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// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /* ******************************************************************************* * Copyright (C) 2010-2012, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************* * file name: bytestrie.h * encoding: UTF-8 * tab size: 8 (not used) * indentation:4 * * created on: 2010sep25 * created by: Markus W. Scherer */ #ifndef __BYTESTRIE_H__ #define __BYTESTRIE_H__ /** * \file * \brief C++ API: Trie for mapping byte sequences to integer values. */ #include "unicode/utypes.h" #if U_SHOW_CPLUSPLUS_API #include "unicode/stringpiece.h" #include "unicode/uobject.h" #include "unicode/ustringtrie.h" class BytesTrieTest; U_NAMESPACE_BEGIN class ByteSink; class BytesTrieBuilder; class CharString; class UVector32; /** * Light-weight, non-const reader class for a BytesTrie. * Traverses a byte-serialized data structure with minimal state, * for mapping byte sequences to non-negative integer values. * * This class owns the serialized trie data only if it was constructed by * the builder's build() method. * The public constructor and the copy constructor only alias the data (only copy the pointer). * There is no assignment operator. * * This class is not intended for public subclassing. * @stable ICU 4.8 */ class U_COMMON_API BytesTrie : public UMemory { public: /** * Constructs a BytesTrie reader instance. * * The trieBytes must contain a copy of a byte sequence from the BytesTrieBuilder, * starting with the first byte of that sequence. * The BytesTrie object will not read more bytes than * the BytesTrieBuilder generated in the corresponding build() call. * * The array is not copied/cloned and must not be modified while * the BytesTrie object is in use. * * @param trieBytes The byte array that contains the serialized trie. * @stable ICU 4.8 */ BytesTrie(const void *trieBytes) : ownedArray_(NULL), bytes_(static_cast<const uint8_t *>(trieBytes)), pos_(bytes_), remainingMatchLength_(-1) {} /** * Destructor. * @stable ICU 4.8 */ ~BytesTrie(); /** * Copy constructor, copies the other trie reader object and its state, * but not the byte array which will be shared. (Shallow copy.) * @param other Another BytesTrie object. * @stable ICU 4.8 */ BytesTrie(const BytesTrie &other) : ownedArray_(NULL), bytes_(other.bytes_), pos_(other.pos_), remainingMatchLength_(other.remainingMatchLength_) {} /** * Resets this trie to its initial state. * @return *this * @stable ICU 4.8 */ BytesTrie &reset() { pos_=bytes_; remainingMatchLength_=-1; return *this; } /** * Returns the state of this trie as a 64-bit integer. * The state value is never 0. * * @return opaque state value * @see resetToState64 * @stable ICU 65 */ uint64_t getState64() const { return (static_cast<uint64_t>(remainingMatchLength_ + 2) << kState64RemainingShift) | (uint64_t)(pos_ - bytes_); } /** * Resets this trie to the saved state. * Unlike resetToState(State), the 64-bit state value * must be from getState64() from the same trie object or * from one initialized the exact same way. * Because of no validation, this method is faster. * * @param state The opaque trie state value from getState64(). * @return *this * @see getState64 * @see resetToState * @see reset * @stable ICU 65 */ BytesTrie &resetToState64(uint64_t state) { remainingMatchLength_ = static_cast<int32_t>(state >> kState64RemainingShift) - 2; pos_ = bytes_ + (state & kState64PosMask); return *this; } /** * BytesTrie state object, for saving a trie's current state * and resetting the trie back to this state later. * @stable ICU 4.8 */ class State : public UMemory { public: /** * Constructs an empty State. * @stable ICU 4.8 */ State() { bytes=NULL; } private: friend class BytesTrie; const uint8_t *bytes; const uint8_t *pos; int32_t remainingMatchLength; }; /** * Saves the state of this trie. * @param state The State object to hold the trie's state. * @return *this * @see resetToState * @stable ICU 4.8 */ const BytesTrie &saveState(State &state) const { state.bytes=bytes_; state.pos=pos_; state.remainingMatchLength=remainingMatchLength_; return *this; } /** * Resets this trie to the saved state. * If the state object contains no state, or the state of a different trie, * then this trie remains unchanged. * @param state The State object which holds a saved trie state. * @return *this * @see saveState * @see reset * @stable ICU 4.8 */ BytesTrie &resetToState(const State &state) { if(bytes_==state.bytes && bytes_!