mirror of
https://github.com/ggerganov/llama.cpp.git
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1442677f92
* common : gpt_params_parse do not print usage * common : rework usage print (wip) * common : valign * common : rework print_usage * infill : remove cfg support * common : reorder args * server : deduplicate parameters ggml-ci * common : add missing header ggml-ci * common : remote --random-prompt usages ggml-ci * examples : migrate to gpt_params ggml-ci * batched-bench : migrate to gpt_params * retrieval : migrate to gpt_params * common : change defaults for escape and n_ctx * common : remove chatml and instruct params ggml-ci * common : passkey use gpt_params
283 lines
8.7 KiB
C++
283 lines
8.7 KiB
C++
#include "common.h"
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#include "llama.h"
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#include <cmath>
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#include <cstdio>
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#include <string>
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#include <vector>
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static void print_usage(int argc, char ** argv, const gpt_params & params) {
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gpt_params_print_usage(argc, argv, params);
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LOG_TEE("\nexample usage:\n");
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LOG_TEE("\n %s -m model.gguf --junk 250 --pos 90 --keep 32 --grp-attn-n 2 [--seed 1234]\n", argv[0]);
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LOG_TEE("\n");
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}
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int main(int argc, char ** argv) {
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gpt_params params;
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params.n_junk = 250;
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params.n_keep = 32;
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params.i_pos = -1;
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if (!gpt_params_parse(argc, argv, params)) {
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print_usage(argc, argv, params);
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return 1;
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}
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srand(params.seed == LLAMA_DEFAULT_SEED ? time(NULL) : params.seed);
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int n_junk = params.n_junk;
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int n_keep = params.n_keep;
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int n_grp = params.grp_attn_n;
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int i_pos = params.i_pos;
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if (i_pos == -1) {
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i_pos = rand() % n_junk;
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}
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const std::string prompt_prefix = "There is an important info hidden inside a lot of irrelevant text. Find it and memorize them. I will quiz you about the important information there.";
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const std::string prompt_suffix = " What is the pass key? The pass key is";
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// generate junk text
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params.prompt = prompt_prefix;
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const int passkey = rand() % 50000 + 1;
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for (int i = 0; i < n_junk; i++) {
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if (i % n_junk == i_pos) {
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params.prompt += " The pass key is " + std::to_string(passkey) + ". Remember it. " + std::to_string(passkey) + " is the pass key.";
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}
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params.prompt += " The grass is green. The sky is blue. The sun is yellow. Here we go. There and back again.";
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}
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params.prompt += prompt_suffix;
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// init LLM
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llama_backend_init();
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llama_numa_init(params.numa);
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// initialize the model
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llama_model_params model_params = llama_model_params_from_gpt_params(params);
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llama_model * model = llama_load_model_from_file(params.model.c_str(), model_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 1;
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}
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// initialize the context
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llama_context_params ctx_params = llama_context_params_from_gpt_params(params);
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ctx_params.n_ctx = llama_n_ctx_train(model)*n_grp + n_keep;
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GGML_ASSERT(ctx_params.n_batch % n_grp == 0 && "n_batch must be divisible by n_grp");
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llama_context * ctx = llama_new_context_with_model(model, ctx_params);
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if (ctx == NULL) {
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fprintf(stderr , "%s: error: failed to create the llama_context\n" , __func__);
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return 1;
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}
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// tokenize the prompt
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std::vector<llama_token> tokens_list;
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tokens_list = ::llama_tokenize(ctx, params.prompt, true);
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// tokenize the prefix and use it as a sink
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const int n_tokens_prefix = ::llama_tokenize(ctx, prompt_prefix, true).size();
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const int n_tokens_all = tokens_list.size();
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// we leave a margin of 16 tokens for the generated text - it should contain just the passkey
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const int n_predict = 16;
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// total length of the sequences including the prompt
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const int n_len = n_tokens_all + n_predict;
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const int n_ctx = llama_n_ctx(ctx) - n_keep;
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const int n_kv_req = llama_n_ctx(ctx);
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const int n_batch = ctx_params.n_batch;
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const int n_batch_grp = ctx_params.n_batch/n_grp;
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LOG_TEE("\n%s: n_len = %d, n_ctx = %d, n_kv_req = %d, n_grp = %d, n_batch = %d, n_junk = %d, i_pos = %d\n", __func__, n_len, n_ctx, n_kv_req, n_grp, n_batch, n_junk, i_pos);
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// print the prompt token-by-token
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LOG_TEE("\n");
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LOG_TEE("prefix tokens: %d\n", n_tokens_prefix);
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LOG_TEE("prompt tokens: %d\n", n_tokens_all);
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//LOG_TEE("prompt: %s\n", params.prompt.c_str());
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llama_batch batch = llama_batch_init(params.n_batch, 0, 1);
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int n_past = 0;
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// fill the KV cache
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for (int i = 0; i < n_ctx; i += n_batch) {
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if (i > 0 && n_grp > 1) {
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// if SelfExtend is enabled, we compress the position from the last batch by a factor of n_grp
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const int ib = i/n_batch - 1;
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const int bd = n_batch_grp*(n_grp - 1);
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llama_kv_cache_seq_add (ctx, 0, n_past - n_batch, n_past, ib*bd);
