#include "llama-vocab.h" #include "llama-impl.h" #include "llama-model-loader.h" #include "unicode.h" #include #include #include #include #include #include #include #include #include #include #include // // helpers // struct naive_trie { naive_trie() : has_value(false), value(0) { } void insert(const char * key, size_t len, int32_t value = 0) { if (len == 0) { this->has_value = true; this->value = value; return; } char c = key[0]; auto res = children.find(c); if (res != children.end()) { res->second.insert(key + 1, len - 1, value); } else { auto res = children.insert(std::make_pair(c, naive_trie())); res.first->second.insert(key + 1, len - 1, value); } } std::pair get_longest_prefix(const char * key, size_t len, size_t offset = 0) const { if (len == 0 || offset == len) { return std::make_pair(key, offset); } char c = key[offset]; auto res = children.find(c); if (res != children.end()) { return res->second.get_longest_prefix(key, len, offset + 1); } return std::make_pair(key, offset); } const struct naive_trie * traverse(const char c) const { auto res = children.find(c); if (res != children.end()) { return &res->second; } return NULL; } std::map children; bool has_value; llama_token value; }; // // tokenizers // struct llm_tokenizer { llm_tokenizer() {} virtual ~llm_tokenizer() = default; }; struct llm_symbol { using index = int; index prev; index next; const char * text; size_t n; }; static_assert(std::is_trivially_copyable::value, "llm_symbol is not trivially copyable"); // // SPM tokenizer // original implementation: // https://github.com/ggerganov/llama.cpp/commit/074bea2eb1f1349a0118239c4152914aecaa1be4 // struct llm_bigram_spm { struct comparator { bool operator()(llm_bigram_spm & l, llm_bigram_spm & r) { return (l.score < r.score) || (l.score == r.score && l.left > r.left); } }; using queue_storage = std::vector; using queue = std::priority_queue; llm_symbol::index left; llm_symbol::index right; float score; size_t size; }; struct llm_tokenizer_spm : llm_tokenizer { llm_tokenizer_spm(const llama_vocab & /*vocab*/) {} }; struct llm_tokenizer_spm_session { llm_tokenizer_spm_session(const llama_vocab & vocab) : vocab(vocab) {} void tokenize(const std::string & text, std::vector & output) { // split string into utf8 chars int index = 0; size_t offs = 0; while (offs < text.size()) { llm_symbol sym; size_t len = unicode_len_utf8(text[offs]); sym.text = text.c_str() + offs; sym.n = std::min(len, text.size() - offs); offs += sym.n; sym.prev = index - 1; sym.next = offs == text.size() ? -1 : index + 1; index++; symbols.emplace_back(sym); } // seed the work queue with all possible 2-character tokens. for (int i = 1; i < (int) symbols.size(); ++i) { try_add_bigram(i - 1, i); } // keep substituting the highest frequency pairs for as long as we can. while (!work_queue.empty()) { auto bigram = work_queue.top(); work_queue.pop(); auto & left_sym = symbols[bigram.left]; auto & right_sym = symbols[bigram.right]; // if one of the symbols already got merged, skip it. if (left_sym.n == 0 || right_sym.n == 0 || left_sym.n + right_sym.n != bigram.size) { continue; } // merge the right sym into the left one left_sym.n += right_sym.n; right_sym.n = 0; //LLAMA_LOG_INFO("left = '%*s' size = %zu\n", (int) left_sym.n, left_sym.text, bigram.size); // remove the right sym from the chain left_sym.next = right_sym.next; if (right_sym.next >= 0) { symbols[right_sym.next].prev = bigram.left; } // find more substitutions try_add_bigram(left_sym.prev, bigram.left); try_add_bigram(bigram.left, left_sym.next); } for (int i = 0; i != -1; i = symbols[i].next) { auto & symbol = symbols[i]; resegment(symbol, output); } } private: void resegment(llm_symbol & symbol, std::vector & output) { auto text = std::string(symbol.text, symbol.n); auto token = vocab.text_to_token(text); // Do we need to support is_unused? if (token != LLAMA_TOKEN_NULL) { output.push_back(token); return; } const auto p = rev_merge.find(text); if (p == rev_merge.end()) { // output any symbols that did not form tokens as bytes. output.reserve(output.size() + symbol.n); for (int j = 0; j < (int)symbol.n; ++j) { llama_token id = vocab.byte_to_token(symbol.text[j]); output.push_back(id); } return; } resegment(symbols[p->second.first], output); resegment(symbols[p->second.second], output); } void try_add_bigram(int left, int right) { if (left == -1 || right == -1) { return; } const std::string text = std::string(symbols[left].text, symbols[left].n + symbols[right].n); auto token = vocab.text_to_token(text); if (token == LLAMA_TOKEN_NULL) { return; } if (static_cast(token) >= vocab.n_tokens()) { return; } const auto & tok_data = vocab.get_token_data(token); llm_bigram_spm bigram; bigram.left = left; bigram.right = right; bigram.score = tok_data.score; bigram.size = text.size(); work_queue.push(bigram); // Do we need to support is_unused? rev_merge[text] = std::make_pair(left, right); } const llama_vocab & vocab; // currently unused // const llm_tokenizer_spm * spm_tokenizer; std::vector symbols; llm_bigram_spm::queue work_queue; std::map> rev_merge; }; // // BPE tokenizer // adapted from https://github.com/cmp-nct/ggllm.cpp [MIT License] // tried to simplify unicode stuff, so most likely does not work 100% correctly! // // TODO: there are a lot of common parts between spm and bpe tokenizers, should be refactored and reused template, typename Compare = std::less> class llama_priority_queue : public std::priority_queue { public: using std::priority_queue::priority_queue; T pop_move() { T item = std::move(this->c.front()); std::pop_heap(this->c.begin(), this->c.end(), this->comp); this->c.pop_back(); return item; } void pop() = delete; }; struct llm_bigram_bpe { struct comparator { bool operator()(const llm_bigram_bpe & l, const llm_bigram_bpe & r) const { return l.rank > r.rank || (l.rank == r.rank && l.left > r.left); } }; using queue_storage = std::vector; using queue = llama_priority_queue; llm_symbol::index left; llm_symbol::index right; std::string text; int rank; size_t size; }; struct llm_tokenizer_bpe : llm_tokenizer { llm_tokenizer_bpe(const llama_vocab & vocab) { GGML_ASSERT(vocab.get_type() == LLAMA_VOCAB_TYPE_BPE); switch (vocab.get_pre_type()) { case LLAMA_VOCAB_PRE_TYPE_LLAMA3: regex_exprs = { // original regex from tokenizer.json //"(?i:'s|'t|'re|'ve|'m|'ll|'d)|[^\\r\\n\\p{L}\\p{N}]?\\p{L}+|\\p{N}{1,3}| ?[^\\s\\p{L}\\p{N}]+[\\r\\n]*|\\s*[\\r\\n]+|\\s+(?!\\S)|\\s+", // adapted: https://github.com/ggerganov/llama.cpp/pull/6920#issuecomment-2080233989 "(?:'[sS]|'[tT]|'[rR][eE]|'[vV][eE]|'[mM]|'[lL][lL]|'[dD])|[^\\r\\n\\p{L}\\p{N}]?\\p{L}+|\\p{N}{1,3}| ?[^\\s\\p{L}\\p{N}]+[\\r\\n]*|\\s*[\\r\\n]+|\\s+(?!\\S)|\\s+", }; break; case LLAMA_VOCAB_PRE_TYPE_DBRX: case LLAMA_VOCAB_PRE_TYPE_SMAUG: regex_exprs = { // same as llama3 "(?:'[sS]|'[tT]|'[rR][eE]|'[vV][eE]|'[mM]|'[lL][lL]|'[dD])|[^\\r\\n\\p{L}\\p{N}]?\\p{L}+|\\p{N}{1,3}| ?[^\\s\\p{L}\\p{N}]+[\\r\\n]*|\\s*[\\r\\n]+|\\s+(?!\\S)|\\s+", }; break; case LLAMA_VOCAB_PRE_TYPE_DEEPSEEK_LLM: regex_exprs = { "[\r\n]", "\\s?[A-Za-zµÀ-ÖØ-öø-ƺƼ-ƿǄ-ʓʕ-ʯͰ-ͳͶͷͻ-ͽͿΆΈ-ΊΌΎ-ΡΣ-ϵϷ-ҁҊ-ԯԱ-ՖႠ-ჅᎠ-Ᏽᏸ-ᏽᲐ-ᲺᲽ-Ჿᴀ-ᴫᵫ-ᵷᵹ-ᶚḀ-ἕἘ-Ἕἠ-ὅὈ-Ὅὐ-ὗὙὛὝὟ-ώᾀ-ᾴᾶ-ᾼιῂ-ῄῆ-ῌῐ-ΐῖ-Ίῠ-Ῥῲ-ῴῶ-ῼℂℇℊ-ℓℕℙ-ℝℤΩℨK-ℭℯ-ℴℹℼ-ℿⅅ-ⅉⅎↃↄⰀ-ⱻⱾ-ⳤⳫ-ⳮⳲⳳꙀ-ꙭꚀ-ꚛꜢ-ꝯꝱ-ꞇꞋ-ꞎꭰ-ꮿﬀ-ﬆﬓ-ﬗＡ-Ｚａ-ｚ𐐀-𐑏𐒰-𐓓𐓘-𐓻𐲀-𐲲𐳀-𐳲𑢠-𑣟𞤀-𞥃]+", "\\s?[!-/:-~！-／：-～‘-‟　-。]+", "\\s+$", "[一-龥ࠀ-一가-퟿]+", "\\p{N}+", }; break; case LLAMA_VOCAB_PRE_TYPE_DEEPSEEK3_LLM: regex_exprs = { "\\p{N}{1,3}", "[一-龥぀-ゟ゠-ヿ]+", "[!\"#$%&'()*+,\\-./:;<=>?@\\[\\\\\\]^_`{|}~][A-Za-z]+|[^\r\n\\p{L}\\p{P}\\p{S}]?[\\p{L}\\p{M}]+| ?[\\p{P}\\p{S}]+[\r\n]*|\\s*[\r\n]+|\\s+(?!\\S)|\\s+", }; break; case LLAMA_VOCAB_PRE_TYPE_DEEPSEEK_CODER: regex_exprs = { "[\r\n]", "\\s?\\p{L}+", "\\s?\\p{P}+", "[一-龥ࠀ-一가-퟿]+", "\\p{N}", }; break; case LLAMA_VOCAB_PRE_TYPE_FALCON: regex_exprs = { "[\\p{P}\\$\\+<=>\\^~\\|`]+", "'s|'t|'re|'ve|'m|'ll|'d| ?\\p{L}+| ?\\p{N}+| ?[^\\s\\p{L}\\p{N}]+|\\s+(?!\\S)", "[0-9][0-9][0-9]", }; break; case LLAMA_VOCAB_PRE_TYPE_STARCODER: case LLAMA_VOCAB_PRE_TYPE_REFACT: case LLAMA_VOCAB_PRE_TYPE_COMMAND_R: case LLAMA_VOCAB_PRE_TYPE_SMOLLM: case LLAMA_VOCAB_PRE_TYPE_CODESHELL: case LLAMA_VOCAB_PRE_TYPE_EXAONE: case LLAMA_VOCAB_PRE_TYPE_MINERVA: regex_exprs = { "\\p{N}", "'s|'t|'re|'ve|'m|'ll|'d| ?\\p{L}+| ?\\p{N}+| ?[^\\s\\p{L}\\p{N}]+|\\s+(?!\\S)", }; break; case LLAMA_VOCAB_PRE_TYPE_GPT2: case LLAMA_VOCAB_PRE_TYPE_MPT: case LLAMA_VOCAB_PRE_TYPE_OLMO: case LLAMA_VOCAB_PRE_TYPE_JAIS: regex_exprs = { "'s|'t|'re|'ve|'m|'ll|'d| ?\\p{L}+| ?\\p{N}+| ?[^\\s\\p{L}\\p{N}]+|\\s+(?!\\S)", }; break; case LLAMA_VOCAB_PRE_TYPE_STABLELM2: case LLAMA_VOCAB_PRE_TYPE_QWEN2: regex_exprs = { // original regex from tokenizer.json // "(?i:'s|'t|'re|'ve|'m|'ll|'d)|[^\\r\\n\\p{L}\\p{N}]?\\p{L}+|\\p{N}| ?[^\\s\\p{L}\\p{N}]+[\\r\\n]*|\\s*[\\r\\n]+|\\s+(?!\\S)|\\s+" "(?:'[sS]|'[tT]|'[rR][eE]|'[vV][eE]|'[mM]|'[lL][lL]|'[dD])|[^\\r\\n\\p{L}\\p{N}]?\\p{L}+|\\p{N}| ?[^\\s\\p{L}\\p{N}]+[\\r\\n]*|\\s*[\\r\\n]+|\\s+(?!\\S)|\\s+", }; break; case LLAMA_VOCAB_PRE_TYPE_PORO: case LLAMA_VOCAB_PRE_TYPE_BLOOM: case LLAMA_VOCAB_PRE_TYPE_GPT3_FINNISH: regex_exprs = { " ?[^(\\s|.,!?…。，、।۔،)]+", }; break; case LLAMA_VOCAB_PRE_TYPE_CHATGLM4: regex_exprs = { "(?:'[sS]|'[tT]|'[rR][eE]|'[vV][eE]|'[mM]|'[lL][lL]|'[dD])|[^\\r\\n\\p{L}\\p{N}]?\\p{L}+|\\p{N}{1,3}| ?[^\\s\\p{L}\\p{N}]+[\\r\\n]*|\\s*[\\r\\n]+|\\s+(?!\\S)|\\s+", }; break; case LLAMA_VOCAB_PRE_TYPE_VIKING: regex_exprs = { " ?[^(\\s|.,!?…。，、।۔،)]+", "\\p{N}", }; break; case LLAMA_VOCAB_PRE_TYPE_TEKKEN: // original regex from tokenizer.json // "[^\\r\\n\\p{L}\\p{N}]?[\\p{Lu}\\p{Lt}\\p{Lm}\\p{Lo}\\p{M}]*[\\p{Ll}\\p{Lm}\\p{Lo}\\p{M}]+|[^\\r\\n\\p{L}\\p{N}]?[\\p{Lu}\\p{Lt}\\p{Lm}\\p{Lo}\\p{M}]+[\\p{Ll}\\p{Lm}\\p{Lo}\\p{M}]*|\\p{N}| ?[^\\s\\p{L}\\p{N}]+[\\r\\n/]*|\\s*[\\r\\n]+|\\s+(?!\\S)|\\s+" regex_exprs = { "[^\\r\\n\\p{L}\\p{N}]?((?=[\\p{L}])([^a-z]))*((?=[\\p{L}])([^A-Z]))+|[^\\r\\n\\p{L}\\p{N}]?((?=[\\p{L}])([^a-z]))+((?=[\\p{L}])([^A-Z]))*|\\p{N}| ?[^\\s\\p{L}\\p{N}]+[\\r\\n/]*|\\s*[\\r\\n]+|\\s+(?!\\S)|\\s+", }; break; case LLAMA_VOCAB_PRE_TYPE_CHAMELEON: // Note: in theory, the special token (sentinel and image token) regex_exprs below // are unnecessary, as they are split in `tokenizer_st_partition` anyway. // However, since the upstream pre-tokenizer uses them, they are also // included here (see https://huggingface.co/facebook/chameleon-7b). regex_exprs = { "", // Sentinel tokens "(IMGIMG)((A|B|C|D|E|F|G|H|I){1,4})Z", // Image tokens "([\\t\\n]| | )", // directly from tokenizer.json "\\p{N}", // Individual digits "[\\p{P}!-/:-@\\[-`{-~]", // Punctuation, Isolated "'s|'t|'re|'ve|'m|'ll|'d| ?\\p{L}+| ?\\p{N}+| ?[^\\s\\p{L}\\p{N}]+|\\s+(?!\\S)", }; break; default: // default regex for BPE tokenization pre-processing regex_exprs = { "[\\p{P}\\$\\+<=>\\^~\\|]+", "'s|'t|'re|'ve|'m|'ll|'d| ?\\p{L}+| ?\\p{N}+| ?[^\\s\\p{L}\\p{N}]+|\\s+(?!\\S)", "\\p{N}+", "[0-9][0-9][0-9]", }; break; } } std::vector regex_exprs; }; struct llm_tokenizer_bpe_session { llm_tokenizer_bpe_session(const llama_vocab & vocab, const llm_tokenizer_bpe & tokenizer) : vocab(vocab), tokenizer(tokenizer) {} static void append(const llama_token token_id, std::vector & output) { output.push_back(token_id); } bool append_bos(std::vector & output) const { if (vocab.get_add_bos()) { GGML_ASSERT(vocab.token_bos() != LLAMA_TOKEN_NULL); output.push_back(vocab.token_bos()); return true; } return false; } bool append_eos(std::vector & output) const { if (vocab.get_add_eos()) { GGML_ASSERT(vocab.token_eos() != LLAMA_TOKEN_NULL); output.push_back(vocab.token_eos()); return true; } return false; } void check_double_bos_eos(const std::vector & output) const { if (vocab.get_add_bos() && output.size() >= 2 && output[1] == vocab.token_bos()) { LLAMA_LOG_WARN( "%s: Added a BOS token to the prompt as specified by the model but the prompt " "also starts with a BOS token. So now the final prompt starts with 2 BOS tokens. " "Are you sure this is what you want?\n", __FUNCTION__); } if (vocab.get_add_eos() && output.size() >= 2 && *(output.end()-2) == vocab.token_eos()) { LLAMA_LOG_WARN( "%s: Added a EOS token to the prompt as specified by the model but the prompt " "also ends with a EOS token. So now the final prompt ends with 2 EOS tokens. " "Are you sure this is what you want?\n", __FUNCTION__); } } void tokenize(const std::string & text, std::vector & output) { int final_prev_index = -1; const auto word_collection = unicode_regex_split(text, tokenizer.regex_exprs); symbols_final.clear(); for (const auto & word : word_collection) { work_queue = llm_bigram_bpe::queue(); symbols.clear(); int index = 0; size_t offset = 0; //if (vocab.tokenizer_ignore_merges && vocab.token_to_id.find(word) != vocab.token_to_id.end()) { if (vocab.get_ignore_merges() && vocab.text_to_token(word) != LLAMA_TOKEN_NULL) { symbols.emplace_back(llm_symbol{-1, -1, word.c_str(), word.size()}); offset = word.size(); } while (offset < word.size()) { llm_symbol sym; size_t char_len = std::min(word.size() - offset, (size_t) unicode_len_utf8(word[offset])); sym.text = word.c_str() + offset; sym.n = char_len; offset += sym.n; sym.prev = index - 1; sym.next = offset == word.size() ? -1 : index + 1; index++; symbols.emplace_back(sym); } for (int i = 1; i < (int) symbols.size(); ++i) { add_new_bigram(i - 1, i); } // build token(s) while (!work_queue.empty()) { auto bigram = work_queue.pop_move(); auto & left_symbol = symbols[bigram.left]; auto & right_symbol = symbols[bigram.right]; if (left_symbol.n == 0 || right_symbol.n == 0) { continue; } std::string left_token = std::string(left_symbol.text, left_symbol.n); std::string right_token = std::string(right_symbol.text, right_symbol.n); if (left_token + right_token != bigram.text) { continue; // Skip this bigram if it's outdated } // merge the right sym into the left one left_symbol.n += right_symbol.n; right_symbol.n = 0; // remove the right sym from the chain left_symbol.next = right_symbol.next; if (right_symbol.next >= 0) { symbols[right_symbol.next].prev = bigram.left; } add_new_bigram(left_symbol.prev, bigram.left); // left side of current symbol add_new_bigram(bigram.left, left_symbol.next); // right side of current symbol } // add the finished tokens to the final list keeping correct order for next and prev for (auto & sym : symbols) { if (sym.n > 0) { sym.prev = final_prev_index; sym.next = -1; if (final_prev_index != -1) { symbols_final[final_prev_index].next = symbols_final.size(); } symbols_final.emplace_back(sym); final_prev_index = symbols_final.size() - 1; } } } symbols = symbols_final; if (!symbols.empty()) { for (int i = 0; i != -1; i = symbols[i].next) { auto & symbol = symbols[i]; if (symbol.n == 0) { continue; } const std::string str = std::string(symbol.text, symbol.n); const auto token = vocab.text_to_token(str); if (token == LLAMA_TOKEN_NULL) { for (auto j = str.begin(); j != str.end(); ++j) { std::string byte_str(1, *j); auto token_multibyte = vocab.text_to_token(byte_str); if (token_multibyte != LLAMA_TOKEN_NULL) { output.push_back(token_multibyte); } } } else { output.push_back(token); } } } } private: void add_new_bigram(int left, int right) { if (left == -1 || right == -1) { return; } std::string left_token = std::string(symbols[left].text, symbols[left].n); std::string right_token = std::string(symbols[right].text, symbols[right].n); int rank_found = -1; rank_found = vocab.find_bpe_rank(left_token, right_token); if (rank_found < 0) { return; } llm_bigram_bpe bigram; bigram.left = left; bigram.right = right; bigram.text = left_token + right_token; bigram.size = left_token.size() + right_token.size(); bigram.rank = rank_found; work_queue.push(bigram); } const llama_vocab & vocab; const llm_tokenizer_bpe & tokenizer; std::vector symbols; std::vector symbols_final; llm_bigram_bpe::queue work_queue; }; // // WPM tokenizer // struct llm_tokenizer_wpm : llm_tokenizer { llm_tokenizer_wpm(const llama_vocab & /*vocab*/) {} }; struct llm_tokenizer_wpm_session { llm_tokenizer_wpm_session(const llama_vocab & vocab) : vocab(vocab) {} void tokenize(const std::string & text, std::vector & output) { // normalize and split by whitespace std::vector words = preprocess(text); // bos token prepended already // find the longest tokens that form the words for (const std::string & word : words) { // skip empty words if (word.size() == 0) { continue; } // prepend phantom space const std::string word1 = "\xe2\x96\x81" + word; const int n = word1.size(); const size_t current_tokens = output.size(); // we're at the start of a new word // move through character position in word for (int i = 0; i < n; ++i) { // loop through possible match length bool match = false; for (int j = std::min(n, i + vocab.max_token_len() + 1); j > i; j--) { auto id = vocab.text_to_token(word1.substr(i, j - i)); if (id != LLAMA_TOKEN_NULL) { output.push_back(id); match = true; i = j - 1; break; } } if (!match) { // discard all output.resize(current_tokens); break; // and discard next tokens } } // we didn't find any matches for this word if (current_tokens == output.size()) { output.push_back(vocab.token_unk()); } } } // TODO: reduce string copies by using cpts_offs array static std::vector preprocess(const std::string & text) { const std::vector cpts_nfd = unicode_cpts_normalize_nfd(unicode_cpts_from_utf8(text)); std::vector