mirror of
https://github.com/ggerganov/llama.cpp.git
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edd4c14817
* tests : write a Python tokenizer test (wip) * llama : prefix input text for tokenization with whitespace * llama : distinguish pieces from decoded text + fix detokenization * common : add comments * examples : no longer manually add leading space when tokenizing * tests : use Python to generate tokenizer tests for C++ * tests : add option to tokenize text files ggml-ci * tests : add test-tokenizer-1.py * llama.cpp : fix LF token * hellaswag : move the concat space for clarity * tests : add falcon tests (py + cpp, currently do not pass Unicode) ggml-ci * common : temporary separate llama_detokenize calls for SPM and BPE --------- Co-authored-by: klosax <131523366+klosax@users.noreply.github.com>
224 lines
7.3 KiB
C++
224 lines
7.3 KiB
C++
// Defines sigaction on msys:
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#ifndef _GNU_SOURCE
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#define _GNU_SOURCE
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#endif
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#include "embd-input.h"
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#include <cassert>
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#include <cinttypes>
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#include <cmath>
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#include <cstdio>
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#include <cstring>
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#include <ctime>
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#include <fstream>
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#include <iostream>
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#include <string>
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#include <vector>
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static llama_context ** g_ctx;
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extern "C" {
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struct MyModel* create_mymodel(int argc, char ** argv) {
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gpt_params params;
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if (gpt_params_parse(argc, argv, params) == false) {
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return nullptr;
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}
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fprintf(stderr, "%s: build = %d (%s)\n", __func__, BUILD_NUMBER, BUILD_COMMIT);
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if (params.seed == LLAMA_DEFAULT_SEED) {
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params.seed = uint32_t(time(NULL));
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}
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fprintf(stderr, "%s: seed = %d\n", __func__, params.seed);
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llama_backend_init(params.numa);
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llama_model * model;
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llama_context * ctx;
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g_ctx = &ctx;
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// load the model and apply lora adapter, if any
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std::tie(model, ctx) = llama_init_from_gpt_params(params);
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if (model == NULL) {
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fprintf(stderr, "%s: error: unable to load model\n", __func__);
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return nullptr;
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}
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// print system information
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{
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fprintf(stderr, "\n");
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fprintf(stderr, "system_info: n_threads = %d / %d | %s\n",
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params.n_threads, std::thread::hardware_concurrency(), llama_print_system_info());
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}
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struct MyModel * ret = new MyModel();
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ret->ctx = ctx;
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ret->params = params;
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ret->n_past = 0;
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// printf("ctx: %d\n", ret->ctx);
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return ret;
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}
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void free_mymodel(struct MyModel * mymodel) {
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llama_context * ctx = mymodel->ctx;
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llama_print_timings(ctx);
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llama_free(ctx);
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delete mymodel;
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}
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bool eval_float(void * model, float * input, int N){
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MyModel * mymodel = (MyModel*)model;
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llama_context * ctx = mymodel->ctx;
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gpt_params params = mymodel->params;
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int n_emb = llama_n_embd(ctx);
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int n_past = mymodel->n_past;
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int n_batch = N; // params.n_batch;
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for (int i = 0; i < (int) N; i += n_batch) {
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int n_eval = (int) N - i;
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if (n_eval > n_batch) {
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n_eval = n_batch;
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}
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if (llama_eval_embd(ctx, (input+i*n_emb), n_eval, n_past, params.n_threads)) {
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fprintf(stderr, "%s : failed to eval\n", __func__);
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return false;
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}
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n_past += n_eval;
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}
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mymodel->n_past = n_past;
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return true;
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}
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bool eval_tokens(void * model, std::vector<llama_token> tokens) {
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MyModel * mymodel = (MyModel* )model;
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llama_context * ctx;
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ctx = mymodel->ctx;
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gpt_params params = mymodel->params;
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int n_past = mymodel->n_past;
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for (int i = 0; i < (int) tokens.size(); i += params.n_batch) {
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int n_eval = (int) tokens.size() - i;
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if (n_eval > params.n_batch) {
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n_eval = params.n_batch;
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}
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if (llama_eval(ctx, &tokens[i], n_eval, n_past, params.n_threads)) {
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fprintf(stderr, "%s : failed to eval\n", __func__);
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return false;
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}
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n_past += n_eval;
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}
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mymodel->n_past = n_past;
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return true;
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}
