 10; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
int64_t seed1_count = ROW_CNT - 40;
int64_t seed2_count = 20;
int64_t null_count = 20;
char* buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_)) << "buffer size: " << data.get_buf_size() << std::endl;
for (int64_t i = 0; i < full_column_cnt_; ++i) {
if (i >= rowkey_cnt_ && i < read_info_.get_rowkey_count()) {
continue;
}
sql::ObPushdownWhiteFilterNode white_filter(allocator_);
ObMalloc mallocer;
mallocer.set_label("ColumnDecoder");
ObFixedArray<ObObj, ObIAllocator> objs(mallocer, 1);
objs.init(1);
ObObj ref_obj_1, ref_obj_2;
setup_obj(ref_obj_1, i, seed_1);
setup_obj(ref_obj_2, i, seed_2);
objs.push_back(ref_obj_1);
int32_t col_idx = i;
ObBitmap result_bitmap(allocator_);
result_bitmap.init(ROW_CNT);
ObBitmap pd_result_bitmap(allocator_);
pd_result_bitmap.init(30);
// 0 --- ROW_CNT-40 --- ROW_CNT-30 --- ROW_CNT-10 --- ROW_CNT
// | seed1 | null | seed2 | null |
// | |
// ROW_CNT-50 ROW_CNT-20
white_filter.op_type_ = sql::WHITE_OP_NU;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(null_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 50, ROW_CNT - 20, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(10, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_NN;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed1_count + seed2_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 50, ROW_CNT - 20, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(20, pd_result_bitmap.popcnt());
result_bitmap.reuse();
white_filter.op_type_ = sql::WHITE_OP_EQ;
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed1_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 50, ROW_CNT - 20, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(10, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_NE;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed2_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 50, ROW_CNT - 20, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(10, pd_result_bitmap.popcnt());
objs.pop_back();
objs.push_back(ref_obj_2);
white_filter.op_type_ = sql::WHITE_OP_EQ;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed2_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 50, ROW_CNT - 20, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(10, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_NE;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed1_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 50, ROW_CNT - 20, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(10, pd_result_bitmap.popcnt());
}
}
void TestColumnDecoder::basic_filter_pushdown_comparison_test()
{
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
int64_t seed2 = 10002;
int64_t neg_seed_0 = -10000;
for (int64_t i = 0; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT - 20; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 20; i < ROW_CNT - 10; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed2, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 10; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
int64_t seed0_count = ROW_CNT - 30;
int64_t seed1_count = 10;
int64_t seed2_count = 10;
int64_t null_count = 10;
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_)) << "buffer size: " << data.get_buf_size() << std::endl;
sql::ObPushdownWhiteFilterNode white_filter(allocator_);
// 0--- ROW_CNT-30 --- ROW_CNT-20 --- ROW_CNT-10 --- ROW_CNT
// | seed0 | seed1 | seed2 | null |
// | |
// ROW_CNT-35 ROW_CNT-5
for (int64_t i = 0; i < full_column_cnt_ - 1; ++i) {
if (i >= rowkey_cnt_ && i < read_info_.get_rowkey_count()) {
continue;
}
ObMalloc mallocer;
mallocer.set_label("ColumnDecoder");
ObFixedArray<ObObj, ObIAllocator> objs(mallocer, 1);
objs.init(1);
ObObj ref_obj;
setup_obj(ref_obj, i, seed1);
objs.push_back(ref_obj);
int32_t col_idx = i;
ObBitmap result_bitmap(allocator_);
result_bitmap.init(ROW_CNT);
ASSERT_EQ(0, result_bitmap.popcnt());
ObBitmap pd_result_bitmap(allocator_);
pd_result_bitmap.init(30);
ASSERT_EQ(0, pd_result_bitmap.popcnt());
// Greater Than
white_filter.op_type_ = sql::WHITE_OP_GT;
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed2_count, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(5, pd_result_bitmap.popcnt());
// Less Than
white_filter.op_type_ = sql::WHITE_OP_LT;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed0_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(15, pd_result_bitmap.popcnt());
// Greater than or Equal to
white_filter.op_type_ = sql::WHITE_OP_GE;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed1_count + seed2_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(seed1_count + 5, pd_result_bitmap.popcnt());
// Less than or Equal to
white_filter.op_type_ = sql::WHITE_OP_LE;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed0_count + seed1_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(seed1_count + 15, pd_result_bitmap.popcnt());
if (ob_is_int_tc(row_generate_.column_list_.at(i).col_type_.get_type())) {
// Test cmp with negative values
setup_obj(ref_obj, i, neg_seed_0);
objs.clear();
objs.push_back(ref_obj);
white_filter.op_type_ = sql::WHITE_OP_GT;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(ROW_CNT - null_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(15 + seed1_count + 5, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_LT;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(0, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(0, pd_result_bitmap.popcnt());
