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https://github.com/ggerganov/llama.cpp.git
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cb6c44c5e0
* Do not use _GNU_SOURCE gratuitously. What is needed to build llama.cpp and examples is availability of stuff defined in The Open Group Base Specifications Issue 6 (https://pubs.opengroup.org/onlinepubs/009695399/) known also as Single Unix Specification v3 (SUSv3) or POSIX.1-2001 + XSI extensions, plus some stuff from BSD that is not specified in POSIX.1. Well, that was true until NUMA support was added recently, so enable GNU libc extensions for Linux builds to cover that. Not having feature test macros in source code gives greater flexibility to those wanting to reuse it in 3rd party app, as they can build it with FTMs set by Makefile here or other FTMs depending on their needs. It builds without issues in Alpine (musl libc), Ubuntu (glibc), MSYS2. * make : enable Darwin extensions for macOS to expose RLIMIT_MEMLOCK * make : enable BSD extensions for DragonFlyBSD to expose RLIMIT_MEMLOCK * make : use BSD-specific FTMs to enable alloca on BSDs * make : fix OpenBSD build by exposing newer POSIX definitions * cmake : follow recent FTM improvements from Makefile
219 lines
7.2 KiB
C++
219 lines
7.2 KiB
C++
#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)) {
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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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