words(1, ""); for (const uint32_t cpt : cpts_nfd) { const auto flags = unicode_cpt_flags_from_cpt(cpt); if (flags.is_whitespace) { if (words.back().size()) { // finish previous word if any words.emplace_back(); } continue; } assert (!flags.is_separator); if (cpt == 0 || cpt == 0xFFFD || flags.is_control) { continue; } const std::string s = unicode_cpt_to_utf8(unicode_tolower(cpt)); if (flags.is_punctuation || ( cpt < 0x7F && flags.is_symbol ) || is_chinese_char(cpt)) { if (words.back().size()) { // finish previous word if any words.emplace_back(); } words.back() = s; // single char word words.emplace_back(); // start a new word } else { words.back() += s; // append char to word } } if (!words.back().size()) { words.pop_back(); } return words; } static bool is_chinese_char(uint32_t cpt) { return (cpt >= 0x04E00 && cpt <= 0x09FFF) || (cpt >= 0x03400 && cpt <= 0x04DBF) || (cpt >= 0x20000 && cpt <= 0x2A6DF) || (cpt >= 0x2A700 && cpt <= 0x2B73F) || (cpt >= 0x2B740 && cpt <= 0x2B81F) || (cpt >= 0x2B920 && cpt <= 0x2CEAF) || // this should be 0x2B820 but in hf rust code it is 0x2B920 (cpt >= 0x0F900 && cpt <= 0x0FAFF) || (cpt >= 0x2F800 && cpt <= 0x2FA1F); //(cpt >= 0x3000 && cpt <= 0x303F) || //(cpt >= 0xFF00 && cpt <= 0xFFEF); } private: const llama_vocab & vocab; // currently unused // const llm_tokenizer_wpm * wpm_tokenizer; }; // // UGM tokenizer // struct llm_tokenizer_ugm : llm_tokenizer { llm_tokenizer_ugm(const llama_vocab & vocab, const std::vector & precompiled_charsmap) { if (precompiled_charsmap.size() > 0) { size_t charsmap_offset = 0; // First four bytes of precompiled_charsmap contains length of binary // blob containing XOR-compressed compact double array (XCDA) entries uint32_t xcda_blob_size = *(const uint32_t *) &precompiled_charsmap[0]; charsmap_offset += sizeof(xcda_blob_size); if (xcda_blob_size + charsmap_offset >= precompiled_charsmap.size()) { throw std::runtime_error("Index out of array bounds in precompiled charsmap!"); } // Next xcda_blob_size bytes contain entries of XOR-compressed compact // double array (XCDA). Each entry is bit-packed into a 32-bit integer. xcda_array = (const uint32_t *) &precompiled_charsmap[charsmap_offset]; xcda_array_size = xcda_blob_size / sizeof(uint32_t); charsmap_offset += xcda_blob_size; // Remaining bytes of precompiled charsmap contain null-terminated // replacement strings for prefixes matched by the XCDA. prefix_replacements = &precompiled_charsmap[charsmap_offset]; prefix_replacements_size = precompiled_charsmap.size() - charsmap_offset; } for (uint32_t id = 0; id < vocab.n_tokens(); ++id) { const auto & token_data = vocab.get_token_data(id); if (vocab.is_normal(id)) { min_score = std::min(min_score, token_data.score); max_score = std::max(max_score, token_data.score); } if (vocab.is_normal(id) || vocab.is_user_defined(id) || vocab.is_unused(id)) { token_matcher.insert(token_data.text.data(), token_data.text.size(), id); } if (vocab.is_user_defined(id)) { user_defined_token_matcher.insert(token_data.text.data(), token_data.text.size()); } } unknown_token_score = min_score - unknown_token_score_penalty; } // escaped space symbol - U+2581 (Lower One Eighth Block) const std::string escaped_space = "\xE2\x96\x81"; const char * prefix_replacements = NULL; size_t prefix_replacements_size = 0; const uint32_t * xcda_array = NULL; size_t xcda_array_size = 0; struct naive_trie user_defined_token_matcher; float min_score = FLT_MAX; float max_score = -FLT_MAX; float unknown_token_score_penalty = 10.0; float unknown_token_score; struct naive_trie token_matcher; }; struct llm_tokenizer_ugm_session { llm_tokenizer_ugm_session(const llama_vocab & vocab, const llm_tokenizer_ugm & tokenizer) : vocab(vocab), tokenizer(tokenizer) {} /* This implementation is based on SentencePiece optimized Viterbi algorithm for * unigram language models. The general idea is to: * - move along the input sequence in steps of one UTF code point, * - at each step find all possible tokenizations of the prefix by * traversing the tokens trie, * - for each tokenization store the best one so far (by higher score) * - use the position in sequence after given token as an index to store * results * - if there was no valid tokenization of the current UTF code point * then use unknown token with additional score penalty * After processing the whole sequence we backtrack from the end to get * the best tokenization. */ void tokenize(const std::string & text, std::vector & output) { // get current size of output (for reversal later) size_t output_size = output.size(); // normalize the input first std::string normalized; normalize(text, &normalized); size_t input_len = normalized.size(); if (input_len == 0) { return; } // initialize score_sum to -FLT_MAX so it will be always lower than sums of token scores std::vector tokenization_results(input_len + 1, {vocab.token_unk(), 0, -FLT_MAX}); // at the beginning tokenization score is zero tokenization_results[0] = { vocab.token_unk(), 0, 0 }; for (size_t input_offset = 0; input_offset < input_len;) { size_t prefix_offset = input_offset; // calculate how many code units are in the currently processed UTF code point size_t n_utf8_code_units = std::min(unicode_len_utf8(normalized[input_offset]), input_len - input_offset); // traverse the token matcher trie to find a matching token bool single_codepoint_token_found = false; const struct best_tokenization & current_best = tokenization_results[input_offset]; const struct naive_trie * node = tokenizer.token_matcher.traverse(normalized[prefix_offset++]); while (prefix_offset <= input_len && node != NULL) { // check if we found valid token in prefix if (node->has_value) { // check if it corresponds to the whole UTF code point if (prefix_offset - input_offset == n_utf8_code_units) { single_codepoint_token_found = true; } llama_token token_id = node->value; const auto & token_data = vocab.get_token_data(token_id); // we set the user-defined token scores to 0 to make them more likely to be selected // (normal token scores are log probabilities, so they are negative) // score type is double here to make tokenization results exactly // the same as in the HF tokenizer using SentencePiece const double token_score = vocab.is_user_defined(token_id) ? 0.0 : token_data.score; const double challenger_score = current_best.score_sum + token_score; struct best_tokenization & current_champ = tokenization_results[prefix_offset]; if (challenger_score > current_champ.score_sum) { struct best_tokenization challenger = { token_id, input_offset, (float) challenger_score }; current_champ = challenger; } } node = node->traverse(normalized[prefix_offset++]); } // if we didn't find a valid token corresponding to the whole UTF code point // then use unknown token as the tokenization of this UTF code point if (!single_codepoint_token_found) { const double challenger_score = current_best.score_sum + tokenizer.unknown_token_score; prefix_offset = input_offset + n_utf8_code_units; struct best_tokenization & current_champ = tokenization_results[prefix_offset]; if (challenger_score > current_champ.score_sum) { struct best_tokenization challenger = { vocab.token_unk(), input_offset, (float) challenger_score }; current_champ = challenger; } } // move to the next UTF code point input_offset += n_utf8_code_units; } // now backtrack from the end to gather token ids of the best tokenization // merge sequences of consecutive unknown tokens into single unknown tokens bool is_prev_unknown = false; for (struct best_tokenization & tokenization = tokenization_results[input_len]; ; tokenization = tokenization_results[tokenization.input_offset]) { bool is_unknown = tokenization.token_id == vocab.token_unk(); if (!(is_prev_unknown && is_unknown)) { output.push_back(tokenization.token_id); } if (tokenization.input_offset == 0) { break; } is_prev_unknown = is_unknown; } // reverse the output since we added tokens starting from the end of the input std::reverse(output.begin() + output_size, output.end()); } private: // helper structure for returning normalization results struct normalization_result { const char * normalized; size_t normalized_len; size_t consumed_input; }; void normalize(const std::string& input, std::string * normalized) { normalized->clear(); normalized->reserve(input.size() * 3); const std::string space = vocab.get_escape_whitespaces() ? tokenizer.escaped_space : " "; const bool shall_prepend_space = !vocab.get_treat_whitespace_as_suffix() && vocab.get_add_space_prefix(); const bool shall_append_space = vocab.get_treat_whitespace_as_suffix() && vocab.get_add_space_prefix(); const bool shall_merge_spaces = vocab.get_remove_extra_whitespaces(); bool is_space_prepended = false; bool processing_non_ws = false; size_t input_len = input.size(); for (size_t input_offset = 0; input_offset < input_len; ) { auto norm_res = normalize_prefix(input, input_offset); for (size_t i = 0; i < norm_res.normalized_len; i++) { char c = norm_res.normalized[i]; if (c != ' ') { if (!processing_non_ws) { processing_non_ws = true; if ((shall_prepend_space && !is_space_prepended) || shall_merge_spaces) { normalized->append(space); is_space_prepended = true; } } normalized->push_back(c); } else { if (processing_non_ws) { processing_non_ws = false; } if (!shall_merge_spaces) { normalized->append(space); } } } input_offset += norm_res.consumed_input; } if (shall_append_space) { normalized->append(space); } } /* * This structure is a view wrapper for XOR-compressed double array (XCDA) * See Shunsuke Kanda (2018). Space- and Time-Efficient String Dictionaries. * Each bit-packed entry contains: * - BASE array value in bits 10-30 * - LCHECK array value in bits 0-7 * - LEAF array value in bit 9 * Entries containing indexes of replacement sequences have set bit 31 */ struct xcda_array_view { public: xcda_array_view(const uint32_t * xcda_array, size_t xcda_array_size) : xcda_array(xcda_array), xcda_array_size(xcda_array_size) { } uint32_t get_base(size_t index) { uint32_t packed_node = get_node(index); return (packed_node >> 10) << ((packed_node & (1U << 9)) >> 6); } uint32_t get_lcheck(size_t index) { uint32_t packed_node = get_node(index); return packed_node & ((1U << 31) | 0xff); } bool get_leaf(size_t index) { uint32_t packed_node = get_node(index); return (packed_node >> 8) & 1; } uint32_t get_value(size_t index) { uint32_t packed_node = get_node(index); return packed_node & ((1U << 31) - 1); } private: uint32_t get_node(size_t index) { if (index > xcda_array_size) { throw std::runtime_error("Index out of array bounds in XCDA array!"); } return xcda_array[index]; } const uint32_t * xcda_array; size_t xcda_array_size; }; // this structure stores the best tokenization so far at input_offset struct best_tokenization { llama_token token_id; size_t input_offset; float score_sum; }; struct normalization_result normalize_prefix(const std::string & input, size_t input_offset) { if (input_offset == input.size()) { return { &input[input_offset], 0, 0 }; } // if input prefix matches some user-defined token return this token as normalization result auto user_defined_token_match = tokenizer.user_defined_token_matcher.get_longest_prefix(&input[input_offset], input.size() - input_offset); if (user_defined_token_match.second > 0) { return { &input[input_offset], user_defined_token_match.second, user_defined_token_match.second }; } size_t longest_prefix_length = 0; size_t longest_prefix_offset = 0; if (tokenizer.xcda_array_size > 0) { struct xcda_array_view xcda_view(tokenizer.xcda_array, tokenizer.xcda_array_size); // Find the longest normalized sequence matching the input prefix by walking // the XOR-compressed compact double array (XCDA) starting from the root node // We find the index of the next node by calculating BASE[s] ^ c where s is // the index of the previous node and c is a numerical character value uint32_t node_index = 0; // get BASE of the root node node_index = xcda_view.get_base(node_index); for (size_t prefix_offset = input_offset; prefix_offset < input.size(); prefix_offset++) { unsigned char c = input[prefix_offset]; if (c == 0) { break; } node_index ^= c; // if value of LCHECK is not c it means that this is not a child of // the previous node, so we stop matching if (xcda_view.get_lcheck(node_index) != c) { break; } bool is_leaf = xcda_view.get_leaf(node_index); // get BASE of the current node node_index ^= xcda_view.get_base(node_index); // if LEAF of the current node is true, it means that its BASE points to the node // containing index of replacement sequence for currently matched input prefix if (is_leaf) { longest_prefix_length = prefix_offset - input_offset + 1; // get index of replacement sequence for currently matched input prefix longest_prefix_offset = xcda_view.get_value(node_index); } } } if (longest_prefix_length > 0) { // we have a match, so return the replacement sequence if (longest_prefix_offset >= tokenizer.prefix_replacements_size) { throw std::runtime_error("Index out of array bounds in precompiled charsmap!"); } const char * prefix_replacement = &(tokenizer.prefix_replacements)[longest_prefix_offset]; return { prefix_replacement, strlen(prefix_replacement), longest_prefix_length }; } // check if the input prefix contains a valid sequence of UTF-8 code units try { // if yes, return this sequence unmodified size_t prefix_offset = input_offset; unicode_cpt_from_utf8(input, prefix_offset); return { &input[input_offset], prefix_offset - input_offset, prefix_offset - input_offset }; } catch (std::invalid_argument & /*ex*/) { // if no, consume 1 byte and return U+FFFD - REPLACEMENT CHARACTER return { "\xEF\xBF\xBD", 3, 1 }; } } const llama_vocab & vocab; const llm_tokenizer_ugm & tokenizer; }; // // RWKV tokenizer // static std::vector llama_unescape_rwkv_token(const std::string & escaped) { std::vector output; output.reserve(escaped.size()); // Parser state bool escaping = false; uint8_t hex_remaining = 0; uint8_t hex_acc = 0; // Step through characters, performing parsing for (const char & c : escaped) { // If we're parsing a hex code, interpret the next character if (hex_remaining != 0) { uint8_t value = (c >= 'a') ? (c - 'a' + 10) : (c - '0'); hex_acc = (hex_acc << 4) + value; hex_remaining -= 1; if (hex_remaining == 0) { output.push_back(hex_acc); hex_acc = 0; } continue; } // If we got an escape character, interpret it if (escaping) { if (c == 't') { output.push_back('\t'); } else if (c == 'n') { output.push_back('\n'); } else if (c == 'r') { output.push_back('\r'); } else if (c == 'x') { hex_remaining = 2; } else { output.push_back(c); } escaping = false; continue; } if (c == '\\') { escaping = true; continue; } output.push_back(c); } return output; } struct llm_tokenizer_rwkv : llm_tokenizer { llm_tokenizer_rwkv(const llama_vocab & vocab) { // RWKV supports arbitrary byte tokens, but the vocab struct only supports string tokens. // For now, we decode the vocab here into the lookup we'll use for tokenization. // build trie for (uint32_t id = 0; id < vocab.n_tokens(); ++id) { const auto & data = vocab.get_token_data(id); const auto text = llama_unescape_rwkv_token(data.text); token_matcher.insert((const char *) text.data(), text.size(), id); } } struct naive_trie token_matcher; }; struct llm_tokenizer_rwkv_session { llm_tokenizer_rwkv_session(const llama_vocab & vocab, const llm_tokenizer_rwkv & tokenizer) : vocab(vocab), tokenizer(tokenizer) {} void tokenize(const std::string & text, std::vector & output) { uint32_t position = 0; while (position < text.size()) { const struct naive_trie * node = tokenizer.token_matcher.traverse(text[position]); if (node == NULL) { // no matching token found, add unknown token output.push_back(vocab.token_unk()); position += 1; continue; } // traverse the trie to find the longest matching token uint32_t token_id = 0; uint32_t token_length = 0; while (node != NULL) { if (node->has_value) { token_id = node->value; token_length = position + 1; } node = node->traverse(text[++position]); } // add the longest matching token output.push_back(token_id); position = token_length; } } private: const llama_vocab & vocab; const llm_tokenizer_rwkv & tokenizer; }; // // impl // typedef enum FRAGMENT_BUFFER_VARIANT_TYPE { FRAGMENT_BUFFER_VARIANT_TYPE_TOKEN, FRAGMENT_BUFFER_VARIANT_TYPE_RAW_TEXT } FRAGMENT_BUFFER_VARIANT_TYPE; struct fragment_buffer_variant { fragment_buffer_variant(llama_token _token) : type(FRAGMENT_BUFFER_VARIANT_TYPE_TOKEN), token(_token), raw_text(_dummy), offset(0), length(0) {} fragment_buffer_variant(const std::string & _raw_text, int64_t _offset, int64_t _length) : type(FRAGMENT_BUFFER_VARIANT_TYPE_RAW_TEXT), token((llama_token) - 1), raw_text(_raw_text), offset(_offset), length(_length){ GGML_ASSERT(_offset >= 0); GGML_ASSERT(_length >= 1); GGML_ASSERT(offset + length <= raw_text.length()); } const FRAGMENT_BUFFER_VARIANT_TYPE type; const llama_token token; const std::string _dummy; const std::string & raw_text; const uint64_t offset; const uint64_t length; }; struct llama_vocab::impl { uint32_t n_token_types = 0; // for BERT-style token types enum llama_vocab_type type = LLAMA_VOCAB_TYPE_SPM; enum llama_vocab_pre_type pre_type = LLAMA_VOCAB_PRE_TYPE_DEFAULT; int max_token_len = 0; // used for optimizing longest token