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llama_kv_cache_seq_div (ctx, 0, n_past - n_batch + ib*bd, n_past + ib*bd, n_grp);
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llama_kv_cache_update (ctx);
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n_past = llama_kv_cache_seq_pos_max(ctx, 0) + 1;
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}
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llama_batch_clear(batch);
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for (int j = 0; j < n_batch && i + j < n_tokens_all; j++) {
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llama_batch_add(batch, tokens_list[i + j], n_past++, { 0 }, false);
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}
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if (i + n_batch >= n_tokens_all) {
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batch.logits[batch.n_tokens - 1] = true;
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}
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if (llama_decode(ctx, batch) != 0) {
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LOG_TEE("%s: llama_decode() failed\n", __func__);
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return 1;
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}
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LOG_TEE("%s: processed: [%6d, %6d)\n", __func__, i, std::min(i + n_batch, n_tokens_all));
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if (i + n_batch >= n_tokens_all) {
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break;
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}
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}
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for (int i = n_ctx; i < n_tokens_all; i += n_batch) {
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const int n_discard = n_batch;
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LOG_TEE("%s: shifting KV cache with %d\n", __func__, n_discard);
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llama_kv_cache_seq_rm (ctx, 0, n_keep , n_keep + n_discard);
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llama_kv_cache_seq_add(ctx, 0, n_keep + n_discard, n_ctx, -n_discard);
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//llama_kv_cache_defrag (ctx);
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llama_kv_cache_update (ctx);
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n_past = llama_kv_cache_seq_pos_max(ctx, 0) + 1;
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llama_batch_clear(batch);
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for (int j = 0; j < n_batch && i + j < n_tokens_all; j++) {
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llama_batch_add(batch, tokens_list[i + j], n_past++, { 0 }, false);
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}
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if (i + n_batch >= n_tokens_all) {
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batch.logits[batch.n_tokens - 1] = true;
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}
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if (llama_decode(ctx, batch) != 0) {
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LOG_TEE("%s: llama_decode() failed\n", __func__);
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return 1;
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}
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LOG_TEE("%s: processed: [%6d, %6d)\n", __func__, i, std::min(i + n_batch, n_tokens_all));
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}
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{
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const int n_discard = n_past - n_ctx + n_predict;
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if (n_discard > 0) {
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LOG_TEE("%s: shifting KV cache with %d to free space for the answer\n", __func__, n_discard);
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llama_kv_cache_seq_rm (ctx, 0, n_keep , n_keep + n_discard);
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llama_kv_cache_seq_add(ctx, 0, n_keep + n_discard, n_ctx, -n_discard);
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//llama_kv_cache_defrag (ctx);
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llama_kv_cache_update (ctx);
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n_past = llama_kv_cache_seq_pos_max(ctx, 0) + 1;
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}
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}
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LOG_TEE("\n");
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LOG_TEE("%s: passkey = %d, inserted at position %d / %d (token pos: ~%d)\n", __func__, passkey, i_pos, n_junk, (i_pos * n_tokens_all) / n_junk);
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LOG_TEE("\n");
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// main loop
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int n_cur = n_tokens_all;
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int n_decode = 0;
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LOG_TEE("%s", prompt_suffix.c_str());
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fflush(stdout);
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const auto t_main_start = ggml_time_us();
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while (n_cur <= n_len) {
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// sample the next token
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{
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auto n_vocab = llama_n_vocab(model);
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auto * logits = llama_get_logits_ith(ctx, batch.n_tokens - 1);
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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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// sample the most likely token
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const llama_token new_token_id = llama_sample_token_greedy(ctx, &candidates_p);
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// is it an end of generation?
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if (llama_token_is_eog(model, new_token_id) || n_cur == n_len) {
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LOG_TEE("\n");
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break;
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}
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LOG_TEE("%s", llama_token_to_piece(ctx, new_token_id).c_str());
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fflush(stdout);
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n_decode += 1;
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// prepare the next batch
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llama_batch_clear(batch);
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// push this new token for next evaluation
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llama_batch_add(batch, new_token_id, n_past++, { 0 }, true);
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}
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n_cur += 1;
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// evaluate the current batch with the transformer model
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if (llama_decode(ctx, batch)) {
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fprintf(stderr, "%s : failed to eval, return code %d\n", __func__, 1);
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return 1;
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}
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}
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LOG_TEE("\n");
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const auto t_main_end = ggml_time_us();
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LOG_TEE("%s: decoded %d tokens in %.2f s, speed: %.2f t/s\n",
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__func__, n_decode, (t_main_end - t_main_start) / 1000000.0f, n_decode / ((t_main_end - t_main_start) / 1000000.0f));
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llama_print_timings(ctx);
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fprintf(stderr, "\n");
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llama_batch_free(batch);
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llama_free(ctx);
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llama_free_model(model);
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llama_backend_free();
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return 0;
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}
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