from playhouse.shortcuts import model_to_dict from peewee import * from termcolor import colored from functools import reduce import operator import psycopg2 from psycopg2.extensions import quote_ident from const.common import PROMPT_DATA_TO_IGNORE from logger.logger import logger from utils.utils import hash_data from database.config import DB_NAME, DB_HOST, DB_PORT, DB_USER, DB_PASSWORD, DATABASE_TYPE from database.models.components.base_models import database from database.models.user import User from database.models.app import App from database.models.project_description import ProjectDescription from database.models.user_stories import UserStories from database.models.user_tasks import UserTasks from database.models.architecture import Architecture from database.models.development_planning import DevelopmentPlanning from database.models.development_steps import DevelopmentSteps from database.models.environment_setup import EnvironmentSetup from database.models.development import Development from database.models.file_snapshot import FileSnapshot from database.models.command_runs import CommandRuns from database.models.user_apps import UserApps from database.models.user_inputs import UserInputs from database.models.files import File def save_user(user_id, email, password): try: user = User.get(User.id == user_id) return user except DoesNotExist: try: existing_user = User.get(User.email == email) return existing_user except DoesNotExist: return User.create(id=user_id, email=email, password=password) def get_user(user_id=None, email=None): if not user_id and not email: raise ValueError("Either user_id or email must be provided") query = [] if user_id: query.append(User.id == user_id) if email: query.append(User.email == email) try: user = User.get(reduce(operator.or_, query)) return user except DoesNotExist: raise ValueError("No user found with provided id or email") def save_app(args): try: app = App.get(App.id == args['app_id']) for key, value in args.items(): if key != 'app_id' and value is not None: setattr(app, key, value) app.save() except DoesNotExist: if args.get('user_id') is not None: try: user = get_user(user_id=args['user_id']) except ValueError: user = save_user(args['user_id'], args['email'], args['password']) args['user_id'] = user.id args['email'] = user.email else: user = None app = App.create( id=args['app_id'], user=user, app_type=args.get('app_type'), name=args.get('name') ) return app def save_user_app(user_id, app_id, workspace): try: user_app = UserApps.get((UserApps.user == user_id) & (UserApps.app == app_id)) user_app.workspace = workspace user_app.save() except DoesNotExist: user_app = UserApps.create(user=user_id, app=app_id, workspace=workspace) return user_app def save_progress(app_id, step, data): progress_table_map = { 'project_description': ProjectDescription, 'user_stories': UserStories, 'user_tasks': UserTasks, 'architecture': Architecture, 'development_planning': DevelopmentPlanning, 'environment_setup': EnvironmentSetup, 'development': Development, } data['step'] = step ProgressTable = progress_table_map.get(step) if not ProgressTable: raise ValueError(f"Invalid step: {step}") app = get_app(app_id) # Use the get_or_create method, which attempts to retrieve a record # or creates a new one if it does not exist. progress, created = ProgressTable.get_or_create(app=app, defaults=data) # If the record was not created, it already existed and we should update it if not created: for key, value in data.items(): setattr(progress, key, value) progress.save() return progress def get_app(app_id): try: app = App.get(App.id == app_id) return app except DoesNotExist: raise ValueError(f"No app with id: {app_id}") def get_app_by_user_workspace(user_id, workspace): try: user_app = UserApps.get((UserApps.user == user_id) & (UserApps.workspace == workspace)) return user_app.app except DoesNotExist: return None def get_progress_steps(app_id, step=None): progress_table_map = { 'project_description': ProjectDescription, 'user_stories': UserStories, 