}
}
}
void TestColumnDecoder::filter_pushdown_comaprison_neg_test()
{
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
const int64_t seed0 = -128;
const int64_t seed1 = seed0 + 1;
const int64_t seed2 = seed0 + 2;
const int64_t ref_seed0 = seed1;
const int64_t ref_seed1 = seed0 - 1;
const int64_t seed0_count = ROW_CNT - 30;
const int64_t seed1_count = 10;
const int64_t seed2_count = 20;
for (int64_t i = 0; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT - 20; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 20; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed2, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_)) << "buffer size: " << data.get_buf_size() << std::endl;
sql::ObPushdownWhiteFilterNode white_filter(allocator_);
for (int64_t i = 0; i < full_column_cnt_ - 1; ++i) {
if (i >= rowkey_cnt_ && i < read_info_.get_rowkey_count()) {
continue;
}
ObObjTypeStoreClass column_sc
= get_store_class_map()[row_generate_.column_list_.at(i).col_type_.get_type_class()];
if (column_sc != ObIntSC) {
continue;
}
ObMalloc mallocer;
mallocer.set_label("ColumnDecoder");
ObFixedArray<ObObj, ObIAllocator> objs(mallocer, 1);
objs.init(1);
ObObj ref_obj;
setup_obj(ref_obj, i, ref_seed0);
objs.push_back(ref_obj);
int32_t col_idx = i;
// 0--- ROW_CNT-30 --- ROW_CNT-20 --- ROW_CNT
// | seed0 | seed1 | seed2 |
// | |
// ROW_CNT-45 ROW_CNT-15
ObBitmap result_bitmap(allocator_);
result_bitmap.init(ROW_CNT);
ASSERT_EQ(0, result_bitmap.popcnt());
ObBitmap pd_result_bitmap(allocator_);
pd_result_bitmap.init(30);
ASSERT_EQ(0, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_GT;
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed2_count, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(5, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_GE;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed1_count + seed2_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(seed1_count + 5, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_LT;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed0_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(15, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_LE;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed0_count + seed1_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(15 + seed1_count, pd_result_bitmap.popcnt());
setup_obj(ref_obj, i, ref_seed1);
objs.clear();
objs.push_back(ref_obj);
white_filter.op_type_ = sql::WHITE_OP_GT;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed0_count + seed1_count + seed2_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(15 + seed1_count + 5, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_GE;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed0_count + seed1_count + seed2_count, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(15 + seed1_count + 5, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_LT;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(0, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(0, pd_result_bitmap.popcnt());
white_filter.op_type_ = sql::WHITE_OP_LE;
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(0, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 45, ROW_CNT - 15, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(0, pd_result_bitmap.popcnt());
}
}
void TestColumnDecoder::basic_filter_pushdown_bt_test()
{
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
int64_t seed2 = 10002;
for (int64_t i = 0; i < ROW_CNT - 10; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
for (int64_t i = ROW_CNT - 10; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
}
int64_t seed0_count = ROW_CNT - 10;
int64_t seed1_count = 10;
int64_t seed3_count = 0;
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_)) << "buffer size: " << data.get_buf_size() << std::endl;
sql::ObPushdownWhiteFilterNode white_filter(allocator_);
for (int64_t i = 0; i < full_column_cnt_; ++i) {
if (i >= rowkey_cnt_ && i < read_info_.get_rowkey_count()) {
continue;
}
ObMalloc mallocer;
mallocer.set_label("ColumnDecoder");
ObFixedArray<ObObj, ObIAllocator> objs(mallocer, 2);
objs.init(2);
ObObj ref_obj1;
setup_obj(ref_obj1, i, seed1);
ObObj ref_obj2;
setup_obj(ref_obj2, i, seed2);
objs.push_back(ref_obj1);
objs.push_back(ref_obj2);
int32_t col_idx = i;
// 0 --------- ROW_CNT-10 --- ROW_CNT
// | seed0 | seed1 |
// | |
// ROW_CNT-35 ROW_CNT-5
ObBitmap result_bitmap(allocator_);
result_bitmap.init(ROW_CNT);
ASSERT_EQ(0, result_bitmap.popcnt());
ObBitmap pd_result_bitmap(allocator_);
pd_result_bitmap.init(30);
ASSERT_EQ(0, pd_result_bitmap.popcnt());
// Normal
white_filter.op_type_ = sql::WHITE_OP_BT;
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(seed1_count, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 35, ROW_CNT - 5, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(5, pd_result_bitmap.popcnt());
// Empty range
objs.reuse();
objs.init(2);
objs.push_back(ref_obj2);
objs.push_back(ref_obj1);
result_bitmap.reuse();
ASSERT_EQ(0, result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown(col_idx, is_retro_, decoder, white_filter, result_bitmap, objs));
ASSERT_EQ(0, result_bitmap.popcnt());
pd_result_bitmap.reuse();
ASSERT_EQ(0, pd_result_bitmap.popcnt());
ASSERT_EQ(OB_SUCCESS, test_filter_pushdown_with_pd_info(ROW_CNT - 35, ROW_CNT - 5, col_idx, is_retro_, decoder, white_filter, pd_result_bitmap, objs));
