gpt4all/gpt4all-chat/chatllm.cpp
2023-05-13 06:52:42 -04:00

485 lines
14 KiB
C++

#include "chatllm.h"
#include "chat.h"
#include "download.h"
#include "network.h"
#include "../gpt4all-backend/gptj.h"
#include "../gpt4all-backend/llamamodel.h"
#include "../gpt4all-backend/mpt.h"
#include <QCoreApplication>
#include <QDir>
#include <QFile>
#include <QProcess>
#include <QResource>
#include <QSettings>
#include <fstream>
//#define DEBUG
#define MPT_INTERNAL_STATE_VERSION 0
#define GPTJ_INTERNAL_STATE_VERSION 0
#define LLAMA_INTERNAL_STATE_VERSION 0
static QString modelFilePath(const QString &modelName)
{
QString appPath = QCoreApplication::applicationDirPath()
+ "/ggml-" + modelName + ".bin";
QFileInfo infoAppPath(appPath);
if (infoAppPath.exists())
return appPath;
QString downloadPath = Download::globalInstance()->downloadLocalModelsPath()
+ "/ggml-" + modelName + ".bin";
QFileInfo infoLocalPath(downloadPath);
if (infoLocalPath.exists())
return downloadPath;
return QString();
}
ChatLLM::ChatLLM(Chat *parent)
: QObject{nullptr}
, m_llmodel(nullptr)
, m_promptResponseTokens(0)
, m_promptTokens(0)
, m_responseLogits(0)
, m_isRecalc(false)
, m_chat(parent)
{
moveToThread(&m_llmThread);
connect(this, &ChatLLM::sendStartup, Network::globalInstance(), &Network::sendStartup);
connect(this, &ChatLLM::sendModelLoaded, Network::globalInstance(), &Network::sendModelLoaded);
connect(m_chat, &Chat::idChanged, this, &ChatLLM::handleChatIdChanged);
connect(&m_llmThread, &QThread::started, this, &ChatLLM::threadStarted);
m_llmThread.setObjectName(m_chat->id());
m_llmThread.start();
}
ChatLLM::~ChatLLM()
{
m_llmThread.quit();
m_llmThread.wait();
delete m_llmodel;
}
bool ChatLLM::loadDefaultModel()
{
const QList<QString> models = m_chat->modelList();
if (models.isEmpty()) {
// try again when we get a list of models
connect(Download::globalInstance(), &Download::modelListChanged, this,
&ChatLLM::loadDefaultModel, Qt::SingleShotConnection);
return false;
}
return loadModel(models.first());
}
bool ChatLLM::loadModel(const QString &modelName)
{
if (isModelLoaded() && m_modelName == modelName)
return true;
if (isModelLoaded()) {
resetContextProtected();
delete m_llmodel;
m_llmodel = nullptr;
emit isModelLoadedChanged();
}
bool isGPTJ = false;
bool isMPT = false;
QString filePath = modelFilePath(modelName);
QFileInfo info(filePath);
if (info.exists()) {
auto fin = std::ifstream(filePath.toStdString(), std::ios::binary);
uint32_t magic;
fin.read((char *) &magic, sizeof(magic));
fin.seekg(0);
fin.close();
isGPTJ = magic == 0x67676d6c;
isMPT = magic == 0x67676d6d;
if (isGPTJ) {
m_modelType = ModelType::GPTJ_;
m_llmodel = new GPTJ;
m_llmodel->loadModel(filePath.toStdString());
} else if (isMPT) {
m_modelType = ModelType::MPT_;
m_llmodel = new MPT;
m_llmodel->loadModel(filePath.toStdString());
} else {
m_modelType = ModelType::LLAMA_;
m_llmodel = new LLamaModel;
m_llmodel->loadModel(filePath.toStdString());
}
restoreState();
#if defined(DEBUG)
qDebug() << "chatllm modelLoadedChanged" << m_chat->id();
fflush(stdout);
#endif
emit isModelLoadedChanged();
static bool isFirstLoad = true;
if (isFirstLoad) {
emit sendStartup();
isFirstLoad = false;
} else
emit sendModelLoaded();
} else {
const QString error = QString("Could not find model %1").arg(modelName);
emit modelLoadingError(error);
}
if (m_llmodel)
setModelName(info.completeBaseName().remove(0, 5)); // remove the ggml- prefix
return m_llmodel;
}
bool ChatLLM::isModelLoaded() const
{
return m_llmodel && m_llmodel->isModelLoaded();
}
void ChatLLM::regenerateResponse()
{
m_ctx.n_past -= m_promptResponseTokens;
m_ctx.n_past = std::max(0, m_ctx.n_past);
// FIXME: This does not seem to be needed in my testing and llama models don't to it. Remove?