search // default LLaMA special tokens // TODO: should we set all of these to LLAMA_TOKEN_NULL? llama_token special_bos_id = 1; llama_token special_eos_id = 2; llama_token special_eot_id = LLAMA_TOKEN_NULL; llama_token special_eom_id = LLAMA_TOKEN_NULL; llama_token special_unk_id = 0; llama_token special_sep_id = LLAMA_TOKEN_NULL; llama_token special_pad_id = LLAMA_TOKEN_NULL; llama_token special_mask_id = LLAMA_TOKEN_NULL; llama_token linefeed_id = 13; // fim tokens llama_token special_fim_pre_id = LLAMA_TOKEN_NULL; llama_token special_fim_suf_id = LLAMA_TOKEN_NULL; llama_token special_fim_mid_id = LLAMA_TOKEN_NULL; llama_token special_fim_pad_id = LLAMA_TOKEN_NULL; llama_token special_fim_rep_id = LLAMA_TOKEN_NULL; // repo llama_token special_fim_sep_id = LLAMA_TOKEN_NULL; // file separator // tokenizer flags bool add_space_prefix = false; bool add_bos = false; bool add_eos = false; bool ignore_merges = false; bool clean_spaces = false; // clean_up_tokenization_spaces bool remove_extra_whitespaces = false; bool escape_whitespaces = true; bool treat_whitespace_as_suffix = false; std::unordered_map token_to_id; std::vector id_to_token; std::vector cache_special_tokens; std::vector cache_token_to_piece; // llama_token_to_piece(special = true); std::map, int> bpe_ranks; // set of all tokens that cause "end of generation" std::set special_eog_ids; std::unique_ptr tokenizer; std::vector precompiled_charsmap; impl(const llama_vocab & vocab) : vocab(vocab) { } ~impl() = default; void load(llama_model_loader & ml, const LLM_KV & kv); enum llama_vocab_type get_type() const; std::string type_name() const; bool is_normal (llama_token id) const; bool is_unknown (llama_token id) const; bool is_control (llama_token id) const; bool is_byte (llama_token id) const; bool is_user_defined(llama_token id) const; bool is_unused (llama_token id) const; bool is_eog (llama_token id) const; uint8_t token_to_byte(llama_token id) const; llama_token_attr token_get_attr(llama_token id) const; void init_tokenizer(enum llama_vocab_type type); void tokenizer_st_partition(std::forward_list & buffer, bool parse_special) const; std::string token_to_piece_for_cache( llama_token token, bool special) const; std::vector tokenize( const std::string & raw_text, bool add_special, bool parse_special = false) const; int32_t tokenize( const char * text, int32_t text_len, llama_token * tokens, int32_t n_tokens_max, bool add_special, bool parse_special) const; // does not write null-terminator to buf int32_t token_to_piece( llama_token token, char * buf, int32_t length, int32_t lstrip, bool special) const; // use cached data const std::string & token_to_piece(llama_token token) const; int32_t detokenize( const llama_token * tokens, int32_t n_tokens, char * text, int32_t text_len_max, bool remove_special, bool unparse_special) const; std::string detokenize( const std::vector & tokens, bool special) const; void print_info() const; private: const llama_vocab & vocab; }; void llama_vocab::impl::load(llama_model_loader & ml, const LLM_KV & kv) { struct gguf_context * ctx = ml.meta.get(); // determine vocab type { std::string tokenizer_model; std::string tokenizer_pre; ml.get_key(LLM_KV_TOKENIZER_MODEL, tokenizer_model); ml.get_key(LLM_KV_TOKENIZER_PRE, tokenizer_pre, false); ml.get_key(LLM_KV_TOKENIZER_TOKEN_TYPE_COUNT, n_token_types, false); if (tokenizer_model == "no_vocab" || tokenizer_model == "none") { type = LLAMA_VOCAB_TYPE_NONE; // default special tokens special_bos_id = LLAMA_TOKEN_NULL; special_eos_id = LLAMA_TOKEN_NULL; special_unk_id = LLAMA_TOKEN_NULL; special_sep_id = LLAMA_TOKEN_NULL; special_pad_id = LLAMA_TOKEN_NULL; special_mask_id = LLAMA_TOKEN_NULL; linefeed_id = LLAMA_TOKEN_NULL; // read vocab size from metadata uint32_t n_tokens = 0; if (ml.get_key(LLM_KV_VOCAB_SIZE, n_tokens, false)) { LLAMA_LOG_WARN("%s: adding %u dummy tokens\n", __func__, n_tokens); id_to_token.resize(n_tokens); } return; } if (tokenizer_model == "llama") { type = LLAMA_VOCAB_TYPE_SPM; // default special tokens special_bos_id = 1; special_eos_id = 2; special_unk_id = 0; special_sep_id = LLAMA_TOKEN_NULL; special_pad_id = LLAMA_TOKEN_NULL; special_mask_id = LLAMA_TOKEN_NULL; } else if (tokenizer_model == "bert") { type = LLAMA_VOCAB_TYPE_WPM; // default special tokens special_bos_id = 101; special_eos_id = LLAMA_TOKEN_NULL; special_unk_id = 100; special_sep_id = 102; special_pad_id = 0; special_mask_id = 103; } else if (tokenizer_model == "gpt2") { type = LLAMA_VOCAB_TYPE_BPE; // read bpe merges and populate bpe ranks const int merges_keyidx = gguf_find_key(ctx, kv(LLM_KV_TOKENIZER_MERGES).c_str()); if (merges_keyidx == -1) { throw std::runtime_error("cannot find tokenizer merges in model file\n"); } const int n_merges = gguf_get_arr_n(ctx, merges_keyidx); for (int i = 0; i < n_merges; i++) { const std::string word = gguf_get_arr_str(ctx, merges_keyidx, i); //GGML_ASSERT(unicode_cpts_from_utf8(word).size() > 0); std::string first; std::string second; const size_t pos = word.find(' ', 1); if (pos != std::string::npos) { first = word.substr(0, pos); second = word.substr(pos + 1); } bpe_ranks.emplace(std::make_pair(first, second), i); } // default special tokens special_bos_id = 11; special_eos_id = 11; special_unk_id = LLAMA_TOKEN_NULL; special_sep_id = LLAMA_TOKEN_NULL; special_pad_id = LLAMA_TOKEN_NULL; special_mask_id = LLAMA_TOKEN_NULL; } else if (tokenizer_model == "t5") { type = LLAMA_VOCAB_TYPE_UGM; // default special tokens special_bos_id = LLAMA_TOKEN_NULL; special_eos_id = 1; special_unk_id = 2; special_sep_id = LLAMA_TOKEN_NULL; special_pad_id = 0; special_mask_id = LLAMA_TOKEN_NULL; const int precompiled_charsmap_keyidx = gguf_find_key(ctx, kv(LLM_KV_TOKENIZER_PRECOMPILED_CHARSMAP).c_str()); if (precompiled_charsmap_keyidx != -1) { size_t n_precompiled_charsmap = gguf_get_arr_n(ctx, precompiled_charsmap_keyidx); const char * pc = (const char *) gguf_get_arr_data(ctx, precompiled_charsmap_keyidx); precompiled_charsmap.assign(pc, pc + n_precompiled_charsmap); #ifdef IS_BIG_ENDIAN // correct endiannes of data in precompiled_charsmap binary blob uint32_t * xcda_blob_size = (uint32_t *) &precompiled_charsmap[0]; *xcda_blob_size = __builtin_bswap32(*xcda_blob_size); assert(*xcda_blob_size + sizeof(uint32_t) < n_precompiled_charsmap); size_t xcda_array_size = *xcda_blob_size / sizeof(uint32_t); uint32_t * xcda_array = (uint32_t *) &precompiled_charsmap[sizeof(uint32_t)]; for (size_t i = 0; i < xcda_array_size; ++i) { xcda_array[i] = __builtin_bswap32(xcda_array[i]); } #endif } } else if (tokenizer_model == "rwkv") { type = LLAMA_VOCAB_TYPE_RWKV; // default special tokens special_bos_id = LLAMA_TOKEN_NULL; special_eos_id = LLAMA_TOKEN_NULL; special_unk_id = LLAMA_TOKEN_NULL; special_sep_id = LLAMA_TOKEN_NULL; special_pad_id = LLAMA_TOKEN_NULL; } else { throw std::runtime_error(format("unknown tokenizer: '%s'", tokenizer_model.c_str())); } // for now, only BPE models have pre-tokenizers if (type == LLAMA_VOCAB_TYPE_BPE) { add_space_prefix = false; clean_spaces = true; if (tokenizer_pre.empty()) { LLAMA_LOG_WARN("%s: missing pre-tokenizer type, using: 'default'\n", __func__); LLAMA_LOG_WARN("%s: \n", __func__); LLAMA_LOG_WARN("%s: ************************************ \n", __func__); LLAMA_LOG_WARN("%s: GENERATION QUALITY WILL BE DEGRADED! \n", __func__); LLAMA_LOG_WARN("%s: CONSIDER REGENERATING THE MODEL \n", __func__); LLAMA_LOG_WARN("%s: ************************************ \n", __func__); LLAMA_LOG_WARN("%s: \n", __func__); pre_type = LLAMA_VOCAB_PRE_TYPE_DEFAULT; } else if (tokenizer_pre == "default") { pre_type = LLAMA_VOCAB_PRE_TYPE_DEFAULT; } else if ( tokenizer_pre == "llama3" || tokenizer_pre == "llama-v3" || tokenizer_pre == "llama-bpe"|| tokenizer_pre == "falcon3") { pre_type = LLAMA_VOCAB_PRE_TYPE_LLAMA3; ignore_merges = true; add_bos = true; } else if ( tokenizer_pre == "deepseek-llm") { pre_type = LLAMA_VOCAB_PRE_TYPE_DEEPSEEK_LLM; clean_spaces = false; } else if ( tokenizer_pre == "deepseek-coder") { pre_type = LLAMA_VOCAB_PRE_TYPE_DEEPSEEK_CODER; clean_spaces = false; } else if ( tokenizer_pre == "deepseek-v3") { pre_type = LLAMA_VOCAB_PRE_TYPE_DEEPSEEK3_LLM; clean_spaces = false; } else if ( tokenizer_pre == "falcon") { pre_type = LLAMA_VOCAB_PRE_TYPE_FALCON; } else if ( tokenizer_pre == "mpt") { pre_type = LLAMA_VOCAB_PRE_TYPE_MPT; } else if ( tokenizer_pre == "starcoder") { pre_type = LLAMA_VOCAB_PRE_TYPE_STARCODER; } else if ( tokenizer_pre == "gpt-2" || tokenizer_pre == "phi-2" || tokenizer_pre == "jina-es" || tokenizer_pre == "jina-de" || tokenizer_pre == "gigachat" || tokenizer_pre == "jina-v1-en" || tokenizer_pre == "jina-v2-es" || tokenizer_pre == "jina-v2-de" || tokenizer_pre == "jina-v2-code" || tokenizer_pre == "roberta-bpe") { pre_type = LLAMA_VOCAB_PRE_TYPE_GPT2; } else if ( tokenizer_pre == "refact") { pre_type = LLAMA_VOCAB_PRE_TYPE_REFACT; } else if ( tokenizer_pre == "command-r") { pre_type = LLAMA_VOCAB_PRE_TYPE_COMMAND_R; clean_spaces = false; } else if ( tokenizer_pre == "qwen2" || tokenizer_pre == "deepseek-r1-qwen") { pre_type = LLAMA_VOCAB_PRE_TYPE_QWEN2; clean_spaces = false; } else if ( tokenizer_pre == "stablelm2") { pre_type = LLAMA_VOCAB_PRE_TYPE_STABLELM2; } else if ( tokenizer_pre == "olmo") { pre_type = LLAMA_VOCAB_PRE_TYPE_OLMO; } else if ( tokenizer_pre == "dbrx") { pre_type = LLAMA_VOCAB_PRE_TYPE_DBRX; } else if ( tokenizer_pre == "smaug-bpe") { pre_type = LLAMA_VOCAB_PRE_TYPE_SMAUG; } else if ( tokenizer_pre == "poro-chat") { pre_type = LLAMA_VOCAB_PRE_TYPE_PORO; clean_spaces = false; } else if ( tokenizer_pre == "chatglm-bpe") { pre_type = LLAMA_VOCAB_PRE_TYPE_CHATGLM4; special_bos_id = LLAMA_TOKEN_NULL; } else if ( tokenizer_pre == "viking") { pre_type = LLAMA_VOCAB_PRE_TYPE_VIKING; clean_spaces = false; } else if ( tokenizer_pre == "jais") { pre_type = LLAMA_VOCAB_PRE_TYPE_JAIS; } else if ( tokenizer_pre == "tekken") { pre_type = LLAMA_VOCAB_PRE_TYPE_TEKKEN; clean_spaces = false; ignore_merges = true; add_bos = true; } else if ( tokenizer_pre == "smollm") { pre_type = LLAMA_VOCAB_PRE_TYPE_SMOLLM; clean_spaces = false; } else if ( tokenizer_pre == "codeshell") { pre_type = LLAMA_VOCAB_PRE_TYPE_CODESHELL; } else if ( tokenizer_pre == "bloom") { pre_type = LLAMA_VOCAB_PRE_TYPE_BLOOM; } else if ( tokenizer_pre == "gpt3-finnish") { pre_type = LLAMA_VOCAB_PRE_TYPE_GPT3_FINNISH; } else if ( tokenizer_pre == "exaone") { pre_type = LLAMA_VOCAB_PRE_TYPE_EXAONE; } else if ( tokenizer_pre == "chameleon") { pre_type = LLAMA_VOCAB_PRE_TYPE_CHAMELEON; add_bos = true; clean_spaces = false; } else if ( tokenizer_pre == "minerva-7b") { pre_type = LLAMA_VOCAB_PRE_TYPE_MINERVA; } else if ( tokenizer_pre == "megrez") { pre_type = LLAMA_VOCAB_PRE_TYPE_QWEN2; } else { throw std::runtime_error(format("unknown pre-tokenizer type: '%s'", tokenizer_pre.c_str())); } } else if (type == LLAMA_VOCAB_TYPE_SPM) { pre_type = LLAMA_VOCAB_PRE_TYPE_DEFAULT; add_space_prefix = true; clean_spaces = false; add_bos = true; add_eos = false; } else if (type == LLAMA_VOCAB_TYPE_WPM) { pre_type = LLAMA_VOCAB_PRE_TYPE_DEFAULT; add_space_prefix = false; clean_spaces = true; add_bos = true; add_eos = false; } else if (type == LLAMA_VOCAB_TYPE_UGM) { pre_type = LLAMA_VOCAB_PRE_TYPE_DEFAULT; add_bos = false; add_eos = true; } else if (type == LLAMA_VOCAB_TYPE_RWKV) { pre_type = LLAMA_VOCAB_PRE_TYPE_DEFAULT; add_space_prefix = false; clean_spaces = false; add_bos = false; add_eos = false; } else { pre_type = LLAMA_VOCAB_PRE_TYPE_DEFAULT; } ml.get_key(LLM_KV_TOKENIZER_ADD_PREFIX, add_space_prefix, false); ml.get_key(LLM_KV_TOKENIZER_REMOVE_EXTRA_WS, remove_extra_whitespaces, false); } const int token_idx = gguf_find_key(ctx, kv(LLM_KV_TOKENIZER_LIST).c_str()); if (token_idx == -1) { throw std::runtime_error("cannot find tokenizer vocab in model file\n"); } const float * scores = nullptr; const int score_idx = gguf_find_key(ctx, kv(LLM_KV_TOKENIZER_SCORES).c_str()); if (score_idx != -1) { scores = (const float * ) gguf_get_arr_data(ctx, score_idx); } const int * toktypes = nullptr; const int toktype_idx = gguf_find_key(ctx, kv(LLM_KV_TOKENIZER_TOKEN_TYPE).c_str()); if (toktype_idx != -1) { toktypes = (const int * ) gguf_get_arr_data(ctx, toktype_idx); } uint32_t n_tokens = gguf_get_arr_n(ctx, token_idx); id_to_token.resize(n_tokens); for (uint32_t i = 0; i < n_tokens; i++) { std::string word = gguf_get_arr_str(ctx, token_idx, i); if (word.empty()) { LLAMA_LOG_WARN("%s: empty token at index %u\n", __func__, i); word = "[EMPTY_" + std::to_string(i) + "]"; } token_to_id[word] = i; max_token_len = std::max(max_token_len, (int) word.size()); auto & token_data = id_to_token[i]; token_data.text = std::move(word); token_data.score = scores ? scores[i] : 0.0f; token_data.attr = LLAMA_TOKEN_ATTR_NORMAL; if (toktypes) { //TODO: remove, required until per token attributes are available from GGUF file switch(toktypes[i]) { case LLAMA_TOKEN_TYPE_UNKNOWN: token_data.attr = LLAMA_TOKEN_ATTR_UNKNOWN; break; case LLAMA_TOKEN_TYPE_UNUSED: token_data.attr = LLAMA_TOKEN_ATTR_UNUSED; break; case LLAMA_TOKEN_TYPE_NORMAL: token_data.attr = LLAMA_TOKEN_ATTR_NORMAL; break; case LLAMA_TOKEN_TYPE_CONTROL: token_data.attr = LLAMA_TOKEN_ATTR_CONTROL; break; case LLAMA_TOKEN_TYPE_USER_DEFINED: token_data.attr = LLAMA_TOKEN_ATTR_USER_DEFINED; break; case LLAMA_TOKEN_TYPE_BYTE: token_data.attr = LLAMA_TOKEN_ATTR_BYTE; break; case LLAMA_TOKEN_TYPE_UNDEFINED: token_data.attr = LLAMA_TOKEN_ATTR_UNDEFINED; break; default: token_data.attr = LLAMA_TOKEN_ATTR_UNDEFINED; break; } } } GGML_ASSERT(id_to_token.size() == token_to_id.size()); init_tokenizer(type); // determine the newline token: LLaMA "<0x0A>" == 10 == '\n', Falcon 193 == '\n' if (type == LLAMA_VOCAB_TYPE_SPM) { try { linefeed_id = vocab.byte_to_token('\n'); } catch (const std::exception & e) { LLAMA_LOG_WARN("%s: SPM vocabulary, but newline token not found: %s! Using special_pad_id instead.", __func__, e.what()); linefeed_id = special_pad_id; } } else if (type == LLAMA_VOCAB_TYPE_WPM) { linefeed_id = special_pad_id; } else if (type == LLAMA_VOCAB_TYPE_RWKV) { const std::vector ids = tokenize("\n", false); GGML_ASSERT(!ids.empty() && "model vocab missing newline token"); linefeed_id = ids[0]; } else { const std::vector ids = tokenize("\xC4\x8A", false); // U+010A //GGML_ASSERT(!ids.empty() && "model vocab missing newline token"); if (ids.empty()) { LLAMA_LOG_WARN("%s: model vocab missing newline token, using special_pad_id instead\n", __func__); linefeed_id = special_pad_id; } else { linefeed_id = ids[0]; } } // special tokens { const std::vector> special_token_types = { { LLM_KV_TOKENIZER_BOS_ID, special_bos_id }, { LLM_KV_TOKENIZER_EOS_ID, special_eos_id }, { LLM_KV_TOKENIZER_EOT_ID, special_eot_id }, { LLM_KV_TOKENIZER_EOM_ID, special_eom_id }, { LLM_KV_TOKENIZER_UNK_ID, special_unk_id }, { LLM_KV_TOKENIZER_SEP_ID, special_sep_id }, { LLM_KV_TOKENIZER_PAD_ID, special_pad_id }, { LLM_KV_TOKENIZER_MASK_ID, special_mask_id }, { LLM_KV_TOKENIZER_FIM_PRE_ID, special_fim_pre_id }, { LLM_KV_TOKENIZER_FIM_SUF_ID, special_fim_suf_id }, { LLM_KV_TOKENIZER_FIM_MID_ID, special_fim_mid_id }, { LLM_KV_TOKENIZER_FIM_PAD_ID, special_fim_pad_id }, { LLM_KV_TOKENIZER_FIM_REP_ID, special_fim_rep_id }, { LLM_KV_TOKENIZER_FIM_SEP_ID, special_fim_sep_id }, // deprecated { LLM_KV_TOKENIZER_PREFIX_ID, special_fim_pre_id }, { LLM_KV_TOKENIZER_SUFFIX_ID, special_fim_suf_id }, { LLM_KV_TOKENIZER_MIDDLE_ID, special_fim_mid_id }, }; for (const auto & it : special_token_types) { const std::string & key = kv(std::get<0>(it)); int32_t & id = std::get<1>(it); uint32_t new_id; if (!ml.get_key(std::get<0>(it), new_id, false)) { continue; } if (new_id >= id_to_token.size()) { LLAMA_LOG_WARN("%s: bad special token: '%s' = %u, using default id %d\n", __func__, key.c_str(), new_id, id); } else { id = new_id; } } // Handle add_bos and add_eos { bool temp = true; if (ml.get_key(LLM_KV_TOKENIZER_ADD_BOS, temp, false)) { add_bos = temp; } if (ml.get_key(LLM_KV_TOKENIZER_ADD_EOS, temp, false)) { add_eos = temp; } } // auto-detect special tokens by text // TODO: convert scripts should provide these tokens through the KV metadata LLM_KV_TOKENIZER_... // for now, we apply this workaround to find the tokens based on their text for (const auto & t : token_to_id) { // find EOT token: "<|eot_id|>", "<|im_end|>", "", etc. if (special_eot_id == LLAMA_TOKEN_NULL) { if (false || t.first == "<|eot_id|>" || t.first == "<|im_end|>" || t.first == "<|end|>" || t.first == "" || t.first == "<|endoftext|>" || t.first == "" || t.first == "<｜end▁of▁sentence｜>" // DeepSeek ) { special_eot_id = t.second; if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) { LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n", __func__, t.second, t.first.c_str()); id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL; } } } // find EOM token: "<|eom_id|>" if (special_eom_id == LLAMA_TOKEN_NULL) { if (false || t.first == "<|eom_id|>" ) { special_eom_id = t.second; if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) { LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n", __func__, t.second, t.first.c_str()); id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL; } } } // find FIM_PRE token: "<|fim_prefix|>", "", "

