''' Provides simple job management for gradio, allowing viewing and stopping in-progress multi-batch generations ''' from __future__ import annotations import gradio as gr from gradio.components import Component, Gallery, Slider from threading import Event, Timer from typing import Callable, List, Dict, Tuple, Optional, Any from dataclasses import dataclass, field from functools import partial from PIL.Image import Image import uuid import traceback @dataclass(eq=True, frozen=True) class FuncKey: job_id: str func: Callable @dataclass(eq=True, frozen=True) class JobKey: func_key: FuncKey session_key: str @dataclass class JobInfo: inputs: List[Component] func: Callable session_key: str job_token: Optional[int] = None images: List[Image] = field(default_factory=list) active_image: Image = None rec_steps_enabled: bool = False rec_steps_imgs: List[Image] = field(default_factory=list) rec_steps_intrvl: int = None rec_steps_to_gallery: bool = False rec_steps_to_file: bool = False should_stop: Event = field(default_factory=Event) refresh_active_image_requested: Event = field(default_factory=Event) refresh_active_image_done: Event = field(default_factory=Event) stop_cur_iter: Event = field(default_factory=Event) active_iteration_cnt: int = field(default_factory=int) job_status: str = field(default_factory=str) finished: bool = False removed_output_idxs: List[int] = field(default_factory=list) @dataclass class SessionInfo: jobs: Dict[FuncKey, JobInfo] = field(default_factory=dict) finished_jobs: Dict[FuncKey, JobInfo] = field(default_factory=dict) @dataclass class QueueItem: wait_event: Event def triggerChangeEvent(): return uuid.uuid4().hex @dataclass class JobManagerUi: def wrap_func( self, func: Callable, inputs: List[Component], outputs: List[Component]) -> Tuple[Callable, List[Component], List[Component]]: ''' Takes a gradio event listener function and its input/outputs and returns wrapped replacements which will be managed by JobManager Parameters: func (Callable) the original event listener to be wrapped. This listener should be modified to take a 'job_info' parameter which, if not None, should can be used by the function to check for stop events and to store intermediate image results inputs (List[Component]) the original inputs outputs (List[Component]) the original outputs. The first gallery, if any, will be used for refreshing images refresh_btn: (gr.Button, optional) a button to use for updating the gallery with intermediate results stop_btn: (gr.Button, optional) a button to use for stopping the function status_text: (gr.Textbox) a textbox to display job status updates Returns: Tuple(newFunc (Callable), newInputs (List[Component]), newOutputs (List[Component]), which should be used as replacements for the passed in function, inputs and outputs ''' return self._job_manager._wrap_func( func=func, inputs=inputs, outputs=outputs, job_ui=self ) _refresh_btn: gr.Button _stop_btn: gr.Button _status_text: gr.Textbox _stop_all_session_btn: gr.Button _free_done_sessions_btn: gr.Button _active_image: gr.Image _active_image_stop_btn: gr.Button _active_image_refresh_btn: gr.Button _rec_steps_intrvl_sldr: gr.Slider _rec_steps_checkbox: gr.Checkbox _save_rec_steps_to_gallery_chkbx: gr.Checkbox _save_rec_steps_to_file_chkbx: gr.Checkbox _job_manager: JobManager class JobManager: def __init__(self, max_jobs: int): self._max_jobs: int = max_jobs self._avail_job_tokens: List[Any] = list(range(max_jobs)) self._job_queue: List[QueueItem] = [] self._sessions: Dict[str, SessionInfo] = {} self._session_key: gr.JSON = None def draw_gradio_ui(self) -> JobManagerUi: ''' draws the job manager ui in gradio Returns: ui (JobManagerUi): object which can connect functions to the ui ''' assert gr.context.Context.block is not None, "draw_gradio_ui must be called within a 'gr.Blocks' 'with' context" with gr.Tabs(): with gr.TabItem("Job Controls"): with gr.Row(): stop_btn = gr.Button("Stop All Batches", elem_id="stop", variant="secondary") refresh_btn = gr.Button("Refresh Finished Batches", elem_id="refresh", variant="secondary") status_text = gr.Textbox(placeholder="Job Status", interactive=False, show_label=False) with gr.Row(): active_image_stop_btn = gr.Button("Skip Active Batch", variant="secondary") active_image_refresh_btn = gr.Button("View Batch Progress", variant="secondary") active_image = gr.Image(type="pil", interactive=False, visible=False, elem_id="active_iteration_image") with gr.TabItem("Batch Progress Settings"): with gr.Row(): record_steps_checkbox = gr.Checkbox(value=False, label="Enable Batch Progress Grid") record_steps_interval_slider = gr.Slider( value=3, label="Record Interval (steps)", minimum=1, maximum=25, step=1) with