=NULL) { pos_=state.pos; remainingMatchLength_=state.remainingMatchLength; } return *this; } /** * Determines whether the byte sequence so far matches, whether it has a value, * and whether another input byte can continue a matching byte sequence. * @return The match/value Result. * @stable ICU 4.8 */ UStringTrieResult current() const; /** * Traverses the trie from the initial state for this input byte. * Equivalent to reset().next(inByte). * @param inByte Input byte value. Values -0x100..-1 are treated like 0..0xff. * Values below -0x100 and above 0xff will never match. * @return The match/value Result. * @stable ICU 4.8 */ inline UStringTrieResult first(int32_t inByte) { remainingMatchLength_=-1; if(inByte<0) { inByte+=0x100; } return nextImpl(bytes_, inByte); } /** * Traverses the trie from the current state for this input byte. * @param inByte Input byte value. Values -0x100..-1 are treated like 0..0xff. * Values below -0x100 and above 0xff will never match. * @return The match/value Result. * @stable ICU 4.8 */ UStringTrieResult next(int32_t inByte); /** * Traverses the trie from the current state for this byte sequence. * Equivalent to * \code * Result result=current(); * for(each c in s) * if(!USTRINGTRIE_HAS_NEXT(result)) return USTRINGTRIE_NO_MATCH; * result=next(c); * return result; * \endcode * @param s A string or byte sequence. Can be NULL if length is 0. * @param length The length of the byte sequence. Can be -1 if NUL-terminated. * @return The match/value Result. * @stable ICU 4.8 */ UStringTrieResult next(const char *s, int32_t length); /** * Returns a matching byte sequence's value if called immediately after * current()/first()/next() returned USTRINGTRIE_INTERMEDIATE_VALUE or USTRINGTRIE_FINAL_VALUE. * getValue() can be called multiple times. * * Do not call getValue() after USTRINGTRIE_NO_MATCH or USTRINGTRIE_NO_VALUE! * @return The value for the byte sequence so far. * @stable ICU 4.8 */ inline int32_t getValue() const { const uint8_t *pos=pos_; int32_t leadByte=*pos++; // U_ASSERT(leadByte>=kMinValueLead); return readValue(pos, leadByte>>1); } /** * Determines whether all byte sequences reachable from the current state * map to the same value. * @param uniqueValue Receives the unique value, if this function returns true. * (output-only) * @return true if all byte sequences reachable from the current state * map to the same value. * @stable ICU 4.8 */ inline UBool hasUniqueValue(int32_t &uniqueValue) const { const uint8_t *pos=pos_; // Skip the rest of a pending linear-match node. return pos!=NULL && findUniqueValue(pos+remainingMatchLength_+1, false, uniqueValue); } /** * Finds each byte which continues the byte sequence from the current state. * That is, each byte b for which it would be next(b)!=USTRINGTRIE_NO_MATCH now. * @param out Each next byte is appended to this object. * (Only uses the out.Append(s, length) method.) * @return the number of bytes which continue the byte sequence from here * @stable ICU 4.8 */ int32_t getNextBytes(ByteSink &out) const; /** * Iterator for all of the (byte sequence, value) pairs in a BytesTrie. * @stable ICU 4.8 */ class U_COMMON_API Iterator : public UMemory { public: /** * Iterates from the root of a byte-serialized BytesTrie. * @param trieBytes The trie bytes. * @param maxStringLength If 0, the iterator returns full strings/byte sequences. * Otherwise, the iterator returns strings with this maximum length. * @param errorCode Standard ICU error code. Its input value must * pass the U_SUCCESS() test, or else the function returns * immediately. Check for U_FAILURE() on output or use with * function chaining. (See User Guide for details.) * @stable ICU 4.8 */ Iterator(const void *trieBytes, int32_t maxStringLength, UErrorCode &errorCode); /** * Iterates from the current state of the specified BytesTrie. * @param trie The trie whose state will be copied for iteration. * @param maxStringLength If 0, the iterator returns full strings/byte sequences. * Otherwise, the iterator returns strings with this maximum length. * @param errorCode Standard ICU error code. Its input value must * pass the U_SUCCESS() test, or else the function returns * immediately. Check for U_FAILURE() on output or use with * function chaining. (See User Guide for details.) * @stable ICU 4.8 */ Iterator(const BytesTrie &trie, int32_t maxStringLength, UErrorCode &errorCode); /** * Destructor. * @stable ICU 4.8 */ ~Iterator(); /** * Resets this iterator to its initial