", etc.
            if (special_fim_pre_id == LLAMA_TOKEN_NULL) {
                if (false
                        || t.first == "<|fim_prefix|>"  // Qwen
                        || t.first == ""
                        || t.first == "<｜fim▁begin｜>" // DeepSeek
                        || t.first == ""
                        ) {
                    special_fim_pre_id = t.second;
                    if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) {
                        LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n",
                                __func__, t.second, t.first.c_str());
                        id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL;
                    }
                }
            }

            // find FIM_SUF token: "<|fim_suffix|>", "", "", etc.
            if (special_fim_suf_id == LLAMA_TOKEN_NULL) {
                if (false
                        || t.first == "<|fim_suffix|>" // Qwen
                        || t.first == ""
                        || t.first == "<｜fim▁hole｜>" // DeepSeek
                        || t.first == ""
                        ) {
                    special_fim_suf_id = t.second;
                    if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) {
                        LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n",
                                __func__, t.second, t.first.c_str());
                        id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL;
                    }
                }
            }

            // find FIM_MID token: "<|fim_middle|>", "", "", etc.
            if (special_fim_mid_id == LLAMA_TOKEN_NULL) {
                if (false
                        || t.first == "<|fim_middle|>" // Qwen
                        || t.first == ""
                        || t.first == "<｜fim▁end｜>"  // DeepSeek
                        || t.first == ""
                        ) {
                    special_fim_mid_id = t.second;
                    if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) {
                        LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n",
                                __func__, t.second, t.first.c_str());
                        id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL;
                    }
                }
            }