'user_tasks': UserTasks, 'architecture': Architecture, 'development_planning': DevelopmentPlanning, 'environment_setup': EnvironmentSetup, 'development': Development, } if step: ProgressTable = progress_table_map.get(step) if not ProgressTable: raise ValueError(f"Invalid step: {step}") try: progress = ProgressTable.get(ProgressTable.app_id == app_id) return model_to_dict(progress) except DoesNotExist: return None else: steps = {} for step, ProgressTable in progress_table_map.items(): try: progress = ProgressTable.get(ProgressTable.app_id == app_id) steps[step] = model_to_dict(progress) except DoesNotExist: steps[step] = None return steps def get_db_model_from_hash_id(model, app_id, previous_step): try: db_row = model.get((model.app == app_id) & (model.previous_step == previous_step)) except DoesNotExist: return None return db_row def hash_and_save_step(Model, app_id, hash_data_args, data_fields, message): app = get_app(app_id) hash_id = hash_data(hash_data_args) data_to_insert = { 'app': app, 'hash_id': hash_id } fields_to_preserve = [getattr(Model, field) for field in list(data_to_insert.keys())] for field, value in data_fields.items(): data_to_insert[field] = value try: inserted_id = (Model .insert(**data_to_insert) .on_conflict(conflict_target=[Model.app, Model.hash_id], preserve=fields_to_preserve, update=data_fields) .execute()) record = Model.get_by_id(inserted_id) logger.debug(colored(f"{message} with id {record.id}", "yellow")) except IntegrityError: print(f"A record with hash_id {hash_id} already exists for {Model.__name__}.") return None return record def save_development_step(project, prompt_path, prompt_data, messages, llm_response): hash_data_args = { 'prompt_path': prompt_path, 'prompt_data': {} if prompt_data is None else {k: v for k, v in prompt_data.items() if k not in PROMPT_DATA_TO_IGNORE}, 'llm_req_num': project.llm_req_num } data_fields = { 'messages': messages, 'llm_response': llm_response, 'previous_step': project.checkpoints['last_development_step'], } development_step = hash_and_save_step(DevelopmentSteps, project.args['app_id'], hash_data_args, data_fields, "Saved Development Step") project.checkpoints['last_development_step'] = development_step project.save_files_snapshot(development_step.id) return development_step def get_development_step_from_hash_id(project, prompt_path, prompt_data, llm_req_num): data_to_hash = { 'prompt_path': prompt_path, 'prompt_data': {} if prompt_data is None else {k: v for k, v in prompt_data.items() if k not in PROMPT_DATA_TO_IGNORE}, 'llm_req_num': llm_req_num } development_step = get_db_model_from_hash_id(DevelopmentSteps, project.args['app_id'], project.checkpoints['last_development_step']) return development_step def save_command_run(project, command, cli_response): hash_data_args = { 'command': command, 'command_runs_count': project.command_runs_count, } data_fields = { 'command': command, 'cli_response': cli_response, 'previous_step': project.checkpoints['last_command_run'], } command_run = hash_and_save_step(CommandRuns, project.args['app_id'], hash_data_args, data_fields, "Saved Command Run") project.checkpoints['last_command_run'] = command_run return command_run def get_command_run_from_hash_id(project, command): data_to_hash = { 'command': command, 'command_runs_count': project.command_runs_count } command_run = get_db_model_from_hash_id(CommandRuns, project.args['app_id'], project.checkpoints['last_command_run']) return command_run def save_user_input(project, query, user_input): hash_data_args = { 'query': query, 'user_inputs_count': project.user_inputs_count, } data_fields = { 'query': query, 'user_input': user_input, 'previous_step': project.checkpoints['last_user_input'], } user_input = hash_and_save_step(UserInputs, project.args['app_id'], hash_data_args, data_fields, "Saved User Input") project.checkpoints['last_user_input'] = user_input return user_input def get_user_input_from_hash_id(project, query): data_to_hash = { 'query': query, 'user_inputs_count': project.user_inputs_count } user_input = get_db_model_from_hash_id(UserInputs, project.args['app_id'], project.checkpoints['last_user_input']) return user_input def delete_all_subsequent_steps(project): delete_subsequent_steps(DevelopmentSteps, project.checkpoints['last_development_step']) delete_subsequent_steps(CommandRuns, project.checkpoints['last_command_run']) delete_subsequent_steps(UserInputs, project.checkpoints['last_user_input']) def delete_subsequent_steps(model, step): if step is None: return logger.info(colored(f"Deleting subsequent {model.