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bool eval_id(struct MyModel* mymodel, int id) {
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std::vector<llama_token> tokens;
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tokens.push_back(id);
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return eval_tokens(mymodel, tokens);
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}
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bool eval_string(struct MyModel * mymodel,const char* str){
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llama_context * ctx = mymodel->ctx;
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std::string str2 = str;
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std::vector<llama_token> embd_inp = ::llama_tokenize(ctx, str2, true);
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eval_tokens(mymodel, embd_inp);
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return true;
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}
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llama_token sampling_id(struct MyModel* mymodel) {
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llama_context* ctx = mymodel->ctx;
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gpt_params params = mymodel->params;
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// int n_ctx = llama_n_ctx(ctx);
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// out of user input, sample next token
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const float temp = params.temp;
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const int32_t top_k = params.top_k <= 0 ? llama_n_vocab(ctx) : params.top_k;
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const float top_p = params.top_p;
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const float tfs_z = params.tfs_z;
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const float typical_p = params.typical_p;
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// const int32_t repeat_last_n = params.repeat_last_n < 0 ? n_ctx : params.repeat_last_n;
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// const float repeat_penalty = params.repeat_penalty;
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// const float alpha_presence = params.presence_penalty;
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// const float alpha_frequency = params.frequency_penalty;
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const int mirostat = params.mirostat;
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const float mirostat_tau = params.mirostat_tau;
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const float mirostat_eta = params.mirostat_eta;
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// const bool penalize_nl = params.penalize_nl;
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llama_token id = 0;
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{
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auto logits = llama_get_logits(ctx);
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auto n_vocab = llama_n_vocab(ctx);
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// Apply params.logit_bias map
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for (auto it = params.logit_bias.begin(); it != params.logit_bias.end(); it++) {
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logits[it->first] += it->second;
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}
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std::vector<llama_token_data> candidates;
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candidates.reserve(n_vocab);
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for (llama_token token_id = 0; token_id < n_vocab; token_id++) {
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candidates.emplace_back(llama_token_data{token_id, logits[token_id], 0.0f});
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}
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llama_token_data_array candidates_p = { candidates.data(), candidates.size(), false };
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// TODO: Apply penalties
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// float nl_logit = logits[llama_token_nl(ctx)];
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// auto last_n_repeat = std::min(std::min((int)last_n_tokens.size(), repeat_last_n), n_ctx);
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// llama_sample_repetition_penalty(ctx, &candidates_p,
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// last_n_tokens.data() + last_n_tokens.size() - last_n_repeat,
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// last_n_repeat, repeat_penalty);
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// llama_sample_frequency_and_presence_penalties(ctx, &candidates_p,
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// last_n_tokens.data() + last_n_tokens.size() - last_n_repeat,
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// last_n_repeat, alpha_frequency, alpha_presence);
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// if (!penalize_nl) {
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// logits[llama_token_nl(ctx)] = nl_logit;
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// }
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if (temp <= 0) {
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// Greedy sampling
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id = llama_sample_token_greedy(ctx, &candidates_p);
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} else {
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if (mirostat == 1) {
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static float mirostat_mu = 2.0f * mirostat_tau;
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const int mirostat_m = 100;
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llama_sample_temperature(ctx, &candidates_p, temp);
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id = llama_sample_token_mirostat(ctx, &candidates_p, mirostat_tau, mirostat_eta, mirostat_m, &mirostat_mu);
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} else if (mirostat == 2) {
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static float mirostat_mu = 2.0f * mirostat_tau;
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llama_sample_temperature(ctx, &candidates_p, temp);
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id = llama_sample_token_mirostat_v2(ctx, &candidates_p, mirostat_tau, mirostat_eta, &mirostat_mu);
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} else {
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// Temperature sampling
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llama_sample_top_k(ctx, &candidates_p, top_k, 1);
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llama_sample_tail_free(ctx, &candidates_p, tfs_z, 1);
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llama_sample_typical(ctx, &candidates_p, typical_p, 1);
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llama_sample_top_p(ctx, &candidates_p, top_p, 1);
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llama_sample_temperature(ctx, &candidates_p, temp);
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id = llama_sample_token(ctx, &candidates_p);
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}
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}
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}
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return id;
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}
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const char * sampling(struct MyModel * mymodel) {
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llama_context * ctx = mymodel->ctx;
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int id = sampling_id(mymodel);
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static std::string ret;
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if (id == llama_token_eos(ctx)) {
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ret = "</s>";
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} else {
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ret = llama_token_to_piece(ctx, id);
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}
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eval_id(mymodel, id);
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return ret.c_str();
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}
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}
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