            // find FIM_PAD token: "<|fim_pad|>", "", "", etc.
            if (special_fim_pad_id == LLAMA_TOKEN_NULL) {
                if (false
                        || t.first == "<|fim_pad|>" // Qwen
                        || t.first == ""
                        || t.first == ""
                        ) {
                    special_fim_pad_id = t.second;
                    if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) {
                        LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n",
                                __func__, t.second, t.first.c_str());
                        id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL;
                    }
                }
            }

            // find FIM_REP token: "<|fim_repo|>", "", "", etc.
            if (special_fim_rep_id == LLAMA_TOKEN_NULL) {
                if (false
                        || t.first == "<|fim_repo|>"  // Qwen
                        || t.first == "<|repo_name|>"
                        || t.first == ""
                        || t.first == ""
                        ) {
                    special_fim_rep_id = t.second;
                    if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) {
                        LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n",
                                __func__, t.second, t.first.c_str());
                        id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL;
                    }
                }
            }

            // find FIM_SEP token: "<|file_sep|>"
            if (special_fim_sep_id == LLAMA_TOKEN_NULL) {
                if (false
                        || t.first == "<|file_sep|>" // Qwen
                        ) {
                    special_fim_sep_id = t.second;
                    if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) {
                        LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n",
                                __func__, t.second, t.first.c_str());
                        id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL;
                    }
                }
            }
        }

        // maintain a list of tokens that cause end-of-generation
        // this is currently determined based on the token text, which is obviously not ideal
        // ref: https://github.com/ggerganov/llama.cpp/issues/9606
        special_eog_ids.clear();

        if (special_fim_pad_id != LLAMA_TOKEN_NULL && special_eog_ids.count(special_fim_pad_id) == 0) {
            special_eog_ids.insert(special_fim_pad_id);
        }

        if (special_fim_rep_id != LLAMA_TOKEN_NULL && special_eog_ids.count(special_fim_rep_id) == 0) {
            special_eog_ids.insert(special_fim_rep_id);
        }

        if (special_fim_sep_id != LLAMA_TOKEN_NULL && special_eog_ids.count(special_fim_sep_id) == 0) {
            special_eog_ids.insert(special_fim_sep_id);
        }

        for (const auto & t : token_to_id) {
            if (false
                    || t.first == "<|eot_id|>"
                    || t.first == "<|im_end|>"
                    || t.first == "<|end|>"
                    || t.first == ""
                    || t.first == "<|endoftext|>"
                    || t.first == "<|eom_id|>"
                    || t.first == ""
               ) {
                special_eog_ids.insert(t.second);
                if ((id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL) == 0) {
                    LLAMA_LOG_WARN("%s: control-looking token: %6d '%s' was not control-type; this is probably a bug in the model. its type will be overridden\n",
                            __func__, t.second, t.first.c_str());
                    id_to_token[t.second].attr = LLAMA_TOKEN_ATTR_CONTROL;
                }
            } else {
                // token is control, but not marked as EOG -> print a debug log
                if (id_to_token[t.second].attr & LLAMA_TOKEN_ATTR_CONTROL && special_eog_ids.count(t.second) == 0) {
                    LLAMA_LOG_DEBUG("%s: control token: %6d '%s' is not marked as EOG\n",
                            __func__, t.second, t.first.c_str());
                }
            }
        }

        // sanity checks
        if (special_eos_id != LLAMA_TOKEN_NULL && special_eog_ids.count(special_eos_id) == 0) {
            special_eog_ids.insert(special_eos_id);
            LLAMA_LOG_WARN("%s: special_eos_id is not in special_eog_ids - the tokenizer config may be incorrect\n", __func__);
        }

        if (special_eot_id != LLAMA_TOKEN_NULL && special_eog_ids.count(special_eot_id) == 0) {
            special_eog_ids.insert(special_eot_id);
            LLAMA_LOG_WARN("%s: special_eot_id is not in special_eog_ids - the tokenizer config may be incorrect\n", __func__);
        }

        if (special_eom_id != LLAMA_TOKEN_NULL && special_eog_ids.count(special_eom_id) == 0) {
            special_eog_ids.insert(special_eom_id);
            LLAMA_LOG_WARN("%s: special_eom_id is not in special_eog_ids - the tokenizer config may be incorrect\n", __func__);
        }
    }

    // build special tokens cache
    {
        for (llama_token id = 0; id < (llama_token) n_tokens; ++id) {
            if (id_to_token[id].attr & (LLAMA_TOKEN_ATTR_CONTROL | LLAMA_TOKEN_ATTR_USER_DEFINED | LLAMA_TOKEN_ATTR_UNKNOWN)) {
                cache_special_tokens.push_back(id);
            }
        }

        std::sort(cache_special_tokens.begin(), cache_special_tokens.end(),
            [&] (const llama_token a, const llama_token b) {
                return id_to_token[a].text.size() > id_to_token[b].text.size();
            }
        );

        LLAMA_LOG_INFO("%s: special tokens cache size = %u\n", __func__, (uint32_t) cache_special_tokens.size());
    }

    // build token to piece cache
    {
        size_t size_cache = 0;

        std::vector cache(n_tokens);

        for (uint32_t id = 0; id < n_tokens; ++id) {
            cache[id] = token_to_piece_for_cache(id, true);

            size_cache += cache[id].size();
        }

        std::swap(cache_token_to_piece, cache);

        LLAMA_LOG_INFO("%s: token to piece cache size = %.4f MB\n", __func__, size_cache / 1024.0 / 1024.0);
    }

    // Handle per token attributes
    //NOTE: Each model customizes per token attributes.
    //NOTE: Per token attributes are missing from the GGUF file.
    //TODO: Extract attributes from GGUF file.
    {
        auto _contains_any = [] (const std::string & str, const std::vector & substrs) -> bool {
            for (const auto & substr : substrs) {
                if (str.find(substr) < std::string::npos) {
                    return true;
                }
            }
            return false;
        };

        auto _set_tokenid_attr = [&] (const llama_token id, llama_token_attr attr, bool value) {
            uint32_t current = id_to_token.at(id).attr;
            current = value ? (current | attr) : (current & ~attr);
            id_to_token[id].attr = (llama_token_attr) current;
        };

        auto _set_token_attr = [&] (const std::string & token, llama_token_attr attr, bool value) {
            _set_tokenid_attr(token_to_id.at(token), attr, value);
        };

        std::string model_name;
        std::string tokenizer_pre;

        ml.get_key(LLM_KV_GENERAL_NAME,  model_name,    false);
        ml.get_key(LLM_KV_TOKENIZER_PRE, tokenizer_pre, false);

        // model name to lowercase
        std::transform(model_name.begin(), model_name.end(), model_name.begin(),
            [] (const std::string::value_type x) {
                return std::tolower(x);
            }
        );