gr.Row() as record_steps_box: steps_to_gallery_checkbox = gr.Checkbox(value=False, label="Save Progress Grid to Gallery") steps_to_file_checkbox = gr.Checkbox(value=False, label="Save Progress Grid to File") with gr.TabItem("Maintenance"): with gr.Row(): gr.Markdown( "Stop all concurrent sessions, or free memory associated with jobs which were finished after the browser was closed") with gr.Row(): stop_all_sessions_btn = gr.Button( "Stop All Sessions", elem_id="stop_all", variant="secondary" ) free_done_sessions_btn = gr.Button( "Clear Finished Jobs", elem_id="clear_finished", variant="secondary" ) return JobManagerUi(_refresh_btn=refresh_btn, _stop_btn=stop_btn, _status_text=status_text, _stop_all_session_btn=stop_all_sessions_btn, _free_done_sessions_btn=free_done_sessions_btn, _active_image=active_image, _active_image_stop_btn=active_image_stop_btn, _active_image_refresh_btn=active_image_refresh_btn, _rec_steps_checkbox=record_steps_checkbox, _save_rec_steps_to_gallery_chkbx=steps_to_gallery_checkbox, _save_rec_steps_to_file_chkbx=steps_to_file_checkbox, _rec_steps_intrvl_sldr=record_steps_interval_slider, _job_manager=self) def clear_all_finished_jobs(self): ''' Removes all currently finished jobs, across all sessions. Useful to free memory if a job is started and the browser is closed before it finishes ''' for session in self._sessions.values(): session.finished_jobs.clear() def stop_all_jobs(self): ''' Stops all active jobs, across all sessions''' for session in self._sessions.values(): for job in session.jobs.values(): job.should_stop.set() job.stop_cur_iter.set() def _get_job_token(self, block: bool = False) -> Optional[int]: ''' Attempts to acquire a job token, optionally blocking until available ''' token = None while token is None: try: token = self._avail_job_tokens.pop() break except IndexError: pass if not block: break # No token and requested to block, so queue up wait_event = Event() self._job_queue.append(QueueItem(wait_event)) wait_event.wait() return token def _release_job_token(self, token: int) -> None: ''' Returns a job token to allow another job to start ''' self._avail_job_tokens.append(token) self._run_queued_jobs() def _refresh_func(self, func_key: FuncKey, session_key: str) -> List[Component]: ''' Updates information from the active job ''' session_info, job_info = self._get_call_info(func_key, session_key) if job_info is None: return [None, f"Session {session_key} was not running function {func_key}"] return [triggerChangeEvent(), job_info.job_status] def _stop_wrapped_func(self, func_key: FuncKey, session_key: str) -> List[Component]: ''' Marks that the job should be stopped''' session_info, job_info = self._get_call_info(func_key, session_key) if job_info is None: return f"Session {session_key} was not running function {func_key}" job_info.should_stop.set() return "Stopping after current batch finishes" def _refresh_cur_iter_func(self, func_key: FuncKey, session_key: str) -> List[Component]: ''' Updates information from the active iteration ''' session_info, job_info = self._get_call_info(func_key, session_key) if job_info is None: return [None, f"Session {session_key} was not running function {func_key}"] job_info.refresh_active_image_requested.set() if job_info.refresh_active_image_done.wait(timeout=20.0): job_info.refresh_active_image_done.clear() return [gr.Image.update(value=job_info.active_image, visible=True), f"Sample iteration {job_info.active_iteration_cnt}"] return [gr.Image.update(visible=False), "Timed out getting image"] def _stop_cur_iter_func(self, func_key: FuncKey, session_key: str) -> List[Component]: ''' Marks that the active iteration should be stopped''' session_info, job_info = self._get_call_info(func_key, session_key) if job_info is None: return [None, f"Session {session_key} was not running function {func_key}"] job_info.stop_cur_iter.set() return [gr.Image.update(visible=False), "Stopping current iteration"] def _get_call_info(self, func_key: FuncKey, session_key: str) -> Tuple[SessionInfo, JobInfo]: ''' Helper to get the SessionInfo and JobInfo. ''' session_info = self._sessions.get(session_key, None) if not session_info: print(f"Couldn't find session {session_key} for call to {func_key}") return None, None job_info = session_info.jobs.get(func_key, None) if not job_info: job_info = session_info.finished_jobs.get(func_key, None) if not job_info: print(f"Couldn't find job {func_key} in session {session_key}") return session_info, None return session_info, job_info def _run_queued_jobs(self) -> None: ''' Runs queued jobs for any available slots ''' if self._avail_job_tokens: try: # Notify next queued job it may begin queue_item = self._job_queue.pop(0) queue_item.wait_event.set() # Check