ASSERT_EQ(0, pd_result_bitmap.popcnt());
}
}
void TestColumnDecoder::batch_decode_to_datum_test(bool is_condensed)
{
void *row_buf = allocator_.alloc(sizeof(ObDatumRow) * ROW_CNT);
ObDatumRow *rows = new (row_buf) ObDatumRow[ROW_CNT];
for (int64_t i = 0; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, rows[i].init(allocator_, full_column_cnt_));
}
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
if (is_condensed) {
for (int64_t i = 0; i < ROW_CNT - 60; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
for (int64_t j = 0; j < full_column_cnt_; ++j) {
// Generate data for var_length
if (col_descs_[i].col_type_.get_type() == ObVarcharType) {
ObStorageDatum &datum = row.storage_datums_[j];
datum.len_ = i < datum.len_ ? i : datum.len_;
}
}
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row));
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 60; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row));
rows[i].deep_copy(row, allocator_);
}
const_cast<bool &>(encoder_.ctx_.encoder_opt_.enable_bit_packing_) = false;
} else {
for (int64_t i = 0; i < ROW_CNT - 35; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 35; i < ROW_CNT - 32; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
const ObRowHeader *row_header = nullptr;
int64_t row_len = 0;
const char *row_data = nullptr;
const char *cell_datas[ROW_CNT];
void *datum_buf = allocator_.alloc(sizeof(int8_t) * 128 * ROW_CNT);
for (int64_t i = 0; i < full_column_cnt_; ++i) {
if (i >= rowkey_cnt_ && i < read_info_.get_rowkey_count()) {
continue;
}
int32_t col_offset = i;
STORAGE_LOG(INFO, "Current col: ", K(i), K(col_descs_.at(i)),
K(row.storage_datums_[i]), K(*decoder.decoders_[col_offset].ctx_));
ObDatum datums[ROW_CNT];
int32_t row_ids[ROW_CNT];
for (int32_t j = 0; j < ROW_CNT; ++j) {
datums[j].ptr_ = reinterpret_cast<char *>(datum_buf) + j * 128;
row_ids[j] = j;
}
ASSERT_EQ(OB_SUCCESS, decoder.decoders_[col_offset]
.batch_decode(decoder.row_index_,
row_ids,
cell_datas,
ROW_CNT,
datums));
for (int64_t j = 0; j < ROW_CNT; ++j) {
LOG_INFO("Current row: ", K(j), K(col_offset), K(rows[j].storage_datums_[col_offset]), K(datums[j]));
ASSERT_TRUE(ObDatum::binary_equal(rows[j].storage_datums_[col_offset], datums[j]));
}
}
}
void TestColumnDecoder::cell_decode_to_datum_test()
{
void *row_buf = allocator_.alloc(sizeof(ObDatumRow) * ROW_CNT);
ObDatumRow *rows = new (row_buf) ObDatumRow[ROW_CNT];
for (int64_t i = 0; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, rows[i].init(allocator_, full_column_cnt_));
}
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
for (int64_t i = 0; i < ROW_CNT - 35; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 35; i < ROW_CNT - 32; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
int64_t row_len = 0;
const char *row_data = nullptr;
void *datum_buf_1 = allocator_.alloc(sizeof(int8_t) * 128);
for (int64_t i = 0; i < full_column_cnt_; ++i) {
if (i >= ROWKEY_CNT && i < read_info_.get_rowkey_count()) {
continue;
}
int32_t col_offset = i;
LOG_INFO("Current col: ", K(i), K(col_descs_.at(i)), K(*decoder.decoders_[col_offset].ctx_));
for (int64_t j = 0; j < ROW_CNT; ++j) {
ObDatum datum;
datum.ptr_ = reinterpret_cast<char *>(datum_buf_1);
ASSERT_EQ(OB_SUCCESS, decoder.row_index_->get(j, row_data, row_len));
ObBitStream bs(reinterpret_cast<unsigned char *>(const_cast<char *>(row_data)), row_len);
ASSERT_EQ(OB_SUCCESS,
decoder.decoders_[col_offset].decode(datum,j, bs, row_data, row_len));
LOG_INFO("Current row: ", K(j), K(col_offset), K(rows[j].storage_datums_[col_offset]), K(datum));
ASSERT_TRUE(ObDatum::binary_equal(rows[j].storage_datums_[col_offset], datum));
}
}
}
void TestColumnDecoder::cell_decode_to_datum_test_without_hex()
{
void *row_buf = allocator_.alloc(sizeof(ObDatumRow) * ROW_CNT);
ObDatumRow *rows = new (row_buf) ObDatumRow[ROW_CNT];
for (int64_t i = 0; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, rows[i].init(allocator_, full_column_cnt_));
}
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
const char *str_test = "cell_decode_to_datum_test_without_hex_string";
for (int64_t i = 0; i < ROW_CNT - 35; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 35; i < ROW_CNT - 32; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t j = read_info_.get_rowkey_count(); j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_string(str_test,strlen(str_test));
}
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
int64_t row_len = 0;
const char *row_data = nullptr;
void *datum_buf = allocator_.alloc(sizeof(int8_t) * 128);
for (int64_t i = 0; i < full_column_cnt_; ++i) {
if (i >= ROWKEY_CNT && i < read_info_.get_rowkey_count()) {
continue;
}
int32_t col_offset = i;
LOG_INFO("Current col: ", K(i), K(col_descs_.at(i)), K(*decoder.decoders_[col_offset].ctx_));
for (int64_t j = 0; j < ROW_CNT; ++j) {
ObDatum datum;
datum.ptr_ = reinterpret_cast<char *>(datum_buf);
ASSERT_EQ(OB_SUCCESS, decoder.row_index_->get(j, row_data, row_len));
ObBitStream bs(reinterpret_cast<unsigned char *>(const_cast<char *>(row_data)), row_len);
ASSERT_EQ(OB_SUCCESS,
decoder.decoders_[col_offset].decode(datum,j, bs, row_data, row_len));
LOG_INFO("Current row: ", K(j), K(col_offset), K(rows[j].storage_datums_[col_offset]), K(datum));
ASSERT_TRUE(ObDatum::binary_equal(rows[j].storage_datums_[col_offset], datum));
}
}
}