        // set attributes by model/tokenizer name
        if (_contains_any(tokenizer_pre, {"jina-v2-de", "jina-v2-es", "jina-v2-code"})) {
            _set_token_attr("", LLAMA_TOKEN_ATTR_LSTRIP, true);
        } else if (_contains_any(model_name, {"phi-3", "phi3"})) {
            for (auto id : cache_special_tokens) {
                _set_tokenid_attr(id, LLAMA_TOKEN_ATTR_RSTRIP, true);
            }
            for (const auto * token : {""}) {
                _set_token_attr(token, LLAMA_TOKEN_ATTR_RSTRIP, true);
            }
            for (const auto * token : {"", "", "<|endoftext|>"}) {
                _set_token_attr(token, LLAMA_TOKEN_ATTR_RSTRIP, false);
            }
        }
    }
}

enum llama_vocab_type llama_vocab::impl::get_type() const {
    return type;
}

std::string llama_vocab::impl::type_name() const{
    switch (type) {
        case LLAMA_VOCAB_TYPE_NONE: return "no vocab";
        case LLAMA_VOCAB_TYPE_SPM:  return "SPM";
        case LLAMA_VOCAB_TYPE_BPE:  return "BPE";
        case LLAMA_VOCAB_TYPE_WPM:  return "WPM";
        case LLAMA_VOCAB_TYPE_UGM:  return "UGM";
        case LLAMA_VOCAB_TYPE_RWKV: return "RWKV";
        default:                    return "unknown";
    }
}

bool llama_vocab::impl::is_normal(llama_token id) const {
    GGML_ASSERT(type != LLAMA_VOCAB_TYPE_NONE);
    return id_to_token[id].attr & LLAMA_TOKEN_ATTR_NORMAL;
}

bool llama_vocab::impl::is_unknown(llama_token id) const {
    GGML_ASSERT(type != LLAMA_VOCAB_TYPE_NONE);
    return id_to_token[id].attr & LLAMA_TOKEN_ATTR_UNKNOWN;
}

bool llama_vocab::impl::is_control(llama_token id) const {
    GGML_ASSERT(type != LLAMA_VOCAB_TYPE_NONE);
    return id_to_token[id].attr & LLAMA_TOKEN_ATTR_CONTROL;
}

bool llama_vocab::impl::is_byte(llama_token id) const {
    GGML_ASSERT(type != LLAMA_VOCAB_TYPE_NONE);
    return id_to_token[id].attr & LLAMA_TOKEN_ATTR_BYTE;
}

bool llama_vocab::impl::is_user_defined(llama_token id) const {
    GGML_ASSERT(type != LLAMA_VOCAB_TYPE_NONE);
    return id_to_token[id].attr & LLAMA_TOKEN_ATTR_USER_DEFINED;
}

bool llama_vocab::impl::is_unused(llama_token id) const {
    GGML_ASSERT(type != LLAMA_VOCAB_TYPE_NONE);
    return id_to_token[id].attr & LLAMA_TOKEN_ATTR_UNUSED;
}

bool llama_vocab::impl::is_eog(llama_token id) const {
    return id != LLAMA_TOKEN_NULL && special_eog_ids.count(id) > 0;
}

uint8_t llama_vocab::impl::token_to_byte(llama_token id) const {
    GGML_ASSERT(get_type() != LLAMA_VOCAB_TYPE_NONE);
    GGML_ASSERT(is_byte(id));
    const auto & token_data = id_to_token.at(id);
    switch (get_type()) {
        case LLAMA_VOCAB_TYPE_SPM:
        case LLAMA_VOCAB_TYPE_UGM: {
            auto buf = token_data.text.substr(3, 2);
            return strtol(buf.c_str(), NULL, 16);
        }
        case LLAMA_VOCAB_TYPE_BPE: {
            GGML_ABORT("fatal error");
        }
        case LLAMA_VOCAB_TYPE_WPM: {
            GGML_ABORT("fatal error");
        }
        default:
            GGML_ABORT("fatal error");
    }
}

llama_token_attr llama_vocab::impl::token_get_attr(llama_token id) const {
    GGML_ASSERT(type != LLAMA_VOCAB_TYPE_NONE);
    return id_to_token.at(id).attr;
}

void llama_vocab::impl::init_tokenizer(enum llama_vocab_type type) {
    LLAMA_LOG_DEBUG("%s: initializing tokenizer for type %d\n", __func__, type);

    switch (type) {
        case LLAMA_VOCAB_TYPE_SPM:
            tokenizer = std::make_unique(vocab);
            break;
        case LLAMA_VOCAB_TYPE_BPE:
            tokenizer = std::make_unique(vocab);
            break;
        case LLAMA_VOCAB_TYPE_WPM:
            tokenizer = std::make_unique(vocab);
            break;
        case LLAMA_VOCAB_TYPE_UGM:
            tokenizer = std::make_unique(vocab, precompiled_charsmap);
            break;
        case LLAMA_VOCAB_TYPE_RWKV:
            tokenizer = std::make_unique(vocab);
            break;
        default:
            GGML_ABORT("unsupported vocab type");
    }
}

//
// (de-) tokenize
//

// #define PRETOKENIZERDEBUG

void llama_vocab::impl::tokenizer_st_partition(std::forward_list & buffer, bool parse_special) const {
    // for each special token
    for (const llama_token special_id : cache_special_tokens) {
        const auto & data = vocab.get_token_data(special_id);
        const auto & text = data.text;

        if (!parse_special && (data.attr & (LLAMA_TOKEN_ATTR_CONTROL | LLAMA_TOKEN_ATTR_UNKNOWN))) {
            // Ignore control and unknown tokens when parse_special == false
            continue;
            // User-defined tokens are still pre-tokenized before everything else
            // ref: https://github.com/huggingface/tokenizers/blob/fdd26ba9a3f0c133427aab0423888cbde91362d7/tokenizers/src/tokenizer/mod.rs#L726
            // This is mostly relevant for neox-style tokenizers (mpt, olmo, stablelm, etc.)
        }

        // for each text fragment
        std::forward_list::iterator it = buffer.begin();
        while (it != buffer.end()) {
            auto & fragment = (*it);

            // if a fragment is text ( not yet processed )
            if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_RAW_TEXT) {
                const auto & raw_text = fragment.raw_text;

                auto raw_text_base_offset = fragment.offset;
                auto raw_text_base_length = fragment.length;

                // loop over the text
                while (true) {
                    // find the first occurrence of a given special token in this fragment
                    //  passing offset argument only limit the "search area" but match coordinates
                    //  are still relative to the source full raw_text
                    auto match = raw_text.find(text, raw_text_base_offset);

                    // no occurrences found, stop processing this fragment for a given special token
                    if (match == std::string::npos) break;

                    // check if match is within bounds of offset <-> length
                    if (match + text.length() > raw_text_base_offset + raw_text_base_length) break;

#ifdef PRETOKENIZERDEBUG
                    LLAMA_LOG_WARN("FF: (%ld %ld %ld) '%s'\n", raw_text->length(), raw_text_base_offset, raw_text_base_length, raw_text->substr(raw_text_base_offset, raw_text_base_length).c_str());
#endif
                    auto source = std::distance(buffer.begin(), it);

                    // if match is further than base offset
                    //  then we have some text to the left of it
                    if (match > raw_text_base_offset) {
                        // left
                        const int64_t left_reminder_offset = raw_text_base_offset + 0;
                        int64_t left_reminder_length = match - raw_text_base_offset;

                        if (data.attr & LLAMA_TOKEN_ATTR_LSTRIP) {
                            while (left_reminder_length > 0 && isspace(raw_text[left_reminder_offset + left_reminder_length - 1])) {
                                left_reminder_length--;
                            }
                        }

                        if (left_reminder_length > 0) {
                            buffer.emplace_after(it, raw_text, left_reminder_offset, left_reminder_length);
                            it++;
                        }

#ifdef PRETOKENIZERDEBUG
                        LLAMA_LOG_WARN("FL: (%ld %ld) '%s'\n", left_reminder_offset, left_reminder_length, raw_text->substr(left_reminder_offset, left_reminder_length).c_str());
#endif
                    }

                    // special token
                    buffer.emplace_after(it, special_id);
                    it++;

                    // right
                    if (match + text.length() < raw_text_base_offset + raw_text_base_length) {
                        int64_t right_reminder_offset = match + text.length();
                        int64_t right_reminder_length = raw_text_base_length - ((match - raw_text_base_offset) + text.length());

                        if (data.attr & LLAMA_TOKEN_ATTR_RSTRIP) {
                            while (right_reminder_length > 0 && isspace(raw_text[right_reminder_offset])) {
                                right_reminder_offset++;
                                right_reminder_length--;
                            }
                        }

                        if (right_reminder_length > 0) {
                            buffer.emplace_after(it, raw_text, right_reminder_offset, right_reminder_length);
                            it++;
                        }

#ifdef PRETOKENIZERDEBUG
                        LLAMA_LOG_WARN("FR: (%ld %ld) '%s'\n", right_reminder_offset, right_reminder_length, raw_text->substr(right_reminder_offset, right_reminder_length).c_str());
#endif

                        if (source == 0) {
                            buffer.erase_after(buffer.before_begin());
                        } else {
                            buffer.erase_after(std::next(buffer.begin(), (source - 1)));
                        }

                        // repeat for the right side
                        raw_text_base_offset = right_reminder_offset;
                        raw_text_base_length = right_reminder_length;

#ifdef PRETOKENIZERDEBUG
                        LLAMA_LOG_WARN("RR: (%ld %ld) '%s'\n", raw_text_base_offset, raw_text_base_length, raw_text->substr(raw_text_base_offset, raw_text_base_length).c_str());
#endif
                    } else {
                        if (source == 0) {
                            buffer.erase_after(buffer.before_begin());
                        } else {
                            buffer.erase_after(std::next(buffer.begin(), (source - 1)));
                        }
                        break;
                    }
                }
            }
            it++;
        }
    }
}

// NOTE: avoid ever using this except for building the token_to_piece caches
std::string llama_vocab::impl::token_to_piece_for_cache(llama_token token, bool special) const {
    std::string piece;
    piece.resize(piece.capacity());  // using string internal cache
    const int n_chars = vocab.token_to_piece(token, &piece[0], piece.size(), 0, special);
    if (n_chars < 0) {
        piece.resize(-n_chars);
        int check = vocab.token_to_piece(token, &piece[0], piece.size(), 0, special);
        GGML_ASSERT(check == -n_chars);
    }
    else {
        piece.resize(n_chars);
    }

    return piece;
}

static void llama_escape_whitespace(std::string & text) {
    replace_all(text, " ", "\xe2\x96\x81");
}

static void llama_unescape_whitespace(std::string & word) {
    replace_all(word, "\xe2\x96\x81", " ");
}

static std::string llama_decode_text(const std::string & text) {
    std::string decoded_text;

    const auto cpts = unicode_cpts_from_utf8(text);
    for (const auto cpt : cpts) {
        const auto utf8 = unicode_cpt_to_utf8(cpt);
        try {
            decoded_text += unicode_utf8_to_byte(utf8);
        } catch (const std::out_of_range & /*e*/) {
            decoded_text += "[UNK_BYTE_0x";
            for (const auto c : utf8) {
                decoded_text += format("%02x", (uint8_t) c);
            }
            decoded_text += text + "]";
        }
    }

    return decoded_text;
}

std::vector llama_vocab::impl::tokenize(
        const std::string & raw_text,
        bool add_special,
        bool parse_special) const {
    GGML_ASSERT(tokenizer && "Tokenizer not initialized. Call llama_vocab::init_tokenizer() first.");

    std::vector output;
    std::forward_list fragment_buffer;

    if (!raw_text.empty()) {
        fragment_buffer.emplace_front(raw_text, 0, raw_text.length());
        tokenizer_st_partition(fragment_buffer, parse_special);
    }

    switch (get_type()) {
        case LLAMA_VOCAB_TYPE_SPM:
            {
                // OG tokenizer behavior:
                //
                // tokenizer.encode('', add_special_tokens=True)  returns [1]
                // tokenizer.encode('', add_special_tokens=False) returns []

                bool is_prev_special = true;  // prefix with space if first token

                if (add_special && add_bos) {
                    GGML_ASSERT(special_bos_id != LLAMA_TOKEN_NULL);
                    output.push_back(special_bos_id);
                    is_prev_special = true;
                }

                for (const auto & fragment : fragment_buffer) {
                    if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_RAW_TEXT) {
                        std::string text;

                        // prefix with space if previous is special
                        if (add_space_prefix && is_prev_special) {
                            text = ' ';
                        }

                        text += fragment.raw_text.substr(fragment.offset, fragment.length);

#ifdef PRETOKENIZERDEBUG
                        LLAMA_LOG_WARN("TT: (%ld %ld %ld) '%s'\n", text.length(), fragment.offset, fragment.length, text.c_str());
#endif
                        llama_escape_whitespace(text);
                        llm_tokenizer_spm_session session(vocab);
                        session.tokenize(text, output);
                        is_prev_special = false;
                    } else { // if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_TOKEN)
                        output.push_back(fragment.token);
                        is_prev_special = true;
                    }
                }

                if (add_special && add_bos && output.size() >= 2 && output[1] == special_bos_id) {
                    LLAMA_LOG_WARN(
                        "%s: Added a BOS token to the prompt as specified by the model but the prompt "
                        "also starts with a BOS token. So now the final prompt starts with 2 BOS tokens. "
                        "Are you sure this is what you want?\n", __FUNCTION__);
                }

                if (add_special && add_eos) {
                    GGML_ASSERT(special_eos_id != LLAMA_TOKEN_NULL);
                    output.push_back(special_eos_id);
                }
            } break;
        case LLAMA_VOCAB_TYPE_BPE:
            {
                llm_tokenizer_bpe_session session(vocab, *static_cast(tokenizer.get()));
                // it calls some other methods that are not exist in llm_tokenizer,
                // here just cast it to bpe tokenizer object
                if (add_special) {
                    session.append_bos(output);
                }
                for (const auto & fragment : fragment_buffer) {
                    if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_RAW_TEXT) {
                        std::string text = fragment.raw_text.substr(fragment.offset, fragment.length);

#ifdef PRETOKENIZERDEBUG
                        LLAMA_LOG_WARN("TT: (%ld %ld %ld) '%s'\n", text.length(), fragment.offset, fragment.length, text.c_str());
#endif
                        session.tokenize(text, output);
                    } else { // if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_TOKEN)
                        session.append(fragment.token, output);
                    }
                }

                if (add_special) {
                    session.append_eos(output);
                    session.check_double_bos_eos(output);
                }
            } break;
        case LLAMA_VOCAB_TYPE_WPM:
            {
                if (add_special) {
                    GGML_ASSERT(special_bos_id != LLAMA_TOKEN_NULL);
                    output.push_back(special_bos_id);
                }

                llm_tokenizer_wpm_session session(vocab);

                for (const auto & fragment : fragment_buffer) {
                    if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_RAW_TEXT) {
                        std::string text = fragment.raw_text.substr(fragment.offset, fragment.length);