m_ctx.logits.erase(m_ctx.logits.end() -= m_responseLogits, m_ctx.logits.end());
m_ctx.tokens.erase(m_ctx.tokens.end() -= m_promptResponseTokens, m_ctx.tokens.end());
m_promptResponseTokens = 0;
m_promptTokens = 0;
m_responseLogits = 0;
m_response = std::string();
emit responseChanged();
}
void ChatLLM::resetResponse()
{
m_promptTokens = 0;
m_promptResponseTokens = 0;
m_responseLogits = 0;
m_response = std::string();
emit responseChanged();
}
void ChatLLM::resetContext()
{
resetContextProtected();
emit sendResetContext();
}
void ChatLLM::resetContextProtected()
{
regenerateResponse();
m_ctx = LLModel::PromptContext();
}
std::string remove_leading_whitespace(const std::string& input) {
auto first_non_whitespace = std::find_if(input.begin(), input.end(), [](unsigned char c) {
return !std::isspace(c);
});
return std::string(first_non_whitespace, input.end());
}
std::string trim_whitespace(const std::string& input) {
auto first_non_whitespace = std::find_if(input.begin(), input.end(), [](unsigned char c) {
return !std::isspace(c);
});
auto last_non_whitespace = std::find_if(input.rbegin(), input.rend(), [](unsigned char c) {
return !std::isspace(c);
}).base();
return std::string(first_non_whitespace, last_non_whitespace);
}
QString ChatLLM::response() const
{
return QString::fromStdString(remove_leading_whitespace(m_response));
}
QString ChatLLM::modelName() const
{
return m_modelName;
}
void ChatLLM::setModelName(const QString &modelName)
{
m_modelName = modelName;
emit modelNameChanged();
}
void ChatLLM::modelNameChangeRequested(const QString &modelName)
{
if (!loadModel(modelName))
qWarning() << "ERROR: Could not load model" << modelName;
}
bool ChatLLM::handlePrompt(int32_t token)
{
// m_promptResponseTokens and m_responseLogits are related to last prompt/response not
// the entire context window which we can reset on regenerate prompt
#if defined(DEBUG)
qDebug() << "chatllm prompt process" << m_chat->id() << token;
#endif
++m_promptTokens;
++m_promptResponseTokens;
return !m_stopGenerating;
}
bool ChatLLM::handleResponse(int32_t token, const std::string &response)
{
#if defined(DEBUG)
printf("%s", response.c_str());
fflush(stdout);
#endif
// check for error
if (token < 0) {
m_response.append(response);
emit responseChanged();
return false;
}
// m_promptResponseTokens and m_responseLogits are related to last prompt/response not
// the entire context window which we can reset on regenerate prompt
++m_promptResponseTokens;
Q_ASSERT(!response.empty());
m_response.append(response);
emit responseChanged();
return !m_stopGenerating;
}
bool ChatLLM::handleRecalculate(bool isRecalc)
{
if (m_isRecalc != isRecalc) {
m_isRecalc = isRecalc;
emit recalcChanged();
}
return !m_stopGenerating;
}
bool ChatLLM::prompt(const QString &prompt, const QString &prompt_template, int32_t n_predict, int32_t top_k,
float top_p, float temp, int32_t n_batch, float repeat_penalty, int32_t repeat_penalty_tokens, int n_threads)
{
if (!isModelLoaded())
return false;
QString instructPrompt = prompt_template.arg(prompt);
m_stopGenerating = false;
auto promptFunc = std::bind(&ChatLLM::handlePrompt, this, std::placeholders::_1);
auto responseFunc = std::bind(&ChatLLM::handleResponse, this, std::placeholders::_1,
std::placeholders::_2);
auto recalcFunc = std::bind(&ChatLLM::handleRecalculate, this, std::placeholders::_1);
emit responseStarted();
qint32 logitsBefore = m_ctx.logits.size();
m_ctx.n_predict = n_predict;
m_ctx.top_k = top_k;
m_ctx.top_p = top_p;
m_ctx.temp = temp;
m_ctx.n_batch = n_batch;
m_ctx.repeat_penalty = repeat_penalty;
m_ctx.repeat_last_n = repeat_penalty_tokens;
m_llmodel->setThreadCount(n_threads);
#if defined(DEBUG)
printf("%s", qPrintable(instructPrompt));
fflush(stdout);
#endif
m_llmodel->prompt(instructPrompt.toStdString(), promptFunc, responseFunc, recalcFunc, m_ctx);
#if defined(DEBUG)
printf("\n");
fflush(stdout);
#endif
m_responseLogits += m_ctx.logits.size() - logitsBefore;
std::string trimmed = trim_whitespace(m_response);
if (trimmed != m_response) {
m_response = trimmed;
emit responseChanged();
}
emit responseStopped();
return true;
}
void ChatLLM::unloadModel()
{
#if defined(DEBUG)
qDebug() << "chatllm unloadModel" << m_chat->id();
#endif
saveState();
delete m_llmodel;
m_llmodel = nullptr;
emit isModelLoadedChanged();
}
void ChatLLM::reloadModel(const QString &modelName)