void TestColumnDecoder::cell_column_equal_decode_to_datum_test()
{
void *row_buf = allocator_.alloc(sizeof(ObDatumRow) * ROW_CNT);
ObDatumRow *rows = new (row_buf) ObDatumRow[ROW_CNT];
for (int64_t i = 0; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, rows[i].init(allocator_, full_column_cnt_));
}
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
for (int64_t i = 0; i < ROW_CNT - 35; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_; j += 2) {
row.storage_datums_[j] = row.storage_datums_[j - 1];
}
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 35; i < ROW_CNT - 32; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_; j += 2) {
row.storage_datums_[j] = row.storage_datums_[j - 1];
}
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT - 2; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_; j += 2) {
row.storage_datums_[j] = row.storage_datums_[j - 1];
}
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
// generate exception data
for (int64_t i = ROW_CNT - 2; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
int64_t row_len = 0;
const char *row_data = nullptr;
void *datum_buf = allocator_.alloc(sizeof(int8_t) * 128);
for (int64_t i = 0; i < full_column_cnt_; ++i) {
if (i >= ROWKEY_CNT && i < read_info_.get_rowkey_count()) {
continue;
}
int32_t col_offset = i;
LOG_INFO("Current col: ", K(i), K(col_descs_.at(i)), K(*decoder.decoders_[col_offset].ctx_));
for (int64_t j = 0; j < ROW_CNT; ++j) {
ObDatum datum;
datum.ptr_ = reinterpret_cast<char *>(datum_buf);
ASSERT_EQ(OB_SUCCESS, decoder.row_index_->get(j, row_data, row_len));
ObBitStream bs(reinterpret_cast<unsigned char *>(const_cast<char *>(row_data)), row_len);
ASSERT_EQ(OB_SUCCESS,
decoder.decoders_[col_offset].decode(datum,j, bs, row_data, row_len));
LOG_INFO("Current row: ", K(j), K(col_offset), K(rows[j].storage_datums_[col_offset]), K(datum));
ASSERT_TRUE(ObDatum::binary_equal(rows[j].storage_datums_[col_offset], datum));
}
}
}
void TestColumnDecoder::cell_inter_column_substring_to_datum_test()
{
void *row_buf = allocator_.alloc(sizeof(ObDatumRow) * ROW_CNT);
ObDatumRow *rows = new (row_buf) ObDatumRow[ROW_CNT];
for (int64_t i = 0; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, rows[i].init(allocator_, full_column_cnt_));
}
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
for (int64_t i = 0; i < ROW_CNT - 35; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
// generate different start point data
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_ - 2; j += 2) {
ObString str = row.storage_datums_[j].get_string();
ObString sub_str;
ob_sub_str(allocator_, str, i / 5, sub_str);
row.storage_datums_[j - 1].set_string(sub_str);
}
// generate same start point data
ObString str = row.storage_datums_[full_column_cnt_ - 1].get_string();
ObString sub_str;
ob_sub_str(allocator_,str,1,sub_str);
row.storage_datums_[full_column_cnt_ - 2].set_string(sub_str);
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 35; i < ROW_CNT - 32; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_ - 2; j += 2) {
ObString str = row.storage_datums_[j].get_string();
ObString sub_str;
ob_sub_str(allocator_, str, i / 5, sub_str);
row.storage_datums_[j - 1].set_string(sub_str);
}
ObString str = row.storage_datums_[full_column_cnt_ - 1].get_string();
ObString sub_str;
ob_sub_str(allocator_,str,1,sub_str);
row.storage_datums_[full_column_cnt_ - 2].set_string(sub_str);
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT - 2; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_ - 2; j += 2) {
ObString str = row.storage_datums_[j].get_string();
ObString sub_str;
ob_sub_str(allocator_, str, i / 5, sub_str);
row.storage_datums_[j - 1].set_string(sub_str);
}
ObString str = row.storage_datums_[full_column_cnt_ - 1].get_string();
ObString sub_str;
ob_sub_str(allocator_,str,1,sub_str);
row.storage_datums_[full_column_cnt_ - 2].set_string(sub_str);
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
// generate exception data
for (int64_t i = ROW_CNT - 2; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
int64_t row_len = 0;
const char *row_data = nullptr;
void *datum_buf = allocator_.alloc(sizeof(int8_t) * 128);
for (int64_t i = 0; i < full_column_cnt_; ++i) {
if (i >= ROWKEY_CNT && i < read_info_.get_rowkey_count()) {
continue;
}
int32_t col_offset = i;
LOG_INFO("Current col: ", K(i), K(col_descs_.at(i)), K(*decoder.decoders_[col_offset].ctx_));
for (int64_t j = 0; j < ROW_CNT; ++j) {
ObDatum datum;
datum.ptr_ = reinterpret_cast<char *>(datum_buf);
ASSERT_EQ(OB_SUCCESS, decoder.row_index_->get(j, row_data, row_len));
ObBitStream bs(reinterpret_cast<unsigned char *>(const_cast<char *>(row_data)), row_len);
ASSERT_EQ(OB_SUCCESS,
decoder.decoders_[col_offset].decode(datum,j, bs, row_data, row_len));
LOG_INFO("Current row: ", K(j), K(col_offset), K(rows[j].storage_datums_[col_offset]), K(datum));
ASSERT_TRUE(ObDatum::binary_equal(rows[j].storage_datums_[col_offset], datum));
}
}
}
// void TestColumnDecoder::batch_get_row_perf_test()
// {
// ObDatumRow row;
// ASSERT_EQ(OB_SUCCESS, row.init(allocator_, column_cnt_));
// int64_t seed0 = 10000;
// int64_t seed1 = 10001;
// for (int64_t i = 0; i < ROW_CNT - 5; ++i) {
// ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
// ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
// }
// for (int64_t i = ROW_CNT - 5; i < ROW_CNT - 2; ++i) {
// ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
// ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
// }
// for (int64_t j = 0; j < column_cnt_; ++j) {
// row.storage_datums_[j].set_null();
// }
// for (int64_t i = ROW_CNT - 2; i < ROW_CNT; ++i) {
// ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
// }
// char *buf = NULL;
// int64_t size = 0;
// ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
// ObMicroBlockDecoder decoder;
// // Batch get rows by row
// ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
// ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
// ObStoreRow *rows = new ObStoreRow[ROW_CNT];
// char *obj_buf = new char[common::OB_ROW_MAX_COLUMNS_COUNT * sizeof(ObObj) * ROW_CNT];
// for (int64_t i = 0; i < ROW_CNT; ++i) {
// rows[i].row_val_.cells_ = reinterpret_cast<ObObj *>(obj_buf) + i * common::OB_ROW_MAX_COLUMNS_COUNT;
// rows[i].row_val_.count_ = common::OB_ROW_MAX_COLUMNS_COUNT;
// }
// int64_t single_start_time = common::ObTimeUtility::current_time();
// for (int64_t j = 0; j < 10000; ++j) {
// int64_t batch_count = 0;
// int64_t batch_num = ROW_CNT;
// decoder.get_rows(0, ROW_CNT, ROW_CNT, rows, batch_count);
// }
// int64_t single_end_time = common::ObTimeUtility::current_time();
// std::cout << "Single decode by row cost time: " << single_end_time - single_start_time << std::endl;
// // Batch get rows by column
// ObSEArray<int32_t, OB_DEFAULT_SE_ARRAY_COUNT> cols;
// for (int64_t i = 0; i < (column_cnt_); ++i) {
// cols.push_back(i);
// }
// common::ObFixedArray<const share::schema::ObColumnParam *, common::ObIAllocator> col_params(allocator_);
// col_params.init(COLUMN_CNT);
// const share::schema::ObColumnParam *param = nullptr;
// for (int64_t i = 0; i < COLUMN_CNT; i++) {
// col_params.push_back(param);
// }
// int64_t row_ids[ROW_CNT];
// for (int64_t i = 0; i < ROW_CNT; ++i) {
// row_ids[i] = i;
// }
// ObDatum *datum_buf = new ObDatum[ROW_CNT * column_cnt_];
// int64_t single_ptr_buf_len = 8;
// char *datum_ptr_buf = reinterpret_cast<char *>(
// allocator_.alloc(ROW_CNT * column_cnt_ * sizeof(char) * single_ptr_buf_len));
// const char *cell_datas[ROW_CNT];
// ObArray<ObDatum *> datum_arr;
// for (int64_t i = 0; i < (column_cnt_); ++i) {
// ASSERT_EQ(OB_SUCCESS, datum_arr.push_back(datum_buf + ROW_CNT * i));
// for (int64_t j = 0; j < ROW_CNT; ++j) {
// datum_arr.at(i)[j].ptr_ = reinterpret_cast<char *>(
// &datum_ptr_buf[single_ptr_buf_len * (ROW_CNT * i + j)]);
// }
// }
// ASSERT_EQ(OB_SUCCESS, decoder.get_rows(cols, col_params, row_ids, cell_datas, ROW_CNT, datum_arr));
// int64_t batch_start_time = common::ObTimeUtility::current_time();
// for (int64_t i = 0; i < 10000; ++i) {
// decoder.get_rows(cols, col_params, row_ids, cell_datas, ROW_CNT, datum_arr);
// }
// int64_t batch_end_time = common::ObTimeUtility::current_time();
// std::cout << "Batch decode by column cost time: " << batch_end_time - batch_start_time << std::endl;
// }
void TestColumnDecoder::batch_decode_to_vector_test(
const bool is_condensed,
const bool has_null,
const bool align_row_id,
const VectorFormat vector_format)
{
FLOG_INFO("start one batch decode to vector test", K(is_condensed), K(has_null), K(vector_format));
ObArenaAllocator test_allocator;
encoder_.reuse();
void *row_buf = allocator_.alloc(sizeof(ObDatumRow) * ROW_CNT);
ObDatumRow *rows = new (row_buf) ObDatumRow[ROW_CNT];
for (int64_t i = 0; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, rows[i].init(test_allocator, full_column_cnt_));
}
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(test_allocator, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
for (int64_t i = 0; i < ROW_CNT - 35; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, test_allocator);
}
for (int64_t i = ROW_CNT - 35; i < ROW_CNT - 32; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, test_allocator);
}
if (has_null) {
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, test_allocator);
}
} else {
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, test_allocator);
}
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, test_allocator);
}
if (is_condensed) {
const_cast<bool &>(encoder_.ctx_.encoder_opt_.enable_bit_packing_) = false;
} else {
const_cast<bool &>(encoder_.ctx_.encoder_opt_.enable_bit_packing_) = true;
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
ObArenaAllocator frame_allocator;
sql::ObExecContext exec_context(test_allocator);
sql::ObEvalCtx eval_ctx(exec_context);
const char *ptr_arr[ROW_CNT];
uint32_t len_arr[ROW_CNT];
for (int64_t i = 0; i < full_column_cnt_; ++i) {
bool need_test_column = true;
ObObjMeta col_meta = col_descs_.at(i).col_type_;
const int16_t precision = col_meta.is_decimal_int() ? col_meta.get_stored_precision() : PRECISION_UNKNOWN_YET;
VecValueTypeClass vec_tc = common::get_vec_value_tc(
col_meta.get_type(),
col_meta.get_scale(),
precision);
if (i >= ROWKEY_CNT && i < read_info_.get_rowkey_count()) {
need_test_column = false;
} else {
need_test_column = VectorDecodeTestUtil::need_test_vec_with_type(vector_format, vec_tc);
}
if (!need_test_column) {
continue;
}
sql::ObExpr col_expr;
int64_t test_row_cnt = align_row_id ? ROW_CNT : ROW_CNT / 2;
ASSERT_EQ(OB_SUCCESS, VectorDecodeTestUtil::generate_column_output_expr(
ROW_CNT, col_meta, vector_format, eval_ctx, col_expr, frame_allocator));
int32_t col_offset = i;
LOG_INFO("Current col: ", K(i), K(col_meta), K(*decoder.decoders_[col_offset].ctx_), K(precision), K(vec_tc));
