Coverage Report

Created: 2024-11-22 11:49

/root/doris/be/src/vec/functions/regexps.h
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// Licensed to the Apache Software Foundation (ASF) under one
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// or more contributor license agreements.  See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership.  The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License.  You may obtain a copy of the License at
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//
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//   http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
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// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied.  See the License for the
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// specific language governing permissions and limitations
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// under the License.
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// This file is copied from
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// https://github.com/ClickHouse/ClickHouse/blob/master/src/Functions/Regexps.h
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// and modified by Doris
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#pragma once
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#include <hs/hs.h>
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#include <hs/hs_common.h>
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#include <boost/container_hash/hash.hpp>
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#include <memory>
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#include <mutex>
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#include <optional>
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#include <string>
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#include <utility>
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#include <vector>
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#include "common/exception.h"
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#include "vec/common/string_ref.h"
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namespace doris::vectorized::multiregexps {
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template <typename Deleter, Deleter deleter>
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struct HyperscanDeleter {
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    template <typename T>
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    void operator()(T* ptr) const {
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        deleter(ptr);
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    }
Unexecuted instantiation: _ZNK5doris10vectorized12multiregexps16HyperscanDeleterIPFiP16hs_compile_errorEXadL_Z21hs_free_compile_errorEEEclIS3_EEvPT_
Unexecuted instantiation: _ZNK5doris10vectorized12multiregexps16HyperscanDeleterIPFiP11hs_databaseEXadL_Z16hs_free_databaseEEEclIS3_EEvPT_
Unexecuted instantiation: _ZNK5doris10vectorized12multiregexps16HyperscanDeleterIPFiP10hs_scratchEXadL_Z15hs_free_scratchEEEclIS3_EEvPT_
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};
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/// Helper unique pointers to correctly delete the allocated space when hyperscan cannot compile something and we throw an exception.
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using CompilerError =
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        std::unique_ptr<hs_compile_error_t,
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                        HyperscanDeleter<decltype(&hs_free_compile_error), &hs_free_compile_error>>;
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using ScratchPtr = std::unique_ptr<hs_scratch_t,
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                                   HyperscanDeleter<decltype(&hs_free_scratch), &hs_free_scratch>>;
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using DataBasePtr =
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        std::unique_ptr<hs_database_t,
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                        HyperscanDeleter<decltype(&hs_free_database), &hs_free_database>>;
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/// Database is thread safe across multiple threads and Scratch is not but we can copy it whenever we use it in the searcher.
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class Regexps {
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public:
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    Regexps(hs_database_t* db_, hs_scratch_t* scratch_) : db {db_}, scratch {scratch_} {}
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    hs_database_t* getDB() const { return db.get(); }
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    hs_scratch_t* getScratch() const { return scratch.get(); }
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private:
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    DataBasePtr db;
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    ScratchPtr scratch;
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};
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class DeferredConstructedRegexps {
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public:
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    explicit DeferredConstructedRegexps(std::function<Regexps()> constructor_)
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            : constructor(std::move(constructor_)) {}
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    Regexps* get() {
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        std::lock_guard lock(mutex);
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        if (regexps) {
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            return &*regexps;
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        }
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        regexps = constructor();
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        return &*regexps;
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    }
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private:
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    std::mutex mutex;
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    std::function<Regexps()> constructor;
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    std::optional<Regexps> regexps;
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};
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using DeferredConstructedRegexpsPtr = std::shared_ptr<DeferredConstructedRegexps>;
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template <bool save_indices, bool WithEditDistance>
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Regexps constructRegexps(const std::vector<String>& str_patterns,
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                         [[maybe_unused]] std::optional<UInt32> edit_distance) {
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    /// Common pointers
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    std::vector<const char*> patterns;
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    std::vector<unsigned int> flags;
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    /// Pointer for external edit distance compilation
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    std::vector<hs_expr_ext> ext_exprs;
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    std::vector<const hs_expr_ext*> ext_exprs_ptrs;
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    patterns.reserve(str_patterns.size());
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    flags.reserve(str_patterns.size());
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    if constexpr (WithEditDistance) {
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        ext_exprs.reserve(str_patterns.size());
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        ext_exprs_ptrs.reserve(str_patterns.size());
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    }
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    for (const auto& ref : str_patterns) {
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        patterns.push_back(ref.data());
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        /* Flags below are the pattern matching flags.
