mirror of
https://github.com/ggerganov/llama.cpp.git
synced 2024-12-27 20:04:35 +00:00
55e47786e3
* llama : deprecate softmax sampler + fix dist sampler ggml-ci * tests : replace macros with functions ggml-ci * sampling : change temperature sampler logic For t <= 0.0f, keep the max logit intact and set the rest to -inf * cont : no need for special "greedy" logic top-k == 1 is the same * tests : init prob correctly * llama : handle temp <= 0.0 in the temp_ext sampler too ggml-ci * cont : avoid extra loop in temperature sampler for sub-zero temp ggml-ci
268 lines
8.1 KiB
C++
268 lines
8.1 KiB
C++
#include "arg.h"
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#include "common.h"
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#include "llama.h"
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#include <vector>
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#include <cstdio>
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int main(int argc, char ** argv) {
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common_params params;
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params.prompt = "The quick brown fox";
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params.sparams.seed = 1234;
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if (!common_params_parse(argc, argv, params, LLAMA_EXAMPLE_COMMON)) {
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return 1;
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}
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print_build_info();
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if (params.n_predict < 0) {
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params.n_predict = 16;
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}
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auto n_past = 0;
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std::string result0;
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std::string result1;
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std::string result2;
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// init
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common_init_result llama_init = common_init_from_params(params);
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llama_model * model = llama_init.model;
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llama_context * ctx = llama_init.context;
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if (model == nullptr || ctx == nullptr) {
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fprintf(stderr, "%s : failed to init\n", __func__);
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return 1;
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}
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auto sparams = llama_sampler_chain_default_params();
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llama_sampler * smpl = llama_sampler_chain_init(sparams);
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llama_sampler_chain_add(smpl, llama_sampler_init_dist(params.sparams.seed));
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// tokenize prompt
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auto tokens = common_tokenize(ctx, params.prompt, true);
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// prepare the batch
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llama_batch batch = llama_batch_init(tokens.size(), 0, 1);
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for (size_t i = 0; i < tokens.size(); i++) {
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common_batch_add(batch, tokens[i], i, {0}, false);
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}
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batch.logits[batch.n_tokens - 1] = true; // generate next token
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// evaluate prompt
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llama_decode(ctx, batch);
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n_past += batch.n_tokens;
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// save state (rng, logits, embedding and kv_cache) to file
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{
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std::vector<uint8_t> state_mem(llama_state_get_size(ctx));
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const size_t written = llama_state_get_data(ctx, state_mem.data(), state_mem.size());
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FILE *fp_write = fopen("dump_state.bin", "wb");
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fwrite(state_mem.data(), 1, written, fp_write);
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fclose(fp_write);
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fprintf(stderr, "%s : serialized state into %zd out of a maximum of %zd bytes\n", __func__, written, state_mem.size());
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}
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// save state (last tokens)
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const auto n_past_saved = n_past;
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// first run
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printf("\nfirst run: %s", params.prompt.c_str());
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for (auto i = 0; i < params.n_predict; i++) {
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auto next_token = llama_sampler_sample(smpl, ctx, -1);
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auto next_token_str = common_token_to_piece(ctx, next_token);
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printf("%s", next_token_str.c_str());
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result0 += next_token_str;
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common_batch_clear(batch);
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common_batch_add(batch, next_token, n_past, {0}, true);
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if (llama_decode(ctx, batch)) {
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fprintf(stderr, "\n%s : failed to evaluate\n", __func__);
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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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return 1;
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}
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n_past += 1;
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}
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printf("\n\n");
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// free old context
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llama_free(ctx);
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// make new context
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auto * ctx2 = llama_new_context_with_model(model, common_context_params_to_llama(params));
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llama_sampler * smpl2 = llama_sampler_chain_init(sparams);
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llama_sampler_chain_add(smpl2, llama_sampler_init_dist(params.sparams.seed));
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printf("\nsecond run: %s", params.prompt.c_str());
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// load state (rng, logits, embedding and kv_cache) from file
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{
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std::vector<uint8_t> state_mem;
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FILE * fp_read = fopen("dump_state.bin", "rb");
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fseek(fp_read, 0, SEEK_END);
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state_mem.resize(ftell(fp_read));
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fseek(fp_read, 0, SEEK_SET);
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const size_t read = fread(state_mem.data(), 1, state_mem.size(), fp_read);
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fclose(fp_read);
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if (read != llama_state_set_data(ctx2, state_mem.data(), state_mem.size())) {
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fprintf(stderr, "\n%s : failed to read state\n", __func__);
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llama_free(ctx2);
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llama_free_model(model);
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return 1;
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}
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fprintf(stderr, "%s : deserialized state from %zd out of a maximum of %zd bytes\n", __func__, read, state_mem.size());
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}
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// restore state (last tokens)
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n_past = n_past_saved;