state. * @return *this * @stable ICU 4.8 */ Iterator &reset(); /** * @return true if there are more elements. * @stable ICU 4.8 */ UBool hasNext() const; /** * Finds the next (byte sequence, value) pair if there is one. * * If the byte sequence is truncated to the maximum length and does not * have a real value, then the value is set to -1. * In this case, this "not a real value" is indistinguishable from * a real value of -1. * @param errorCode Standard ICU error code. Its input value must * pass the U_SUCCESS() test, or else the function returns * immediately. Check for U_FAILURE() on output or use with * function chaining. (See User Guide for details.) * @return true if there is another element. * @stable ICU 4.8 */ UBool next(UErrorCode &errorCode); /** * @return The NUL-terminated byte sequence for the last successful next(). * @stable ICU 4.8 */ StringPiece getString() const; /** * @return The value for the last successful next(). * @stable ICU 4.8 */ int32_t getValue() const { return value_; } private: UBool truncateAndStop(); const uint8_t *branchNext(const uint8_t *pos, int32_t length, UErrorCode &errorCode); const uint8_t *bytes_; const uint8_t *pos_; const uint8_t *initialPos_; int32_t remainingMatchLength_; int32_t initialRemainingMatchLength_; CharString *str_; int32_t maxLength_; int32_t value_; // The stack stores pairs of integers for backtracking to another // outbound edge of a branch node. // The first integer is an offset from bytes_. // The second integer has the str_->length() from before the node in bits 15..0, // and the remaining branch length in bits 24..16. (Bits 31..25 are unused.) // (We could store the remaining branch length minus 1 in bits 23..16 and not use bits 31..24, // but the code looks more confusing that way.) UVector32 *stack_; }; private: friend class BytesTrieBuilder; friend class ::BytesTrieTest; /** * Constructs a BytesTrie reader instance. * Unlike the public constructor which just aliases an array, * this constructor adopts the builder's array. * This constructor is only called by the builder. */ BytesTrie(void *adoptBytes, const void *trieBytes) : ownedArray_(static_cast<uint8_t *>(adoptBytes)), bytes_(static_cast<const uint8_t *>(trieBytes)), pos_(bytes_), remainingMatchLength_(-1) {} // No assignment operator. BytesTrie &operator=(const BytesTrie &other) = delete; inline void stop() { pos_=NULL; } // Reads a compact 32-bit integer. // pos is already after the leadByte, and the lead byte is already shifted right by 1. static int32_t readValue(const uint8_t *pos, int32_t leadByte); static inline const uint8_t *skipValue(const uint8_t *pos, int32_t leadByte) { // U_ASSERT(leadByte>=kMinValueLead); if(leadByte>=(kMinTwoByteValueLead<<1)) { if(leadByte<(kMinThreeByteValueLead<<1)) { ++pos; } else if(leadByte<(kFourByteValueLead<<1)) { pos+=2; } else { pos+=3+((leadByte>>1)&1); } } return pos; } static inline const uint8_t *skipValue(const uint8_t *pos) { int32_t leadByte=*pos++; return skipValue(pos, leadByte); } // Reads a jump delta and jumps. static const uint8_t *jumpByDelta(const uint8_t *pos); static inline const uint8_t *skipDelta(const uint8_t *pos) { int32_t delta=*pos++; if(delta>=kMinTwoByteDeltaLead) { if(delta<kMinThreeByteDeltaLead) { ++pos; } else if(delta<kFourByteDeltaLead) { pos+=2; } else { pos+=3+(delta&1); } } return pos; } static inline UStringTrieResult valueResult(int32_t node) { return (UStringTrieResult)(USTRINGTRIE_INTERMEDIATE_VALUE-(node&kValueIsFinal)); } // Handles a branch node for both next(byte) and next(string). UStringTrieResult branchNext(const uint8_t *pos, int32_t length, int32_t inByte); // Requires remainingLength_<0. UStringTrieResult nextImpl(const uint8_t *pos, int32_t inByte); // Helper functions for hasUniqueValue(). // Recursively finds a unique value (or whether there is not a unique one) // from a branch. static const uint8_t *findUniqueValueFromBranch(const uint8_t *pos, int32_t length, UBool haveUniqueValue, int32_t &uniqueValue); // Recursively finds a unique value (or whether there is not a unique one) // starting from a position on a node lead byte. static UBool findUniqueValue(const uint8_t *pos, UBool haveUniqueValue, int32_t &uniqueValue); // Helper functions for getNextBytes(). // getNextBytes() when pos is on a branch node. static void getNextBranchBytes(const uint8_t *pos, int32_t length, ByteSink &out); static void append(ByteSink &out, int c); // BytesTrie data structure // // The trie consists of a series of