{
#if defined(DEBUG)
qDebug() << "chatllm reloadModel" << m_chat->id();
#endif
if (modelName.isEmpty()) {
loadDefaultModel();
} else {
loadModel(modelName);
}
}
void ChatLLM::generateName()
{
Q_ASSERT(isModelLoaded());
if (!isModelLoaded())
return;
QString instructPrompt("### Instruction:\n"
"Describe response above in three words.\n"
"### Response:\n");
auto promptFunc = std::bind(&ChatLLM::handleNamePrompt, this, std::placeholders::_1);
auto responseFunc = std::bind(&ChatLLM::handleNameResponse, this, std::placeholders::_1,
std::placeholders::_2);
auto recalcFunc = std::bind(&ChatLLM::handleNameRecalculate, this, std::placeholders::_1);
LLModel::PromptContext ctx = m_ctx;
#if defined(DEBUG)
printf("%s", qPrintable(instructPrompt));
fflush(stdout);
#endif
m_llmodel->prompt(instructPrompt.toStdString(), promptFunc, responseFunc, recalcFunc, ctx);
#if defined(DEBUG)
printf("\n");
fflush(stdout);
#endif
std::string trimmed = trim_whitespace(m_nameResponse);
if (trimmed != m_nameResponse) {
m_nameResponse = trimmed;
emit generatedNameChanged();
}
}
void ChatLLM::handleChatIdChanged()
{
m_llmThread.setObjectName(m_chat->id());
}
bool ChatLLM::handleNamePrompt(int32_t token)
{
Q_UNUSED(token);
qt_noop();
return true;
}
bool ChatLLM::handleNameResponse(int32_t token, const std::string &response)
{
Q_UNUSED(token);
m_nameResponse.append(response);
emit generatedNameChanged();
QString gen = QString::fromStdString(m_nameResponse).simplified();
QStringList words = gen.split(' ', Qt::SkipEmptyParts);
int wordCount = words.size();
return words.size() <= 3;
}
bool ChatLLM::handleNameRecalculate(bool isRecalc)
{
Q_UNUSED(isRecalc);
Q_UNREACHABLE();
return true;
}
bool ChatLLM::serialize(QDataStream &stream, int version)
{
if (version > 1) {
stream << m_modelType;
switch (m_modelType) {
case MPT_: stream << MPT_INTERNAL_STATE_VERSION; break;
case GPTJ_: stream << GPTJ_INTERNAL_STATE_VERSION; break;
case LLAMA_: stream << LLAMA_INTERNAL_STATE_VERSION; break;
default: Q_UNREACHABLE();
}
}
stream << response();
stream << generatedName();
stream << m_promptResponseTokens;
stream << m_responseLogits;
stream << m_ctx.n_past;
stream << quint64(m_ctx.logits.size());
stream.writeRawData(reinterpret_cast<const char*>(m_ctx.logits.data()), m_ctx.logits.size() * sizeof(float));
stream << quint64(m_ctx.tokens.size());
stream.writeRawData(reinterpret_cast<const char*>(m_ctx.tokens.data()), m_ctx.tokens.size() * sizeof(int));
saveState();
QByteArray compressed = qCompress(m_state);
stream << compressed;
#if defined(DEBUG)
qDebug() << "chatllm serialize" << m_chat->id() << m_state.size();
#endif
return stream.status() == QDataStream::Ok;
}
bool ChatLLM::deserialize(QDataStream &stream, int version)
{
if (version > 1) {
int internalStateVersion;
stream >> m_modelType;
stream >> internalStateVersion; // for future use
}
QString response;
stream >> response;
m_response = response.toStdString();
QString nameResponse;
stream >> nameResponse;
m_nameResponse = nameResponse.toStdString();
stream >> m_promptResponseTokens;
stream >> m_responseLogits;
stream >> m_ctx.n_past;
quint64 logitsSize;
stream >> logitsSize;
m_ctx.logits.resize(logitsSize);
stream.readRawData(reinterpret_cast<char*>(m_ctx.logits.data()), logitsSize * sizeof(float));
quint64 tokensSize;
stream >> tokensSize;
m_ctx.tokens.resize(tokensSize);
stream.readRawData(reinterpret_cast<char*>(m_ctx.tokens.data()), tokensSize * sizeof(int));
if (version > 0) {
QByteArray compressed;
stream >> compressed;
m_state = qUncompress(compressed);
} else {
stream >> m_state;
}
#if defined(DEBUG)
qDebug() << "chatllm deserialize" << m_chat->id();
#endif
return stream.status() == QDataStream::Ok;
}
void ChatLLM::saveState()
{
if (!isModelLoaded())
return;
const size_t stateSize = m_llmodel->stateSize();
m_state.resize(stateSize);
#if defined(DEBUG)
qDebug() << "chatllm saveState" << m_chat->id() << "size:" << m_state.size();
#endif
m_llmodel->saveState(static_cast<uint8_t*>(reinterpret_cast<void*>(m_state.data())));
}
void ChatLLM::restoreState()
{
if (!isModelLoaded() || m_state.isEmpty())
return;
#if defined(DEBUG)
qDebug() << "chatllm restoreState" << m_chat->id() << "size:" << m_state.size();
#endif
m_llmodel->restoreState(static_cast<const uint8_t*>(reinterpret_cast<void*>(m_state.data())));
m_state.clear();
m_state.resize(0);
}