again in a few seconds, just in case the queued # waiter closed the browser while still queued Timer(3.0, self._run_queued_jobs).start() except IndexError: pass # No queued jobs def _pre_call_func( self, func_key: FuncKey, output_dummy_obj: Component, refresh_btn: gr.Button, stop_btn: gr.Button, status_text: gr.Textbox, active_image: gr.Image, active_refresh_btn: gr.Button, active_stop_btn: gr.Button, session_key: str) -> List[Component]: ''' Called when a job is about to start ''' session_info, job_info = self._get_call_info(func_key, session_key) # If we didn't already get a token then queue up for one if job_info.job_token is None: job_info.token = self._get_job_token(block=True) # Buttons don't seem to update unless value is set on them as well... return {output_dummy_obj: triggerChangeEvent(), refresh_btn: gr.Button.update(variant="primary", value=refresh_btn.value), stop_btn: gr.Button.update(variant="primary", value=stop_btn.value), status_text: gr.Textbox.update(value="Generation has started. Click 'Refresh' to see finished images, 'View Batch Progress' for active images"), active_refresh_btn: gr.Button.update(variant="primary", value=active_refresh_btn.value), active_stop_btn: gr.Button.update(variant="primary", value=active_stop_btn.value), } def _call_func(self, func_key: FuncKey, session_key: str) -> List[Component]: ''' Runs the real function with job management. ''' session_info, job_info = self._get_call_info(func_key, session_key) if session_info is None or job_info is None: return [] try: outputs = job_info.func(*job_info.inputs, job_info=job_info) except Exception as e: job_info.job_status = f"Error: {e}" print(f"Exception processing job {job_info}: {e}\n{traceback.format_exc()}") raise # Filter the function output for any removed outputs filtered_output = [] for idx, output in enumerate(outputs): if idx not in job_info.removed_output_idxs: filtered_output.append(output) job_info.finished = True session_info.finished_jobs[func_key] = session_info.jobs.pop(func_key) self._release_job_token(job_info.job_token) # The wrapper added a dummy JSON output. Append a random text string # to fire the dummy objects 'change' event to notify that the job is done filtered_output.append(triggerChangeEvent()) return tuple(filtered_output) def _post_call_func( self, func_key: FuncKey, output_dummy_obj: Component, refresh_btn: gr.Button, stop_btn: gr.Button, status_text: gr.Textbox, active_image: gr.Image, active_refresh_btn: gr.Button, active_stop_btn: gr.Button, session_key: str) -> List[Component]: ''' Called when a job completes ''' return {output_dummy_obj: triggerChangeEvent(), refresh_btn: gr.Button.update(variant="secondary", value=refresh_btn.value), stop_btn: gr.Button.update(variant="secondary", value=stop_btn.value), status_text: gr.Textbox.update(value="Generation has finished!"), active_refresh_btn: gr.Button.update(variant="secondary", value=active_refresh_btn.value), active_stop_btn: gr.Button.update(variant="secondary", value=active_stop_btn.value), active_image: gr.Image.update(visible=False) } def _update_gallery_event(self, func_key: FuncKey, session_key: str) -> List[Component]: ''' Updates the gallery with results from the given job. Frees the images after return if the job is finished. Triggered by changing the update_gallery_obj dummy object ''' session_info, job_info = self._get_call_info(func_key, session_key) if session_info is None or job_info is None: return [] if job_info.finished: session_info.finished_jobs.pop(func_key) return job_info.images def _wrap_func(self, func: Callable, inputs: List[Component], outputs: List[Component], job_ui: JobManagerUi) -> Tuple[Callable, List[Component]]: ''' handles JobManageUI's wrap_func''' assert gr.context.Context.block is not None, "wrap_func must be called within a 'gr.Blocks' 'with' context" # Create a unique key for this job func_key = FuncKey(job_id=uuid.uuid4().hex, func=func) # Create a unique session key (next gradio release can use gr.State, see https://gradio.app/state_in_blocks/) if self._session_key is None: # When this gradio object is received as an event handler input it will resolve to a unique per-session id self._session_key = gr.JSON(value=lambda: uuid.uuid4().hex, visible=False, elem_id="JobManagerDummyObject_sessionKey") # Pull the gallery out of the original outputs and assign it to the gallery update dummy object gallery_comp = None removed_idxs = [] for idx, comp in enumerate(outputs): if isinstance(comp, Gallery): removed_idxs.append(idx) gallery_comp = comp del outputs[idx] break # Create dummy objects update_gallery_obj = gr.JSON(visible=False, elem_id="JobManagerDummyObject") update_gallery_obj.change( partial(self._update_gallery_event, func_key), [self._session_key], [gallery_comp] ) if job_ui._refresh_btn: job_ui._refresh_btn.variant = 'secondary' job_ui._refresh_btn.click( partial(self._refresh_func, func_key), [self._session_key], [update_gallery_obj, job_ui._status_text] ) if job_ui._stop_btn: job_ui._stop_btn.variant = 'secondary' job_ui._stop_btn.click( partial(self._stop_wrapped_func, func_key), [self._session_key], [job_ui._status_text] ) if job_ui._active_image and job_ui._active_image_refresh_btn: job_ui._active_image_refresh_btn.click( partial(self._refresh_cur_iter_func, func_key), [self._session_key], [job_ui._active_image, job_ui._status_text] ) if job_ui._active_image_stop_btn: job_ui._active_image_stop_btn.click( partial(self._stop_cur_iter_func, func_key), [self._session_key], [job_ui._active_image, job_ui._status_text] ) if job_ui._stop_all_session_btn: job_ui._stop_all_session_btn.click( self.stop_all_jobs, [], [] ) if job_ui._free_done_sessions_btn: job_ui._free_done_sessions_btn.click( self.clear_all_finished_jobs, [], [] ) # (ab)use gr.JSON to forward events. # The gr.JSON object will fire its 'change' event when it is modified by being the output # of another component. This allows a method to forward events and allow multiple components # to update the gallery (without locking it). # For example, the update_gallery_obj will update the gallery as in output of its 'change' event. # When its content changes it will update the gallery with the most recent images available from # the JobInfo. Now, eg, testComponent can have update_gallery_obj as an output and write random text # to it. This will trigger an update to the gallery, but testComponent didn't need to have # update_gallery_obj listed as an output, which would have locked it. # Since some parameters are optional it makes sense to use the 'dict' return value type, which requires # the Component as a key... so group together the UI components that the event listeners are going to update # to make it easy to append to function calls and outputs job_ui_params = [job_ui._refresh_btn, job_ui._stop_btn, job_ui._status_text, job_ui._active_image, job_ui._active_image_refresh_btn, job_ui._active_image_stop_btn] job_ui_outputs = [comp for comp in job_ui_params if comp is not None] # Here a chain is constructed that will make a 'pre' call, a 'run' call, and a 'post' call, # to be able to update the UI before and after, as well as run the actual call post_call_dummyobj = gr.JSON(visible=False, elem_id="JobManagerDummyObject_postCall") post_call_dummyobj.change( partial(self._post_call_func, func_key, update_gallery_obj, *job_ui_params), [self._session_key], [update_gallery_obj] + job_ui_outputs ) call_dummyobj = gr.JSON(visible=False, elem_id="JobManagerDummyObject_runCall") call_dummyobj.change( partial(self._call_func, func_key), [self._session_key], outputs + [post_call_dummyobj] ) pre_call_dummyobj = gr.JSON(visible=False, elem_id="JobManagerDummyObject_preCall") pre_call_dummyobj.change( partial(self._pre_call_func, func_key, call_dummyobj, *job_ui_params), [self._session_key], [call_dummyobj] + job_ui_outputs ) # Add any components that we want the runtime values for added_inputs = [self._session_key, job_ui._rec_steps_checkbox, job_ui._save_rec_steps_to_gallery_chkbx, job_ui._save_rec_steps_to_file_chkbx, job_ui._rec_steps_intrvl_sldr] # Now replace the original function with one that creates a JobInfo and triggers the dummy obj def wrapped_func(*wrapped_inputs): # Remove the added_inputs (pop opposite order of list) wrapped_inputs = list(wrapped_inputs) rec_steps_interval: int = wrapped_inputs.pop() save_rec_steps_file: bool = wrapped_inputs.pop() save_rec_steps_grid: bool = wrapped_inputs.pop() record_steps_enabled: bool = wrapped_inputs.pop() session_key: str = wrapped_inputs.pop() job_inputs = tuple(wrapped_inputs) # Get or create a session for this key session_info = self._sessions.setdefault(session_key, SessionInfo()) # Is this session already running this job? if func_key in session_info.jobs: return {job_ui._status_text: "This session is already running that function!"} job_token = self._get_job_token(block=False) job = JobInfo( inputs=job_inputs, func=func, removed_output_idxs=removed_idxs, session_key=session_key, job_token=job_token, rec_steps_enabled=record_steps_enabled, rec_steps_intrvl=rec_steps_interval, rec_steps_to_gallery=save_rec_steps_grid, rec_steps_to_file=save_rec_steps_file) session_info.jobs[func_key] = job ret = {pre_call_dummyobj: triggerChangeEvent()} if job_token is None: ret[job_ui._status_text] = "Job is queued" return ret return wrapped_func, inputs + added_inputs, [pre_call_dummyobj, job_ui._status_text]