#ifdef PRETOKENIZERDEBUG
                        LLAMA_LOG_WARN("TT: (%ld %ld %ld) '%s'\n", text.length(), fragment.offset, fragment.length, text.c_str());
#endif
                        session.tokenize(text, output);
                    } else { // if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_TOKEN)
                        output.push_back(fragment.token);
                    }
                }

                if (add_special) {
                    GGML_ASSERT(special_sep_id != LLAMA_TOKEN_NULL);
                    output.push_back(special_sep_id);
                }
            } break;
        case LLAMA_VOCAB_TYPE_UGM:
            {
                if (add_special && add_bos) {
                    GGML_ASSERT(special_bos_id != LLAMA_TOKEN_NULL);
                    output.push_back(special_bos_id);
                }
                llm_tokenizer_ugm_session session(vocab, *static_cast(tokenizer.get()));

                for (const auto & fragment : fragment_buffer) {
                    if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_RAW_TEXT) {
                        std::string text = fragment.raw_text.substr(fragment.offset, fragment.length);
#ifdef PRETOKENIZERDEBUG
                        LLAMA_LOG_WARN("TT: (%ld %ld %ld) '%s'\n", text.length(), fragment.offset, fragment.length, text.c_str());
#endif
                        session.tokenize(text, output);
                    } else { // if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_TOKEN)
                        output.push_back(fragment.token);
                    }
                }

                if (add_special && add_bos && output.size() >= 2 && output[1] == special_bos_id) {
                    LLAMA_LOG_WARN(
                        "%s: Added a BOS token to the prompt as specified by the model but the prompt "
                        "also starts with a BOS token. So now the final prompt starts with 2 BOS tokens. "
                        "Are you sure this is what you want?\n", __FUNCTION__);
                }

                if (add_special && add_eos) {
                    GGML_ASSERT(special_eos_id != LLAMA_TOKEN_NULL);
                    output.push_back(special_eos_id);
                }
            } break;
        case LLAMA_VOCAB_TYPE_RWKV:
            {
                llm_tokenizer_rwkv_session session(vocab, *static_cast(tokenizer.get()));
                for (const auto & fragment : fragment_buffer) {
                    if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_RAW_TEXT) {
                        std::string text = fragment.raw_text.substr(fragment.offset, fragment.length);

#ifdef PRETOKENIZERDEBUG
                        LLAMA_LOG_WARN("TT: (%ld %ld %ld) '%s'\n", text.length(), fragment.offset, fragment.length, text.c_str());
#endif

                        session.tokenize(text, output);
                    } else { // if (fragment.type == FRAGMENT_BUFFER_VARIANT_TYPE_TOKEN)
                        output.push_back(fragment.token);
                    }
                }
            } break;
        case LLAMA_VOCAB_TYPE_NONE:
            GGML_ABORT("fatal error");
    }

    return output;
}

int32_t llama_vocab::impl::token_to_piece(llama_token token, char * buf, int32_t length, int32_t lstrip, bool special) const {
    // ref: https://github.com/ggerganov/llama.cpp/pull/7587#discussion_r1620983843
    static const int attr_special = LLAMA_TOKEN_ATTR_UNKNOWN | LLAMA_TOKEN_ATTR_CONTROL;
    const llama_token_attr attr = token_get_attr(token);
    if (!special && (attr & attr_special)) {
        return 0;
    }

    // copy piece chars to output text buffer
    // skip up to 'lstrip' leading spaces before copying
    auto _try_copy = [=] (const char * token, size_t size) -> int32_t {
        for (int32_t i = 0; i < lstrip && size && *token == ' '; ++i) {
            token++;
            size--;
        }
        if (length < (int32_t)size) {
            return -(int32_t) size;
        }
        memcpy(buf, token, size);
        return (int32_t) size;
    };

    // if we have a cache - use it
    {
        const auto & cache = cache_token_to_piece;

        if (!cache.empty()) {
            const auto & result = cache.at(token);
            return _try_copy(result.data(), result.size());
        }
    }

    if (0 <= token && token < (int32_t) id_to_token.size()) {
        const std::string & token_text = id_to_token[token].text;
        switch (get_type()) {
            case LLAMA_VOCAB_TYPE_WPM:
            case LLAMA_VOCAB_TYPE_SPM:
            case LLAMA_VOCAB_TYPE_UGM: {
                // NOTE: we accept all unsupported token types,
                // suppressing them like CONTROL tokens.
                if (attr & (attr_special | LLAMA_TOKEN_ATTR_USER_DEFINED)) {
                    return _try_copy(token_text.data(), token_text.size());
                }
                if (attr & LLAMA_TOKEN_ATTR_NORMAL) {
                    std::string result = token_text;
                    llama_unescape_whitespace(result);
                    return _try_copy(result.data(), result.size());
                }
                if (attr & LLAMA_TOKEN_ATTR_BYTE) {
                    char byte = (char) token_to_byte(token);
                    return _try_copy((char*) &byte, 1);
                }
                break;
            }
            case LLAMA_VOCAB_TYPE_BPE: {
                // NOTE: we accept all unsupported token types,
                // suppressing them like CONTROL tokens.
                if (attr & (attr_special | LLAMA_TOKEN_ATTR_USER_DEFINED)) {
                    return _try_copy(token_text.data(), token_text.size());
                }
                if (attr & LLAMA_TOKEN_ATTR_NORMAL) {
                    std::string result = llama_decode_text(token_text);
                    return _try_copy(result.data(), result.size());
                }
                break;
            }
            case LLAMA_VOCAB_TYPE_RWKV: {
                std::vector result = llama_unescape_rwkv_token(token_text);

                // If we don't have enough space, return an error
                if (result.size() > (size_t)length) {
                    return -(int)result.size();
                }

                memcpy(buf, result.data(), result.size());
                return (int)result.size();
            }
            default:
                GGML_ABORT("fatal error");
        }
    }

    return 0;
}

const std::string & llama_vocab::impl::token_to_piece(llama_token token) const {
    return cache_token_to_piece.at(token);
}

int32_t llama_vocab::impl::detokenize(
               const llama_token * tokens,
                         int32_t   n_tokens,
                            char * text,
                         int32_t   text_len_max,
                            bool   remove_special,
                            bool   unparse_special) const {
    if (type == LLAMA_VOCAB_TYPE_NONE) {
        return 0;
    }

    GGML_ASSERT(tokenizer && "Tokenizer not initialized. Call llama_vocab::init_tokenizer() first.");

    int32_t avail = text_len_max;
    int32_t total = 0;

    // remove the leading space
    bool remove_space = add_space_prefix;

    if (remove_special && add_bos) {
        if (n_tokens > 0 && tokens[0] == special_bos_id) {
            remove_space = false;
            n_tokens--;
            tokens++;
        }
    }

    if (remove_special && add_eos) {
        if (n_tokens > 0 && tokens[n_tokens - 1] == special_eos_id) {
            n_tokens--;
        }
    }

    for (int32_t i = 0; i < n_tokens; ++i) {
        GGML_ASSERT(avail >= 0);
        int32_t n_chars = token_to_piece(tokens[i], text, avail, remove_space, unparse_special);
        remove_space = false;
        if (n_chars < 0) {
            avail = 0;
            total -= n_chars;
        } else if (n_chars > 0) {
            avail -= n_chars;
            text  += n_chars;
            total += n_chars;
        }
    }

    if (total > text_len_max) {
        return -total;
    }

    if (clean_spaces) {
        text -= total;  // restart text

        // first pass: characters ?!.,  //TODO: where do these characters come from?
        const int32_t total1 = total;
        total = total ? 1 : 0;
        for (int32_t i = 1; i < total1; ++i) {
            const char x = text[i];
            if (text[i - 1] == ' ') {
                if (x == '?' || x == '!' || x == '.' || x == ',') {  // " ?", " !", " .", " ,"
                    total--;  // remove space
                }
            }
            text[total++] = x;
        }

        // second pass: strip single apostrophe between spaces
        const int32_t total2 = total;
        total = total ? 1 : 0;
        for (int32_t i = 1; i < total2; ++i) {
            const char x = text[i];
            if (x == '\'' && i + 1 < total2 && text[i - 1] == ' ' && text[i + 1] == ' ') {  // " ' "
                total--;           // remove prev space
                text[++i] = '\0';  // remove next space
            }
            text[total++] = x;
        }

        // third pass: apostrophe contractions  //NOTE: this makes sense?
        const int32_t total3 = total;
        total = total ? 1 : 0;
        for (int32_t i = 1; i < total3; ++i) {
            const char x = text[i];
            if (text[i - 1] == ' ') {
                if (x == '\'' && i + 1 < total3) {
                    const char x1 = text[i + 1];
                    if (x1 == 't' || x1 == 'd') {  // " 't", " 'd"
                        //total--;  // remove space
                    } else if (x1 == 's' || x1 == 'm') {  // " 's", " 'm"
                        total--;  // remove space
                    } else if (i + 2 < total3) {
                        const char x2 = text[i + 2];
                        if ((x1 == 'l' && x2 == 'l')) {  // " 'll"
                            //total--;  // remove space
                        } else if ((x1 == 'r' && x2 == 'e') || (x1 == 'v' && x2 == 'e')) {  // " 're", " 've"
                            total--;  // remove space
                        } else {
                            //total--;  // remove space
                        }
                    } else {
                        //total--;  // remove space
                    }
                }
            }
            text[total++] = x;
        }
    }

    return total <= text_len_max ? total : -total;
}

void llama_vocab::impl::print_info() const {
    LLAMA_LOG_INFO("%s: vocab type       = %s\n",     __func__, type_name().c_str());
    LLAMA_LOG_INFO("%s: n_vocab          = %u\n",     __func__, vocab.n_tokens());
    LLAMA_LOG_INFO("%s: n_merges         = %u\n",     __func__, (uint32_t) bpe_ranks.size());

    // special tokens
    if (special_bos_id  != LLAMA_TOKEN_NULL)    { LLAMA_LOG_INFO( "%s: BOS token        = %d '%s'\n", __func__, special_bos_id,     id_to_token[special_bos_id].text.c_str() );  }
    if (special_eos_id  != LLAMA_TOKEN_NULL)    { LLAMA_LOG_INFO( "%s: EOS token        = %d '%s'\n", __func__, special_eos_id,     id_to_token[special_eos_id].text.c_str() );  }
    if (special_eot_id  != LLAMA_TOKEN_NULL)    { LLAMA_LOG_INFO( "%s: EOT token        = %d '%s'\n", __func__, special_eot_id,     id_to_token[special_eot_id].text.c_str() );  }
    if (special_eom_id  != LLAMA_TOKEN_NULL)    { LLAMA_LOG_INFO( "%s: EOM token        = %d '%s'\n", __func__, special_eom_id,     id_to_token[special_eom_id].text.c_str() );  }
    if (special_unk_id  != LLAMA_TOKEN_NULL)    { LLAMA_LOG_INFO( "%s: UNK token        = %d '%s'\n", __func__, special_unk_id,     id_to_token[special_unk_id].text.c_str() );  }
    if (special_sep_id  != LLAMA_TOKEN_NULL)    { LLAMA_LOG_INFO( "%s: SEP token        = %d '%s'\n", __func__, special_sep_id,     id_to_token[special_sep_id].text.c_str() );  }
    if (special_pad_id  != LLAMA_TOKEN_NULL)    { LLAMA_LOG_INFO( "%s: PAD token        = %d '%s'\n", __func__, special_pad_id,     id_to_token[special_pad_id].text.c_str() );  }
    if (special_mask_id != LLAMA_TOKEN_NULL)    { LLAMA_LOG_INFO( "%s: MASK token       = %d '%s'\n", __func__, special_mask_id,    id_to_token[special_mask_id].text.c_str() ); }

    if (linefeed_id != LLAMA_TOKEN_NULL)        { LLAMA_LOG_INFO( "%s: LF token         = %d '%s'\n", __func__, linefeed_id,        id_to_token[linefeed_id].text.c_str() ); }

    if (special_fim_pre_id != LLAMA_TOKEN_NULL) { LLAMA_LOG_INFO( "%s: FIM PRE token    = %d '%s'\n", __func__, special_fim_pre_id, id_to_token[special_fim_pre_id].text.c_str() ); }
    if (special_fim_suf_id != LLAMA_TOKEN_NULL) { LLAMA_LOG_INFO( "%s: FIM SUF token    = %d '%s'\n", __func__, special_fim_suf_id, id_to_token[special_fim_suf_id].text.c_str() ); }
    if (special_fim_mid_id != LLAMA_TOKEN_NULL) { LLAMA_LOG_INFO( "%s: FIM MID token    = %d '%s'\n", __func__, special_fim_mid_id, id_to_token[special_fim_mid_id].text.c_str() ); }
    if (special_fim_pad_id != LLAMA_TOKEN_NULL) { LLAMA_LOG_INFO( "%s: FIM PAD token    = %d '%s'\n", __func__, special_fim_pad_id, id_to_token[special_fim_pad_id].text.c_str() ); }
    if (special_fim_rep_id != LLAMA_TOKEN_NULL) { LLAMA_LOG_INFO( "%s: FIM REP token    = %d '%s'\n", __func__, special_fim_rep_id, id_to_token[special_fim_rep_id].text.c_str() ); }
    if (special_fim_sep_id != LLAMA_TOKEN_NULL) { LLAMA_LOG_INFO( "%s: FIM SEP token    = %d '%s'\n", __func__, special_fim_sep_id, id_to_token[special_fim_sep_id].text.c_str() ); }

    for (const auto & id : special_eog_ids) {
        LLAMA_LOG_INFO( "%s: EOG token        = %d '%s'\n", __func__, id, id_to_token[id].text.c_str() );
    }