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         * HS_FLAG_DOTALL is a compile flag where matching a . will not exclude newlines. This is a good
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         * performance practice according to Hyperscan API. https://intel.github.io/hyperscan/dev-reference/performance.html#dot-all-mode
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         * HS_FLAG_ALLOWEMPTY is a compile flag where empty strings are allowed to match.
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         * HS_FLAG_UTF8 is a flag where UTF8 literals are matched.
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         * HS_FLAG_SINGLEMATCH is a compile flag where each pattern match will be returned only once. it is a good performance practice
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         * as it is said in the Hyperscan documentation. https://intel.github.io/hyperscan/dev-reference/performance.html#single-match-flag
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         */
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        flags.push_back(HS_FLAG_DOTALL | HS_FLAG_SINGLEMATCH | HS_FLAG_ALLOWEMPTY | HS_FLAG_UTF8);
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        if constexpr (WithEditDistance) {
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            /// Hyperscan currently does not support UTF8 matching with edit distance.
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            flags.back() &= ~HS_FLAG_UTF8;
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            ext_exprs.emplace_back();
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            /// HS_EXT_FLAG_EDIT_DISTANCE is a compile flag responsible for Levenstein distance.
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            ext_exprs.back().flags = HS_EXT_FLAG_EDIT_DISTANCE;
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            ext_exprs.back().edit_distance = edit_distance.value();
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            ext_exprs_ptrs.push_back(&ext_exprs.back());
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        }
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    }
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    hs_database_t* db = nullptr;
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    hs_compile_error_t* compile_error = nullptr;
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    std::unique_ptr<unsigned int[]> ids;
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    /// We mark the patterns to provide the callback results.
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    if constexpr (save_indices) {
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        ids.reset(new unsigned int[patterns.size()]);
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        for (size_t i = 0; i < patterns.size(); ++i) {
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            ids[i] = static_cast<unsigned>(i + 1);
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        }
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    }
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    for (auto& pattern : patterns) {
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        LOG(INFO) << "pattern: " << pattern << "\n";
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    }
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    hs_error_t err;
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    if constexpr (!WithEditDistance) {
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        err = hs_compile_multi(patterns.data(), flags.data(), ids.get(),
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                               static_cast<unsigned>(patterns.size()), HS_MODE_BLOCK, nullptr, &db,
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                               &compile_error);
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    } else {
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        err = hs_compile_ext_multi(patterns.data(), flags.data(), ids.get(), ext_exprs_ptrs.data(),
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                                   static_cast<unsigned>(patterns.size()), HS_MODE_BLOCK, nullptr,
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                                   &db, &compile_error);
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    }
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    if (err != HS_SUCCESS) [[unlikely]] {
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        /// CompilerError is a unique_ptr, so correct memory free after the exception is thrown.
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        CompilerError error(compile_error);
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        if (error->expression < 0) { // error has nothing to do with the patterns themselves
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            throw doris::Exception(Status::InternalError("Compile regexp expression failed. got {}",
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                                                         error->message));
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        } else {
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            throw doris::Exception(Status::InvalidArgument(
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                    "Compile regexp expression failed. got {}. some expressions may be illegal",
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                    error->message));
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        }
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    }
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    /// We allocate the scratch space only once, then copy it across multiple threads with hs_clone_scratch
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    /// function which is faster than allocating scratch space each time in each thread.