int32_t row_ids[test_row_cnt];
int32_t row_id_idx = 0;
for (int64_t datum_idx = 0; datum_idx < ROW_CNT; ++datum_idx) {
if (!align_row_id && 0 == datum_idx % 2) {
// skip
} else if (row_id_idx == test_row_cnt) {
// skip
} else {
row_ids[row_id_idx] = datum_idx;
++row_id_idx;
}
}
ObVectorDecodeCtx vector_ctx(ptr_arr, len_arr, row_ids, test_row_cnt, 0, col_expr.get_vector_header(eval_ctx));
ASSERT_EQ(OB_SUCCESS, decoder.decoders_[col_offset].decode_vector(decoder.row_index_, vector_ctx));
for (int64_t vec_idx = 0; vec_idx < test_row_cnt; ++vec_idx) {
ASSERT_TRUE(VectorDecodeTestUtil::verify_vector_and_datum_match(*(col_expr.get_vector_header(eval_ctx).get_vector()),
vec_idx, rows[row_ids[vec_idx]].storage_datums_[col_offset]));
}
// ASSERT_EQ(OB_SUCCESS, VectorDecodeTestUtil::test_batch_decode_perf(decoder, col_offset, col_meta, 100000, vector_format));
decoder.decoder_allocator_.reuse();
}
}
void TestColumnDecoder::col_equal_batch_decode_to_vector_test(const VectorFormat vector_format)
{
FLOG_INFO("start one column equal batch decode to vector test", K(vector_format));
ObArenaAllocator test_allocator;
encoder_.reuse();
void *row_buf = allocator_.alloc(sizeof(ObDatumRow) * ROW_CNT);
ObDatumRow *rows = new (row_buf) ObDatumRow[ROW_CNT];
for (int64_t i = 0; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, rows[i].init(allocator_, full_column_cnt_));
}
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
for (int64_t i = 0; i < ROW_CNT - 35; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_; j += 2) {
row.storage_datums_[j] = row.storage_datums_[j - 1];
}
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 35; i < ROW_CNT - 32; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_; j += 2) {
row.storage_datums_[j] = row.storage_datums_[j - 1];
}
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT - 2; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_; j += 2) {
row.storage_datums_[j] = row.storage_datums_[j - 1];
}
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
// generate exception data
for (int64_t i = ROW_CNT - 2; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
ObArenaAllocator frame_allocator;
sql::ObExecContext exec_context(test_allocator);
sql::ObEvalCtx eval_ctx(exec_context);
const char *ptr_arr[ROW_CNT];
uint32_t len_arr[ROW_CNT];
for (int64_t i = 0; i < full_column_cnt_; ++i) {
bool need_test_column = true;
ObObjMeta col_meta = col_descs_.at(i).col_type_;
const int16_t precision = col_meta.is_decimal_int() ? col_meta.get_stored_precision() : PRECISION_UNKNOWN_YET;
VecValueTypeClass vec_tc = common::get_vec_value_tc(
col_meta.get_type(),
col_meta.get_scale(),
precision);
if (i >= ROWKEY_CNT && i < read_info_.get_rowkey_count()) {
need_test_column = false;
} else {
need_test_column = VectorDecodeTestUtil::need_test_vec_with_type(vector_format, vec_tc);
}
if (!need_test_column) {
continue;
}
sql::ObExpr col_expr;
ASSERT_EQ(OB_SUCCESS, VectorDecodeTestUtil::generate_column_output_expr(
ROW_CNT, col_meta, vector_format, eval_ctx, col_expr, frame_allocator));
int32_t col_offset = i;
LOG_INFO("Current col: ", K(i), K(col_meta), K(*decoder.decoders_[col_offset].ctx_), K(precision), K(vec_tc));
int32_t row_ids[ROW_CNT];
for (int32_t datum_idx = 0; datum_idx < ROW_CNT; ++datum_idx) {
row_ids[datum_idx] = datum_idx;
}
ObVectorDecodeCtx vector_ctx(ptr_arr, len_arr, row_ids, ROW_CNT, 0, col_expr.get_vector_header(eval_ctx));
ASSERT_EQ(OB_SUCCESS, decoder.decoders_[col_offset].decode_vector(decoder.row_index_, vector_ctx));
for (int64_t vec_idx = 0; vec_idx < ROW_CNT; ++vec_idx) {
ASSERT_TRUE(VectorDecodeTestUtil::verify_vector_and_datum_match(*(col_expr.get_vector_header(eval_ctx).get_vector()),
vec_idx, rows[vec_idx].storage_datums_[col_offset]));
}
}
}
void TestColumnDecoder::col_substr_batch_decode_to_vector_test(const VectorFormat vector_format)
{
FLOG_INFO("start one column substring batch decode to vector test", K(vector_format));
ObArenaAllocator test_allocator;
encoder_.reuse();
void *row_buf = allocator_.alloc(sizeof(ObDatumRow) * ROW_CNT);
ObDatumRow *rows = new (row_buf) ObDatumRow[ROW_CNT];
for (int64_t i = 0; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, rows[i].init(allocator_, full_column_cnt_));
}
ObDatumRow row;
ASSERT_EQ(OB_SUCCESS, row.init(allocator_, full_column_cnt_));
int64_t seed0 = 10000;
int64_t seed1 = 10001;
for (int64_t i = 0; i < ROW_CNT - 35; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
// generate different start point data
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_ - 2; j += 2) {
ObString str = row.storage_datums_[j].get_string();
ObString sub_str;
ob_sub_str(allocator_, str, i / 5, sub_str);
row.storage_datums_[j - 1].set_string(sub_str);
}
// generate same start point data
ObString str = row.storage_datums_[full_column_cnt_ - 1].get_string();
ObString sub_str;
ob_sub_str(allocator_,str,1,sub_str);
row.storage_datums_[full_column_cnt_ - 2].set_string(sub_str);
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 35; i < ROW_CNT - 32; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed1, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_ - 2; j += 2) {
ObString str = row.storage_datums_[j].get_string();
ObString sub_str;
ob_sub_str(allocator_, str, i / 5, sub_str);
row.storage_datums_[j - 1].set_string(sub_str);
}