__name__} steps after {step.id}", "red")) subsequent_steps = model.select().where(model.previous_step == step.id) for subsequent_step in subsequent_steps: if subsequent_step: delete_subsequent_steps(model, subsequent_step) subsequent_step.delete_instance() def get_all_connected_steps(step, previous_step_field_name): """Recursively get all steps connected to the given step.""" connected_steps = [step] prev_step = getattr(step, previous_step_field_name) while prev_step is not None: connected_steps.append(prev_step) prev_step = getattr(prev_step, previous_step_field_name) return connected_steps def delete_all_app_development_data(app): models = [DevelopmentSteps, CommandRuns, UserInputs, UserApps, File, FileSnapshot] for model in models: model.delete().where(model.app == app).execute() def delete_unconnected_steps_from(step, previous_step_field_name): if step is None: return connected_steps = get_all_connected_steps(step, previous_step_field_name) connected_step_ids = [s.id for s in connected_steps] unconnected_steps = DevelopmentSteps.select().where( (DevelopmentSteps.app == step.app) & (DevelopmentSteps.id.not_in(connected_step_ids)) ).order_by(DevelopmentSteps.id.desc()) for unconnected_step in unconnected_steps: print(colored(f"Deleting unconnected {step.__class__.__name__} step {unconnected_step.id}", "red")) unconnected_step.delete_instance() def save_file_description(project, path, name, description): (File.insert(app=project.app, path=path, name=name, description=description) .on_conflict( conflict_target=[File.app, File.name, File.path], preserve=[], update={'description': description}) .execute()) def create_tables(): with database: database.create_tables([ User, App, ProjectDescription, UserStories, UserTasks, Architecture, DevelopmentPlanning, DevelopmentSteps, EnvironmentSetup, Development, FileSnapshot, CommandRuns, UserApps, UserInputs, File, ]) def drop_tables(): with database.atomic(): for table in [ User, App, ProjectDescription, UserStories, UserTasks, Architecture, DevelopmentPlanning, DevelopmentSteps, EnvironmentSetup, Development, FileSnapshot, CommandRuns, UserApps, UserInputs, File, ]: if DATABASE_TYPE == "postgres": sql = f'DROP TABLE IF EXISTS "{table._meta.table_name}" CASCADE' elif DATABASE_TYPE == "sqlite": sql = f'DROP TABLE IF EXISTS "{table._meta.table_name}"' else: raise ValueError(f"Unsupported DATABASE_TYPE: {DATABASE_TYPE}") database.execute_sql(sql) def database_exists(): try: database.connect() database.close() return True except Exception: return False def create_database(): if DATABASE_TYPE == "postgres": # Connect to the default 'postgres' database to create a new database conn = psycopg2.connect( dbname='postgres', user=DB_USER, password=DB_PASSWORD, host=DB_HOST, port=DB_PORT ) conn.autocommit = True cursor = conn.cursor() # Safely quote the database name safe_db_name = quote_ident(DB_NAME, conn) # Use the safely quoted database name in the SQL query cursor.execute(f"CREATE DATABASE {safe_db_name}") cursor.close() conn.close() else: pass def tables_exist(): tables = [User, App, ProjectDescription, UserStories, UserTasks, Architecture, DevelopmentPlanning, DevelopmentSteps, EnvironmentSetup, Development, FileSnapshot, CommandRuns, UserApps, UserInputs, File] if DATABASE_TYPE == "postgres": for table in tables: try: database.get_tables().index(table._meta.table_name) except ValueError: return False else: pass return True if __name__ == "__main__": drop_tables() create_tables()