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expose.cpp
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expose.cpp
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//This is Concedo's shitty adapter for adding python bindings for llama
//Considerations:
//Don't want to use pybind11 due to dependencies on MSVCC
//ZERO or MINIMAL changes as possible to main.cpp - do not move their function declarations here!
//Leave main.cpp UNTOUCHED, We want to be able to update the repo and pull any changes automatically.
//No dynamic memory allocation! Setup structs with FIXED (known) shapes and sizes for ALL output fields
//Python will ALWAYS provide the memory, we just write to it.
#include <cassert>
#include <cstring>
#include <fstream>
#include <regex>
#include <iostream>
#include <iterator>
#include <queue>
#include <string>
#include <math.h>
#include "expose.h"
#include "model_adapter.cpp"
extern "C"
{
std::string platformenv, deviceenv;
//return val: 0=fail, 1=(original ggml, alpaca), 2=(ggmf), 3=(ggjt)
static FileFormat file_format = FileFormat::BADFORMAT;
static FileFormatExtraMeta file_format_meta;
bool load_model(const load_model_inputs inputs)
{
std::string model = inputs.model_filename;
lora_filename = inputs.lora_filename;
lora_base = inputs.lora_base;
int forceversion = inputs.forceversion;
file_format = check_file_format(model.c_str(),&file_format_meta);
if(forceversion!=0)
{
printf("\nWARNING: FILE FORMAT FORCED TO VER %d\nIf incorrect, loading may fail or crash.\n",forceversion);
file_format = (FileFormat)forceversion;
}
//first digit is whether configured, second is platform, third is devices
int cl_parseinfo = inputs.clblast_info;
std::string usingclblast = "GGML_OPENCL_CONFIGURED="+std::to_string(cl_parseinfo>0?1:0);
putenv((char*)usingclblast.c_str());
cl_parseinfo = cl_parseinfo%100; //keep last 2 digits
int platform = cl_parseinfo/10;
int devices = cl_parseinfo%10;
platformenv = "GGML_OPENCL_PLATFORM="+std::to_string(platform);
deviceenv = "GGML_OPENCL_DEVICE="+std::to_string(devices);
putenv((char*)platformenv.c_str());
putenv((char*)deviceenv.c_str());
executable_path = inputs.executable_path;
if(file_format==FileFormat::GPTJ_1 || file_format==FileFormat::GPTJ_2 || file_format==FileFormat::GPTJ_3 || file_format==FileFormat::GPTJ_4 || file_format==FileFormat::GPTJ_5)
{
printf("\n---\nIdentified as GPT-J model: (ver %d)\nAttempting to Load...\n---\n", file_format);
ModelLoadResult lr = gpttype_load_model(inputs, file_format, file_format_meta);
if (lr == ModelLoadResult::RETRY_LOAD)
{
if(file_format==FileFormat::GPTJ_1)
{
//if we tried 1 first, then try 3 and lastly 2
//otherwise if we tried 3 first, then try 2
file_format = FileFormat::GPTJ_4;
printf("\n---\nRetrying as GPT-J model: (ver %d)\nAttempting to Load...\n---\n", file_format);
lr = gpttype_load_model(inputs, file_format, file_format_meta);
}
if (lr == ModelLoadResult::RETRY_LOAD)
{
file_format = FileFormat::GPTJ_3;
printf("\n---\nRetrying as GPT-J model: (ver %d)\nAttempting to Load...\n---\n", file_format);
lr = gpttype_load_model(inputs, file_format, file_format_meta);
}
//lastly try format 2
if (lr == ModelLoadResult::RETRY_LOAD)
{
file_format = FileFormat::GPTJ_2;
printf("\n---\nRetrying as GPT-J model: (ver %d)\nAttempting to Load...\n---\n", file_format);
lr = gpttype_load_model(inputs, file_format, file_format_meta);
}
}
if (lr == ModelLoadResult::FAIL || lr == ModelLoadResult::RETRY_LOAD)
{
return false;
}
else
{
return true;
}
}
else if(file_format==FileFormat::GPT2_1||file_format==FileFormat::GPT2_2||file_format==FileFormat::GPT2_3||file_format==FileFormat::GPT2_4)
{