ObString str = row.storage_datums_[full_column_cnt_ - 1].get_string();
ObString sub_str;
ob_sub_str(allocator_,str,1,sub_str);
row.storage_datums_[full_column_cnt_ - 2].set_string(sub_str);
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t j = 0; j < full_column_cnt_; ++j) {
row.storage_datums_[j].set_null();
}
for (int64_t i = ROW_CNT - 32; i < ROW_CNT - 30; ++i) {
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
for (int64_t i = ROW_CNT - 30; i < ROW_CNT - 2; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
for (int64_t j = read_info_.get_rowkey_count() + 1; j < full_column_cnt_ - 2; j += 2) {
ObString str = row.storage_datums_[j].get_string();
ObString sub_str;
ob_sub_str(allocator_, str, i / 5, sub_str);
row.storage_datums_[j - 1].set_string(sub_str);
}
ObString str = row.storage_datums_[full_column_cnt_ - 1].get_string();
ObString sub_str;
ob_sub_str(allocator_,str,1,sub_str);
row.storage_datums_[full_column_cnt_ - 2].set_string(sub_str);
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
// generate exception data
for (int64_t i = ROW_CNT - 2; i < ROW_CNT; ++i) {
ASSERT_EQ(OB_SUCCESS, row_generate_.get_next_row(seed0, row));
ASSERT_EQ(OB_SUCCESS, encoder_.append_row(row)) << "i: " << i << std::endl;
rows[i].deep_copy(row, allocator_);
}
char *buf = NULL;
int64_t size = 0;
ASSERT_EQ(OB_SUCCESS, encoder_.build_block(buf, size));
ObMicroBlockDecoder decoder;
ObMicroBlockData data(encoder_.data_buffer_.data(), encoder_.data_buffer_.length());
ASSERT_EQ(OB_SUCCESS, decoder.init(data, read_info_));
ObArenaAllocator frame_allocator;
sql::ObExecContext exec_context(test_allocator);
sql::ObEvalCtx eval_ctx(exec_context);
const char *ptr_arr[ROW_CNT];
uint32_t len_arr[ROW_CNT];
for (int64_t i = 0; i < full_column_cnt_; ++i) {
bool need_test_column = true;
ObObjMeta col_meta = col_descs_.at(i).col_type_;
const int16_t precision = col_meta.is_decimal_int() ? col_meta.get_stored_precision() : PRECISION_UNKNOWN_YET;
VecValueTypeClass vec_tc = common::get_vec_value_tc(
col_meta.get_type(),
col_meta.get_scale(),
precision);
if (i >= ROWKEY_CNT && i < read_info_.get_rowkey_count()) {
need_test_column = false;
} else {
need_test_column = VectorDecodeTestUtil::need_test_vec_with_type(vector_format, vec_tc);
}
if (!need_test_column) {
continue;
}
sql::ObExpr col_expr;
ASSERT_EQ(OB_SUCCESS, VectorDecodeTestUtil::generate_column_output_expr(
ROW_CNT, col_meta, vector_format, eval_ctx, col_expr, frame_allocator));
int32_t col_offset = i;
LOG_INFO("Current col: ", K(i), K(col_meta), K(*decoder.decoders_[col_offset].ctx_), K(precision), K(vec_tc));
int32_t row_ids[ROW_CNT];
for (int32_t datum_idx = 0; datum_idx < ROW_CNT; ++datum_idx) {
row_ids[datum_idx] = datum_idx;
}
ObVectorDecodeCtx vector_ctx(ptr_arr, len_arr, row_ids, ROW_CNT, 0, col_expr.get_vector_header(eval_ctx));
ASSERT_EQ(OB_SUCCESS, decoder.decoders_[col_offset].decode_vector(decoder.row_index_, vector_ctx));
for (int64_t vec_idx = 0; vec_idx < ROW_CNT; ++vec_idx) {
ASSERT_TRUE(VectorDecodeTestUtil::verify_vector_and_datum_match(*(col_expr.get_vector_header(eval_ctx).get_vector()),
vec_idx, rows[vec_idx].storage_datums_[col_offset]));
}
}
}
int VectorDecodeTestUtil::generate_column_output_expr(
const int64_t batch_cnt,
const ObObjMeta &obj_meta,
const VectorFormat &format,
sql::ObEvalCtx &eval_ctx,
sql::ObExpr &col_expr,
ObIAllocator &frame_allocator)
{
// int ObStaticEngineExprCG::arrange_datums_data
int ret = OB_SUCCESS;
int64_t cur_total_size = 0;
col_expr.reset();
col_expr.batch_result_ = 1;
// hard coded
col_expr.frame_idx_ = 0;
col_expr.res_buf_len_ = 128;
const int16_t precision = obj_meta.is_decimal_int() ? obj_meta.get_stored_precision() : PRECISION_UNKNOWN_YET;
col_expr.vec_value_tc_ = get_vec_value_tc(obj_meta.get_type(), obj_meta.get_scale(), precision);
col_expr.is_fixed_length_data_ = common::is_fixed_length_vec(col_expr.vec_value_tc_);
col_expr.datum_off_ = cur_total_size;
cur_total_size += sizeof(ObDatum) * batch_cnt;
col_expr.pvt_skip_off_ = cur_total_size;
cur_total_size += sql::ObBitVector::memory_size(batch_cnt);
if (!col_expr.is_fixed_length_data_) {
col_expr.len_arr_off_ = cur_total_size;
cur_total_size += sizeof(uint32_t) * (batch_cnt + 1); // offsets size
col_expr.offset_off_ = cur_total_size;
cur_total_size += sizeof(char *) * (batch_cnt); // ptrs size
}
col_expr.vector_header_off_ = cur_total_size;
cur_total_size += sizeof(sql::VectorHeader);
col_expr.null_bitmap_off_ = cur_total_size;
cur_total_size += sql::ObBitVector::memory_size(batch_cnt);
if (!col_expr.is_fixed_length_data_) {
col_expr.cont_buf_off_ = cur_total_size;
cur_total_size += sizeof(sql::ObDynReserveBuf);
}
col_expr.eval_info_off_ = cur_total_size;
cur_total_size += sizeof(sql::ObEvalInfo);
col_expr.eval_flags_off_ = cur_total_size;
cur_total_size += sql::ObBitVector::memory_size(batch_cnt);
col_expr.dyn_buf_header_offset_ = cur_total_size;
cur_total_size += sql::ObDynReserveBuf::supported(obj_meta.get_type()) ? batch_cnt * sizeof(sql::ObDynReserveBuf) : 0;
col_expr.res_buf_off_ = cur_total_size;
cur_total_size += col_expr.res_buf_len_ * batch_cnt;
char **frame_arr = (char **)frame_allocator.alloc(sizeof(char *));
char *frame = (char *)frame_allocator.alloc(cur_total_size);
if (nullptr == frame || nullptr == frame_arr) {
ret = OB_ERR_UNEXPECTED;
STORAGE_LOG(WARN, "null frame", K(ret));
} else {
memset(frame, 0, cur_total_size);