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// second run
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for (auto i = 0; i < params.n_predict; i++) {
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auto next_token = llama_sampler_sample(smpl2, ctx2, -1);
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auto next_token_str = common_token_to_piece(ctx2, next_token);
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printf("%s", next_token_str.c_str());
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result1 += next_token_str;
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common_batch_clear(batch);
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common_batch_add(batch, next_token, n_past, {0}, true);
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if (llama_decode(ctx2, batch)) {
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fprintf(stderr, "\n%s : failed to evaluate\n", __func__);
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llama_batch_free(batch);
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llama_free(ctx2);
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llama_free_model(model);
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return 1;
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}
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n_past += 1;
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}
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printf("\n\n");
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llama_free(ctx2);
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if (result0 != result1) {
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fprintf(stderr, "\n%s : error : the 2 generations are different\n", __func__);
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return 1;
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}
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// make new context
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auto * ctx3 = llama_new_context_with_model(model, common_context_params_to_llama(params));
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llama_sampler * smpl3 = llama_sampler_chain_init(sparams);
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llama_sampler_chain_add(smpl3, llama_sampler_init_dist(params.sparams.seed));
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printf("\nsingle seq run: %s", params.prompt.c_str());
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// load state (rng, logits, embedding and kv_cache) from file
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{
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std::vector<uint8_t> state_mem;
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FILE * fp_read = fopen("dump_state.bin", "rb");
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fseek(fp_read, 0, SEEK_END);
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state_mem.resize(ftell(fp_read));
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fseek(fp_read, 0, SEEK_SET);
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const size_t read = fread(state_mem.data(), 1, state_mem.size(), fp_read);
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fclose(fp_read);
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if (read != llama_state_set_data(ctx3, state_mem.data(), state_mem.size())) {
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fprintf(stderr, "\n%s : failed to read state\n", __func__);
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llama_free(ctx3);
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llama_free_model(model);
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return 1;
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}
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fprintf(stderr, "%s : deserialized state from %zd out of a maximum of %zd bytes\n", __func__, read, state_mem.size());
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}
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// restore state (last tokens)
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n_past = n_past_saved;
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// save seq 0 and load into seq 1
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{
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// save kv of seq 0
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std::vector<uint8_t> seq_store(llama_state_seq_get_size(ctx3, 0));
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const size_t ncopy = llama_state_seq_get_data(ctx3, seq_store.data(), seq_store.size(), 0);
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if (ncopy != seq_store.size()) {
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fprintf(stderr, "\n%s : seq copy data length %zd does not match expected length %zd\n", __func__, ncopy, seq_store.size());
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llama_free(ctx3);
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llama_free_model(model);
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return 1;
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}
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fprintf(stderr, "%s : seq 0 copied, %zd bytes\n", __func__, ncopy);
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// erase whole kv
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llama_kv_cache_clear(ctx3);
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fprintf(stderr, "%s : kv cache cleared\n", __func__);
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// restore kv into seq 1
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const size_t nset = llama_state_seq_set_data(ctx3, seq_store.data(), seq_store.size(), 1);
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if (nset != seq_store.size()) {
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fprintf(stderr, "\n%s : seq set data length %zd does not match expected length %zd\n", __func__, nset, seq_store.size());
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llama_free(ctx3);
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llama_free_model(model);
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return 1;
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}
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fprintf(stderr, "%s : seq 1 restored, %zd bytes\n", __func__, nset);
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}
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// third run with seq 1 instead of 0
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for (auto i = 0; i < params.n_predict; i++) {
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auto next_token = llama_sampler_sample(smpl3, ctx3, -1);
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auto next_token_str = common_token_to_piece(ctx3, next_token);
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printf("%s", next_token_str.c_str());
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result2 += next_token_str;
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common_batch_clear(batch);
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common_batch_add(batch, next_token, n_past, {1}, true);
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if (llama_decode(ctx3, batch)) {
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fprintf(stderr, "\n%s : failed to evaluate\n", __func__);
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llama_batch_free(batch);
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llama_free(ctx3);
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llama_free_model(model);
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return 1;
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}
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n_past += 1;
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}
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printf("\n");
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llama_sampler_free(smpl);
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llama_sampler_free(smpl2);
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llama_sampler_free(smpl3);
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llama_batch_free(batch);
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llama_free(ctx3);
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llama_free_model(model);
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if (result0 != result2) {
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fprintf(stderr, "\n%s : error : the seq restore generation is different\n", __func__);
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return 1;
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}
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fprintf(stderr, "\n%s : success\n", __func__);
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return 0;
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}
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