    LLAMA_LOG_INFO("%s: max token length = %d\n", __func__, max_token_len);
}

llama_vocab::llama_vocab() : pimpl(new impl(*this)) {
}

llama_vocab::~llama_vocab() {
}

void llama_vocab::load(llama_model_loader & ml, const LLM_KV & kv) {
    pimpl->load(ml, kv);
}

enum llama_vocab_type llama_vocab::get_type() const {
    return pimpl->type;
}

enum llama_vocab_pre_type llama_vocab::get_pre_type() const {
    return pimpl->pre_type;
}

uint32_t llama_vocab::n_tokens() const {
    return (uint32_t) pimpl->id_to_token.size();
}

uint32_t llama_vocab::n_token_types() const {
    return (uint32_t) pimpl->n_token_types;
}

std::string llama_vocab::type_name() const{
    return pimpl->type_name();
}

bool llama_vocab::is_normal(llama_token id) const {
    return pimpl->is_normal(id);
}

bool llama_vocab::is_unknown(llama_token id) const {
    return pimpl->is_unknown(id);
}

bool llama_vocab::is_control(llama_token id) const {
    return pimpl->is_control(id);
}

bool llama_vocab::is_byte(llama_token id) const {
    return pimpl->is_byte(id);
}

bool llama_vocab::is_user_defined(llama_token id) const {
    return pimpl->is_user_defined(id);
}

bool llama_vocab::is_unused(llama_token id) const {
    return pimpl->is_unused(id);
}

bool llama_vocab::is_eog(llama_token id) const {
    return pimpl->is_eog(id);
}

uint8_t llama_vocab::token_to_byte(llama_token id) const {
    return pimpl->token_to_byte(id);
}

llama_token llama_vocab::byte_to_token(uint8_t ch) const {
    GGML_ASSERT(get_type() != LLAMA_VOCAB_TYPE_NONE);
    static const char * hex = "0123456789ABCDEF";
    switch (get_type()) {
        case LLAMA_VOCAB_TYPE_SPM:
        case LLAMA_VOCAB_TYPE_UGM: {
            const char buf[7] = { '<', '0', 'x', hex[ch >> 4], hex[ch & 15], '>', 0 };
            auto token = pimpl->token_to_id.find(buf);
            if (token != pimpl->token_to_id.end()) {
                return (*token).second;
            }
            // Try to fall back to just the byte as a string
            const char buf2[2] = { (char)ch, 0 };
            return pimpl->token_to_id.at(buf2);
        }
        case LLAMA_VOCAB_TYPE_WPM:
        case LLAMA_VOCAB_TYPE_BPE: {
            return pimpl->token_to_id.at(unicode_byte_to_utf8(ch));
        }
        default:
            GGML_ABORT("fatal error");
    }
}

llama_token llama_vocab::text_to_token(const std::string & text) const {
    GGML_ASSERT(pimpl->type != LLAMA_VOCAB_TYPE_NONE);
    auto it = pimpl->token_to_id.find(text);
    if (it != pimpl->token_to_id.end()) {
        return (*it).second;
    }
    return LLAMA_TOKEN_NULL;
}

const llama_vocab::token_data & llama_vocab::get_token_data(llama_token id) const {
    GGML_ASSERT(pimpl->type != LLAMA_VOCAB_TYPE_NONE);
    return pimpl->id_to_token.at(id);
}

const char * llama_vocab::token_get_text(llama_token id) const {
    GGML_ASSERT(pimpl->type != LLAMA_VOCAB_TYPE_NONE);
    return pimpl->id_to_token.at(id).text.c_str();
}

float llama_vocab::token_get_score(llama_token id) const {
    GGML_ASSERT(pimpl->type != LLAMA_VOCAB_TYPE_NONE);
    return pimpl->id_to_token.at(id).score;
}

llama_token_attr llama_vocab::token_get_attr(llama_token id) const {
    return pimpl->token_get_attr(id);
}

llama_token llama_vocab::token_bos() const {
    return pimpl->special_bos_id;
}

llama_token llama_vocab::token_eos() const {
    return pimpl->special_eos_id;
}

llama_token llama_vocab::token_eot() const {
    return pimpl->special_eot_id;
}

llama_token llama_vocab::token_eom() const {
    return pimpl->special_eom_id;
}

llama_token llama_vocab::token_unk() const {
    return pimpl->special_unk_id;
}

llama_token llama_vocab::token_sep() const {
    return pimpl->special_sep_id;
}

llama_token llama_vocab::token_nl() const {
    return pimpl->linefeed_id;
}

llama_token llama_vocab::token_pad() const {
    return pimpl->special_pad_id;
}

llama_token llama_vocab::token_prefix() const {
    return pimpl->special_fim_pre_id;
}

llama_token llama_vocab::token_middle() const {
    return pimpl->special_fim_mid_id;
}

llama_token llama_vocab::token_suffix() const {
    return pimpl->special_fim_suf_id;
}

llama_token llama_vocab::token_fim_pre() const {
    return pimpl->special_fim_pre_id;
}

llama_token llama_vocab::token_fim_suf() const {
    return pimpl->special_fim_suf_id;
}

llama_token llama_vocab::token_fim_mid() const {
    return pimpl->special_fim_mid_id;
}

llama_token llama_vocab::token_fim_pad() const {
    return pimpl->special_fim_pad_id;
}

llama_token llama_vocab::token_fim_rep() const {
    return pimpl->special_fim_rep_id;
}

llama_token llama_vocab::token_fim_sep() const {
    return pimpl->special_fim_sep_id;
}

bool llama_vocab::get_add_space_prefix() const {
    return pimpl->add_space_prefix;
}

bool llama_vocab::get_add_bos() const {
    return pimpl->add_bos;
}

bool llama_vocab::get_add_eos() const {
    return pimpl->add_eos;
}

bool llama_vocab::get_ignore_merges() const {
    return pimpl->ignore_merges;
}

bool llama_vocab::get_clean_spaces() const {
    return pimpl->clean_spaces;
}

bool llama_vocab::get_remove_extra_whitespaces() const {
    return pimpl->remove_extra_whitespaces;
}

bool llama_vocab::get_escape_whitespaces() const {
    return pimpl->escape_whitespaces;
}

bool llama_vocab::get_treat_whitespace_as_suffix() const {
    return pimpl->treat_whitespace_as_suffix;
}

int llama_vocab::max_token_len() const {
    return pimpl->max_token_len;
}

int llama_vocab::find_bpe_rank(const std::string & token_left, const std::string & token_right) const {
    GGML_ASSERT(token_left.find(' ')   == std::string::npos);
    GGML_ASSERT(token_left.find('\n')  == std::string::npos);
    GGML_ASSERT(token_right.find(' ')  == std::string::npos);
    GGML_ASSERT(token_right.find('\n') == std::string::npos);

    auto it = pimpl->bpe_ranks.find(std::make_pair(token_left, token_right));
    if (it == pimpl->bpe_ranks.end()) {
        return -1;
    }

    return it->second;
}

int32_t llama_vocab::tokenize(
                  const char * text,
                     int32_t   text_len,
                 llama_token * tokens,
                     int32_t   n_tokens_max,
                        bool   add_special,
                        bool   parse_special) const {
    auto res = tokenize(std::string(text, text_len), add_special, parse_special);
    if (n_tokens_max < (int) res.size()) {
        // LLAMA_LOG_ERROR("%s: too many tokens\n", __func__);
        return -((int) res.size());
    }

    for (size_t i = 0; i < res.size(); i++) {
        tokens[i] = res[i];
    }

    return res.size();
}

std::vector llama_vocab::tokenize(
        const std::string & raw_text,
        bool add_special,
        bool parse_special) const {
    return pimpl->tokenize(raw_text, add_special, parse_special);
}

const std::string & llama_vocab::token_to_piece(llama_token token) const {
    return pimpl->token_to_piece(token);
}

int32_t llama_vocab::token_to_piece(llama_token token, char * buf, int32_t length, int32_t lstrip, bool special) const {
    return pimpl->token_to_piece(token, buf, length, lstrip, special);
}

int32_t llama_vocab::detokenize(
               const llama_token * tokens,
                         int32_t   n_tokens,
                            char * text,
                         int32_t   text_len_max,
                            bool   remove_special,
                            bool   unparse_special) const {
    return pimpl->detokenize(tokens, n_tokens, text, text_len_max, remove_special, unparse_special);
}

std::string llama_vocab::detokenize(const std::vector & tokens, bool special) const {
    std::string text;
    text.resize(std::max(text.capacity(), tokens.size()));
    int32_t n_chars = detokenize(tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
    if (n_chars < 0) {
        text.resize(-n_chars);
        n_chars = detokenize(tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
        GGML_ASSERT(n_chars <= (int32_t)text.size());  // whitespace trimming is performed after per-token detokenization
    }

    text.resize(n_chars);

    // NOTE: the original tokenizer decodes bytes after collecting the pieces.
    return text;
}

void llama_vocab::print_info() const {
    pimpl->print_info();
}

//
// interface implementation
//

int32_t llama_vocab_n_tokens(const struct llama_vocab * vocab) {
    return vocab->n_tokens();
}

// deprecated
int32_t llama_n_vocab(const struct llama_vocab * vocab) {
    return llama_vocab_n_tokens(vocab);
}

enum llama_vocab_type llama_vocab_type(const struct llama_vocab * vocab) {
    return vocab->get_type();
}

const char * llama_vocab_get_text(const struct llama_vocab * vocab, llama_token token) {
    return vocab->token_get_text(token);
}

float llama_vocab_get_score(const struct llama_vocab * vocab, llama_token token) {
    return vocab->token_get_score(token);
}

enum llama_token_attr llama_vocab_get_attr(const struct llama_vocab * vocab, llama_token token) {
    return vocab->token_get_attr(token);
}

bool llama_vocab_is_eog(const struct llama_vocab * vocab, llama_token token) {
    return vocab->is_eog(token);
}

bool llama_vocab_is_control(const struct llama_vocab * vocab, llama_token token) {
    return vocab->is_control(token);
}

llama_token llama_vocab_bos(const struct llama_vocab * vocab) {
    return vocab->token_bos();
}

llama_token llama_vocab_eos(const struct llama_vocab * vocab) {
    return vocab->token_eos();
}

llama_token llama_vocab_eot(const struct llama_vocab * vocab) {
    return vocab->token_eot();
}

// deprecated
llama_token llama_vocab_cls(const struct llama_vocab * vocab) {
    return vocab->token_bos();
}

llama_token llama_vocab_sep(const struct llama_vocab * vocab) {
    return vocab->token_sep();
}

llama_token llama_vocab_nl (const struct llama_vocab * vocab) {
    return vocab->token_nl();
}

llama_token llama_vocab_pad(const struct llama_vocab * vocab) {
    return vocab->token_pad();
}

bool llama_vocab_get_add_bos(const struct llama_vocab * vocab) {
    return vocab->get_add_bos();
}

bool llama_vocab_get_add_eos(const struct llama_vocab * vocab) {
    return vocab->get_add_eos();
}

llama_token llama_vocab_fim_pre(const struct llama_vocab * vocab) {
    return vocab->token_fim_pre();
}

llama_token llama_vocab_fim_suf(const struct llama_vocab * vocab) {
    return vocab->token_fim_suf();
}

llama_token llama_vocab_fim_mid(const struct llama_vocab * vocab) {
    return vocab->token_fim_mid();
}

llama_token llama_vocab_fim_pad(const struct llama_vocab * vocab) {
    return vocab->token_fim_pad();
}

llama_token llama_vocab_fim_rep(const struct llama_vocab * vocab) {
    return vocab->token_fim_rep();
}

llama_token llama_vocab_fim_sep(const struct llama_vocab * vocab) {
    return vocab->token_fim_sep();
}

// deprecated
const char * llama_token_get_text(const struct llama_vocab * vocab, llama_token token) {
    return llama_vocab_get_text(vocab, token);
}

// deprecated
float llama_token_get_score(const struct llama_vocab * vocab, llama_token token) {
    return llama_vocab_get_score(vocab, token);
}

// deprecated
enum llama_token_attr llama_token_get_attr(const struct llama_vocab * vocab, llama_token token) {
    return llama_vocab_get_attr(vocab, token);
}

// deprecated
bool llama_token_is_eog(const struct llama_vocab * vocab, llama_token token) {
    return llama_vocab_is_eog(vocab, token);
}

// deprecated
bool llama_token_is_control(const struct llama_vocab * vocab, llama_token token) {
    return llama_vocab_is_control(vocab, token);
}

// deprecated
llama_token llama_token_bos(const struct llama_vocab * vocab) {
    return llama_vocab_bos(vocab);
}

// deprecated
llama_token llama_token_eos(const struct llama_vocab * vocab) {
    return llama_vocab_eos(vocab);
}

// deprecated
llama_token llama_token_eot(const struct llama_vocab * vocab) {
    return llama_vocab_eot(vocab);
}

// deprecated
llama_token llama_token_cls(const struct llama_vocab * vocab) {
    //return llama_vocab_cls(vocab);
    return llama_vocab_bos(vocab); // avoid deprecation warning
}

// deprecated
llama_token llama_token_sep(const struct llama_vocab * vocab) {
    return llama_vocab_sep(vocab);
}

// deprecated
llama_token llama_token_nl (const struct llama_vocab * vocab) {
    return llama_vocab_nl(vocab);
}

// deprecated
llama_token llama_token_pad(const struct llama_vocab * vocab) {
    return llama_vocab_pad(vocab);
}

// deprecated
bool llama_add_bos_token(const struct llama_vocab * vocab) {
    return llama_vocab_get_add_bos(vocab);
}

// deprecated
bool llama_add_eos_token(const struct llama_vocab * vocab) {
    return llama_vocab_get_add_eos(vocab);
}

// deprecated
llama_token llama_token_fim_pre(const struct llama_vocab * vocab) {
    return llama_vocab_fim_pre(vocab);
}

// deprecated
llama_token llama_token_fim_suf(const struct llama_vocab * vocab) {
    return llama_vocab_fim_suf(vocab);
}

// deprecated
llama_token llama_token_fim_mid(const struct llama_vocab * vocab) {
    return llama_vocab_fim_mid(vocab);
}

// deprecated
llama_token llama_token_fim_pad(const struct llama_vocab * vocab) {
    return llama_vocab_fim_pad(vocab);
}

// deprecated
llama_token llama_token_fim_rep(const struct llama_vocab * vocab) {
    return llama_vocab_fim_rep(vocab);
}

// deprecated
llama_token llama_token_fim_sep(const struct llama_vocab * vocab) {
    return llama_vocab_fim_sep(vocab);
}

//
// tokenization
//

int32_t llama_tokenize(
    const struct llama_vocab * vocab,
                  const char * text,
                     int32_t   text_len,
                 llama_token * tokens,
                     int32_t   n_tokens_max,
                        bool   add_special,
                        bool   parse_special) {
    return vocab->tokenize(text, text_len, tokens, n_tokens_max, add_special, parse_special);
}

int32_t llama_token_to_piece(
    const struct llama_vocab * vocab,
                 llama_token   token,
                        char * buf,
                     int32_t   length,
                     int32_t   lstrip,
                        bool   special) {
    return vocab->token_to_piece(token, buf, length, lstrip, special);
}

int32_t llama_detokenize(
    const struct llama_vocab * vocab,
           const llama_token * tokens,
                     int32_t   n_tokens,
                        char * text,
                     int32_t   text_len_max,
                        bool   remove_special,
                        bool   unparse_special) {
    return vocab->detokenize(tokens, n_tokens, text, text_len_max, remove_special, unparse_special);
}