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    hs_scratch_t* scratch = nullptr;
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    err = hs_alloc_scratch(db, &scratch);
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    if (err != HS_SUCCESS) [[unlikely]] {
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        if (err == HS_NOMEM) [[unlikely]] {
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            throw doris::Exception(Status::MemoryAllocFailed(
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                    "Allocating memory failed on compiling regexp expressions."));
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        } else {
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            throw doris::Exception(Status::InvalidArgument(
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                    "Compile regexp expression failed with unexpected arguments perhaps"));
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        }
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    }
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    return {db, scratch};
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}
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/// Maps string pattern vectors + edit distance to compiled vectorscan regexps. Uses the same eviction mechanism as the LocalCacheTable for
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/// re2 patterns. Because vectorscan regexes are overall more heavy-weight (more expensive compilation, regexes can grow up to multiple
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/// MBs, usage of scratch space), 1. GlobalCacheTable is a global singleton and, as a result, needs locking 2. the pattern compilation is
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/// done outside GlobalCacheTable's lock, at the cost of another level of locking.
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struct GlobalCacheTable {
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    constexpr static size_t CACHE_SIZE = 500; /// collision probability
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    struct Bucket {
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        std::vector<String> patterns;        /// key
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        std::optional<UInt32> edit_distance; /// key
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        /// The compiled patterns and their state (vectorscan 'database' + scratch space) are wrapped in a shared_ptr. Refcounting guarantees
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        /// that eviction of a pattern does not affect parallel threads still using the pattern.
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        DeferredConstructedRegexpsPtr regexps; /// value
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    };
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    std::mutex mutex;
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    std::array<Bucket, CACHE_SIZE> known_regexps;
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    static size_t getBucketIndexFor(const std::vector<String> patterns,
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                                    std::optional<UInt32> edit_distance) {
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        size_t hash = 0;
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        for (const auto& pattern : patterns) {
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            boost::hash_combine(hash, pattern);
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        }
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        boost::hash_combine(hash, edit_distance);
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        return hash % CACHE_SIZE;
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    }
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};
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/// If WithEditDistance is False, edit_distance must be nullopt. Also, we use templates here because each instantiation of function template
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/// has its own copy of local static variables which must not be the same for different hyperscan compilations.
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template <bool save_indices, bool WithEditDistance>
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DeferredConstructedRegexpsPtr getOrSet(const std::vector<StringRef>& patterns,
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                                       std::optional<UInt32> edit_distance) {
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    static GlobalCacheTable
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            pool; /// Different variables for different pattern parameters, thread-safe in C++11
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    std::vector<String> str_patterns;
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    str_patterns.reserve(patterns.size());
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    for (const auto& pattern : patterns) {
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        str_patterns.emplace_back(pattern.to_string());
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    }
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    size_t bucket_idx = GlobalCacheTable::getBucketIndexFor(str_patterns, edit_distance);
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    /// Lock cache to find compiled regexp for given pattern vector + edit distance.
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    std::lock_guard lock(pool.mutex);
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    GlobalCacheTable::Bucket& bucket = pool.known_regexps[bucket_idx];
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    /// Pattern compilation is expensive and we don't want to block other threads reading from / inserting into the cache while we hold the
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    /// cache lock during pattern compilation. Therefore, when a cache entry is created or replaced, only set the regexp constructor method
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    /// and compile outside the cache lock.
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    /// Note that the string patterns and the edit distance is passed into the constructor lambda by value, i.e. copied - it is not an
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    /// option to reference the corresponding string patterns / edit distance key in the cache table bucket because the cache entry may
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    /// already be evicted at the time the compilation starts.
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    if (bucket.regexps == nullptr) {
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        /// insert new entry
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        auto deferred_constructed_regexps =
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                std::make_shared<DeferredConstructedRegexps>([str_patterns, edit_distance]() {
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                    return constructRegexps<save_indices, WithEditDistance>(str_patterns,
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                                                                            edit_distance);
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                });
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        bucket = {std::move(str_patterns), edit_distance, deferred_constructed_regexps};
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    } else if (bucket.patterns != str_patterns || bucket.edit_distance != edit_distance) {
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        /// replace existing entry
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        auto deferred_constructed_regexps =
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                std::make_shared<DeferredConstructedRegexps>([str_patterns, edit_distance]() {
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                    return constructRegexps<save_indices, WithEditDistance>(str_patterns,
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                                                                            edit_distance);
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                });
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        bucket = {std::move(str_patterns), edit_distance, deferred_constructed_regexps};
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    }
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    return bucket.regexps;
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}
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} // namespace doris::vectorized::multiregexps