printf("\n---\nIdentified as GPT-2 model: (ver %d)\nAttempting to Load...\n---\n", file_format);
ModelLoadResult lr = gpttype_load_model(inputs, file_format, file_format_meta);
if (lr == ModelLoadResult::RETRY_LOAD)
{
file_format = FileFormat::GPT2_3;
printf("\n---\nRetrying as GPT-2 model: (ver %d)\nAttempting to Load...\n---\n", file_format);
lr = gpttype_load_model(inputs, file_format, file_format_meta);
}
if (lr == ModelLoadResult::RETRY_LOAD)
{
file_format = FileFormat::GPT2_2;
printf("\n---\nRetrying as GPT-2 model: (ver %d)\nAttempting to Load...\n---\n", file_format);
lr = gpttype_load_model(inputs, file_format, file_format_meta);
}
if (lr == ModelLoadResult::FAIL || lr == ModelLoadResult::RETRY_LOAD)
{
return false;
}
else
{
return true;
}
}
else if(file_format==FileFormat::NEOX_1 || file_format==FileFormat::NEOX_2 || file_format==FileFormat::NEOX_3 || file_format==FileFormat::NEOX_4 || file_format==FileFormat::NEOX_5 || file_format==FileFormat::NEOX_6 || file_format==FileFormat::NEOX_7)
{
printf("\n---\nIdentified as GPT-NEO-X model: (ver %d)\nAttempting to Load...\n---\n", file_format);
ModelLoadResult lr = gpttype_load_model(inputs, file_format, file_format_meta);
if (lr == ModelLoadResult::RETRY_LOAD)
{
if(file_format==FileFormat::NEOX_2)
{
file_format = FileFormat::NEOX_3;
printf("\n---\nRetrying as GPT-NEO-X model: (ver %d)\nAttempting to Load...\n---\n", file_format);
lr = gpttype_load_model(inputs, file_format, file_format_meta);
}
else
{
file_format = FileFormat::NEOX_5;
printf("\n---\nRetrying as GPT-NEO-X model: (ver %d)\nAttempting to Load...\n---\n", file_format);
lr = gpttype_load_model(inputs, file_format, file_format_meta);
}
}
if (lr == ModelLoadResult::RETRY_LOAD)
{
file_format = FileFormat::NEOX_1;
printf("\n---\nRetrying as GPT-NEO-X model: (ver %d)\nAttempting to Load...\n---\n", file_format);
lr = gpttype_load_model(inputs, file_format, file_format_meta);
}
if (lr == ModelLoadResult::FAIL || lr == ModelLoadResult::RETRY_LOAD)
{
return false;
}
else
{
return true;
}
}
else
{
if(file_format==FileFormat::MPT_1)
{
printf("\n---\nIdentified as MPT model: (ver %d)\nAttempting to Load...\n---\n", file_format);
}
else if(file_format==FileFormat::RWKV_1 || file_format==FileFormat::RWKV_2)
{
printf("\n---\nIdentified as RWKV model: (ver %d)\nAttempting to Load...\n---\n", file_format);
}
else if(file_format==FileFormat::GGUF_FALCON)
{
printf("\n---\nIdentified as FALCON model: (ver %d)\nAttempting to Load...\n---\n", file_format);
}
else
{
printf("\n---\nIdentified as LLAMA model: (ver %d)\nAttempting to Load...\n---\n", file_format);
}
ModelLoadResult lr = gpttype_load_model(inputs, file_format, file_format_meta);
if (lr == ModelLoadResult::FAIL || lr == ModelLoadResult::RETRY_LOAD)
{
return false;
}
else
{
return true;
}
}
}
generation_outputs generate(const generation_inputs inputs, generation_outputs &output)
{
return gpttype_generate(inputs, output);
}
const char* new_token(int idx) {
if (generated_tokens.size() <= idx || idx < 0) return nullptr;
return generated_tokens[idx].c_str();
}
int get_stream_count() {
return generated_tokens.size();
}
bool has_finished() {
return generation_finished;
}
float get_last_eval_time() {
return last_eval_time;
}
float get_last_process_time() {
return last_process_time;
}
int get_last_token_count() {
return last_token_count;
}
int get_last_stop_reason() {
return (int)last_stop_reason;
}
const char* get_pending_output() {
return gpttype_get_pending_output().c_str();
}
bool abort_generate() {
return gpttype_generate_abort();
}
int token_count(const char * input)
{
std::string inputstr = input;
return gpttype_token_count(inputstr);
}
}