eval_ctx.frames_ = frame_arr;
eval_ctx.frames_[0] = frame;
if (OB_FAIL(col_expr.init_vector(eval_ctx, format, batch_cnt))) {
STORAGE_LOG(WARN, "failed to init vector", K(ret));
} else {
if (is_uniform_format(format)) {
col_expr.reset_datums_ptr(frame, batch_cnt);
} else if (is_discrete_format(format)) {
col_expr.reset_discretes_ptr(frame, batch_cnt, col_expr.get_discrete_vector_ptrs(eval_ctx));
}
}
}
return ret;
}
bool VectorDecodeTestUtil::verify_vector_and_datum_match(
const ObIVector &vector,
const int64_t vec_idx,
const ObDatum &datum)
{
int bret = false;
ObDatum vec_datum;
if (datum.is_null()) {
bret = vector.is_null(vec_idx);
} else {
ObLength length = vector.get_length(vec_idx);
vec_datum.len_ = length;
vec_datum.ptr_ = vector.get_payload(vec_idx);
bret = ObDatum::binary_equal(vec_datum, datum);
}
if (!bret) {
LOG_INFO("datum not match with datum from vector", K(vec_idx), K(datum), K(vec_datum));
}
return bret;
}
bool VectorDecodeTestUtil::need_test_vec_with_type(
const VectorFormat &vector_format,
const VecValueTypeClass &vec_tc)
{
bool need_test_column = true;
if (vector_format == VEC_FIXED) {
VecValueTypeClass fixed_tc_arr[] = {VEC_TC_INTEGER, VEC_TC_UINTEGER, VEC_TC_FLOAT, VEC_TC_DOUBLE,
VEC_TC_FIXED_DOUBLE, VEC_TC_DATETIME, VEC_TC_DATE, VEC_TC_TIME, VEC_TC_YEAR, VEC_TC_UNKNOWN,
VEC_TC_BIT, VEC_TC_ENUM_SET, VEC_TC_TIMESTAMP_TZ, VEC_TC_TIMESTAMP_TINY, VEC_TC_INTERVAL_YM,
VEC_TC_INTERVAL_DS, VEC_TC_DEC_INT32, VEC_TC_DEC_INT64, VEC_TC_DEC_INT128, VEC_TC_DEC_INT256,
VEC_TC_DEC_INT512};
VecValueTypeClass *vec = std::find(std::begin(fixed_tc_arr), std::end(fixed_tc_arr), vec_tc);
if (vec == std::end(fixed_tc_arr)) {
need_test_column = false;
}
} else if (vector_format == VEC_DISCRETE) {
VecValueTypeClass var_tc_arr[] = {VEC_TC_NUMBER, VEC_TC_EXTEND, VEC_TC_STRING, VEC_TC_ENUM_SET_INNER,
VEC_TC_RAW, VEC_TC_ROWID, VEC_TC_LOB, VEC_TC_JSON, VEC_TC_GEO, VEC_TC_UDT, VEC_TC_COLLECTION, VEC_TC_ROARINGBITMAP};
VecValueTypeClass *vec = std::find(std::begin(var_tc_arr), std::end(var_tc_arr), vec_tc);
if (vec == std::end(var_tc_arr)) {
need_test_column = false;
}
} else if (vector_format == VEC_CONTINUOUS) {
// not support shallow copy to continuous vector for now
need_test_column = VEC_TC_NUMBER == vec_tc;
} else {
need_test_column = true;
}
return need_test_column;
}
int VectorDecodeTestUtil::test_batch_decode_perf(
ObMicroBlockDecoder &decoder,
const int64_t col_idx,
const ObObjMeta col_meta,
const int64_t decode_cnt,
const VectorFormat vector_format)
{
int ret = OB_SUCCESS;
ObArenaAllocator test_allocator;
sql::ObExecContext exec_context(test_allocator);
sql::ObEvalCtx eval_ctx(exec_context);
sql::ObExpr col_expr;
const int16_t precision = col_meta.is_decimal_int() ? col_meta.get_stored_precision() : PRECISION_UNKNOWN_YET;
VecValueTypeClass vec_tc = common::get_vec_value_tc(col_meta.get_type(), col_meta.get_scale(), precision);
int64_t row_cnt = 0;
void *datum_buf = nullptr;
if (OB_UNLIKELY(!VectorDecodeTestUtil::need_test_vec_with_type(vector_format, vec_tc))) {
ret = OB_NOT_SUPPORTED;
LOG_WARN("not supported test vector type with column meta", K(ret),
K(vector_format), K(col_meta), K(vec_tc), K(precision));
} else if (OB_FAIL(decoder.get_row_count(row_cnt))) {
LOG_WARN("failed to get row cnt", K(ret));
} else if (OB_FAIL(VectorDecodeTestUtil::generate_column_output_expr(
row_cnt, col_meta, vector_format, eval_ctx, col_expr, test_allocator))) {
LOG_WARN("failed to generate column output expr", K(ret));
} else if (OB_ISNULL(datum_buf = test_allocator.alloc(sizeof(int8_t) * 128 * row_cnt))) {
ret = OB_ALLOCATE_MEMORY_FAILED;
LOG_WARN("failed to allocate memory for datum buffer", K(ret));
} else {
// decode to vector
const char *ptr_arr[row_cnt];
uint32_t len_arr[row_cnt];
int32_t row_ids[row_cnt];
for (int32_t datum_idx = 0; datum_idx < row_cnt; ++datum_idx) {
row_ids[datum_idx] = datum_idx;
}
ObVectorDecodeCtx decode_ctx(ptr_arr, len_arr, row_ids, row_cnt, 0, col_expr.get_vector_header(eval_ctx));
const int64_t vector_start_ts = ObTimeUtility::current_time();
for (int64_t decode_round = 0; decode_round < decode_cnt; ++decode_round) {
if (OB_FAIL(decoder.decoders_[col_idx].decode_vector(decoder.row_index_, decode_ctx))) {
LOG_WARN("failed to decode vector", K(ret), K(decode_ctx));
}
}
const int64_t vector_end_ts = ObTimeUtility::current_time();
// decode to datums
ObDatum datums[row_cnt];
for (int64_t j = 0; j < row_cnt; ++j) {
datums[j].ptr_ = reinterpret_cast<char *>(datum_buf) + j * 128;
row_ids[j] = j;
}
const int64_t datum_start_ts = ObTimeUtility::current_time();
for (int64_t decode_round = 0; decode_round < decode_cnt; ++decode_round) {
if (OB_FAIL(decoder.decoders_[col_idx].batch_decode(decoder.row_index_, row_ids, ptr_arr, row_cnt, datums))) {
LOG_WARN("failed to decode vector", K(ret), K(decode_ctx));
}
}
const int64_t datum_end_ts = ObTimeUtility::current_time();
FLOG_INFO("finish one batch decode perf test: ", K(col_idx), K(col_meta), K(vector_format),
K(decode_cnt), K(vector_start_ts), K(vector_end_ts), K(datum_start_ts), K(datum_end_ts),
"vector decode time", vector_end_ts - vector_start_ts,
"batch decode time", datum_end_ts - datum_start_ts,
KPC(decoder.decoders_[col_idx].ctx_));
}
return ret;
}
} // end of namespace blocksstable
} // end of namespace oceanbase
#endif // OCEANBASE_ENCODING_TEST_COLUMN_DECODER_H_
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