byte-serialized nodes for incremental // string/byte sequence matching. The root node is at the beginning of the trie data. // // Types of nodes are distinguished by their node lead byte ranges. // After each node, except a final-value node, another node follows to // encode match values or continue matching further bytes. // // Node types: // - Value node: Stores a 32-bit integer in a compact, variable-length format. // The value is for the string/byte sequence so far. // One node bit indicates whether the value is final or whether // matching continues with the next node. // - Linear-match node: Matches a number of bytes. // - Branch node: Branches to other nodes according to the current input byte. // The node byte is the length of the branch (number of bytes to select from) // minus 1. It is followed by a sub-node: // - If the length is at most kMaxBranchLinearSubNodeLength, then // there are length-1 (key, value) pairs and then one more comparison byte. // If one of the key bytes matches, then the value is either a final value for // the string/byte sequence so far, or a "jump" delta to the next node. // If the last byte matches, then matching continues with the next node. // (Values have the same encoding as value nodes.) // - If the length is greater than kMaxBranchLinearSubNodeLength, then // there is one byte and one "jump" delta. // If the input byte is less than the sub-node byte, then "jump" by delta to // the next sub-node which will have a length of length/2. // (The delta has its own compact encoding.) // Otherwise, skip the "jump" delta to the next sub-node // which will have a length of length-length/2. // Node lead byte values. // 00..0f: Branch node. If node!=0 then the length is node+1, otherwise // the length is one more than the next byte. // For a branch sub-node with at most this many entries, we drop down // to a linear search. static const int32_t kMaxBranchLinearSubNodeLength=5; // 10..1f: Linear-match node, match 1..16 bytes and continue reading the next node. static const int32_t kMinLinearMatch=0x10; static const int32_t kMaxLinearMatchLength=0x10; // 20..ff: Variable-length value node. // If odd, the value is final. (Otherwise, intermediate value or jump delta.) // Then shift-right by 1 bit. // The remaining lead byte value indicates the number of following bytes (0..4) // and contains the value's top bits. static const int32_t kMinValueLead=kMinLinearMatch+kMaxLinearMatchLength; // 0x20 // It is a final value if bit 0 is set. static const int32_t kValueIsFinal=1; // Compact value: After testing bit 0, shift right by 1 and then use the following thresholds. static const int32_t kMinOneByteValueLead=kMinValueLead/2; // 0x10 static const int32_t kMaxOneByteValue=0x40; // At least 6 bits in the first byte. static const int32_t kMinTwoByteValueLead=kMinOneByteValueLead+kMaxOneByteValue+1; // 0x51 static const int32_t kMaxTwoByteValue=0x1aff; static const int32_t kMinThreeByteValueLead=kMinTwoByteValueLead+(kMaxTwoByteValue>>8)+1; // 0x6c static const int32_t kFourByteValueLead=0x7e; // A little more than Unicode code points. (0x11ffff) static const int32_t kMaxThreeByteValue=((kFourByteValueLead-kMinThreeByteValueLead)<<16)-1; static const int32_t kFiveByteValueLead=0x7f; // Compact delta integers. static const int32_t kMaxOneByteDelta=0xbf; static const int32_t kMinTwoByteDeltaLead=kMaxOneByteDelta+1; // 0xc0 static const int32_t kMinThreeByteDeltaLead=0xf0; static const int32_t kFourByteDeltaLead=0xfe; static const int32_t kFiveByteDeltaLead=0xff; static const int32_t kMaxTwoByteDelta=((kMinThreeByteDeltaLead-kMinTwoByteDeltaLead)<<8)-1; // 0x2fff static const int32_t kMaxThreeByteDelta=((kFourByteDeltaLead-kMinThreeByteDeltaLead)<<16)-1; // 0xdffff // For getState64(): // The remainingMatchLength_ is -1..14=(kMaxLinearMatchLength=0x10)-2 // so we need at least 5 bits for that. // We add 2 to store it as a positive value 1..16=kMaxLinearMatchLength. static constexpr int32_t kState64RemainingShift = 59; static constexpr uint64_t kState64PosMask = (UINT64_C(1) << kState64RemainingShift) - 1; uint8_t *ownedArray_; // Fixed value referencing the BytesTrie bytes. const uint8_t *bytes_; // Iterator variables. // Pointer to next trie byte to read. NULL if no more matches. const uint8_t *pos_; // Remaining length of a linear-match node, minus 1. Negative if not in such a node. int32_t remainingMatchLength_; }; U_NAMESPACE_END #endif /* U_SHOW_CPLUSPLUS_API */ #endif // __BYTESTRIE_H__