/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #ifndef __INDEX_FST_UTIL_H__ #define __INDEX_FST_UTIL_H__ #ifdef __cplusplus extern "C" { #endif #include "indexInt.h" #include "index_fst_common.h" typedef uint64_t FstType; typedef uint64_t CompiledAddr; typedef uint64_t Output; typedef uint8_t PackSizes; // A sentinel value used to indicate an empty final state extern const CompiledAddr EMPTY_ADDRESS; /// A sentinel value used to indicate an invalid state. extern const CompiledAddr NONE_ADDRESS; // This version number is written to every finite state transducer created by // this version When a finite state transducer is read, its version number is // checked against this value. extern const uint64_t VERSION; // The threshold (in number of transitions) at which an index is created for // a node's transitions. This speeds up lookup time at the expense of FST size extern const uint64_t TRANS_INDEX_THRESHOLD; // high 4 bits is transition address packed size. // low 4 bits is output value packed size. // // `0` is a legal value which means there are no transitions/outputs #define FST_SET_TRANSITION_PACK_SIZE(v, sz) \ do { \ v = (v & 0b00001111) | (sz << 4); \ } while (0) #define FST_GET_TRANSITION_PACK_SIZE(v) (((v)&0b11110000) >> 4) #define FST_SET_OUTPUT_PACK_SIZE(v, sz) \ do { \ v = (v & 0b11110000) | sz; \ } while (0) #define FST_GET_OUTPUT_PACK_SIZE(v) ((v)&0b00001111) #define COMMON_INPUT(idx) COMMON_INPUTS_INV[(idx)-1] #define COMMON_INDEX(v, max, val) \ do { \ val = ((uint16_t)COMMON_INPUTS[v] + 1) % 256; \ val = val > max ? 0 : val; \ } while (0) // uint8_t commonInput(uint8_t idx); // uint8_t commonIdx(uint8_t v, uint8_t max); uint8_t packSize(uint64_t n); uint64_t unpackUint64(uint8_t* ch, uint8_t sz); uint8_t packDeltaSize(CompiledAddr nodeAddr, CompiledAddr transAddr); CompiledAddr unpackDelta(char* data, uint64_t len, uint64_t nodeAddr); typedef struct FstString { uint8_t* data; uint32_t len; int32_t ref; } FstString; typedef struct FstSlice { FstString* str; int32_t start; int32_t end; } FstSlice; FstSlice fstSliceCreate(uint8_t* data, uint64_t len); FstSlice fstSliceCopy(FstSlice* s, int32_t start, int32_t end); FstSlice fstSliceDeepCopy(FstSlice* s, int32_t start, int32_t end); bool fstSliceIsEmpty(FstSlice* s); int fstSliceCompare(FstSlice* s1, FstSlice* s2); void fstSliceDestroy(FstSlice* s); uint8_t* fstSliceData(FstSlice* s, int32_t* sz); #define FST_SLICE_LEN(s) (s->end - s->start + 1) //// stack // // typedef (*StackFreeElemFn)(void *elem); // // typedef struct FstStack { // void *first; // void *end; // size_t elemSize; // size_t nElem; // StackFreeElemFn fn; //} FstStack; // // // FstStack* fstStackCreate(size_t elemSize, stackFreeElem); // void *fstStackPush(FstStack *s, void *elem); // void *fstStackTop(FstStack *s); // size_t fstStackLen(FstStack *s); // void fstStackDestory(FstStack *); // #ifdef __cplusplus } #endif #endif