FFMPEG path fixes for ffprobe

EngineManager renaming and refactoring
More window improvements
2026-04-25 13:54:55 -05:00 · 2026-01-06 23:49:22 -06:00 · 2026-01-06 23:48:49 -06:00 · 2026-01-06 21:50:41 -06:00 · 2026-01-06 19:33:46 -06:00 · 2026-01-06 03:45:19 -06:00
56 changed files with 4458 additions and 2056 deletions
@@ -0,0 +1,11 @@
 [flake8]
 exclude =
    src/engines/aerender
    .git
    build
    dist
    *.egg
    venv
    .venv
 max-complexity = 10
 max-line-length = 127
@@ -0,0 +1,38 @@
 name: Create Executables
 on:
  workflow_dispatch:
  release:
    - types: [created]
 jobs:
  pyinstaller-build-windows:
    runs-on: windows-latest
    steps:
      - name: Create Executables (Windows)
        uses: sayyid5416/pyinstaller@v1
        with:
          python_ver: '3.11'
          spec: 'client.spec'
          requirements: 'requirements.txt'
          upload_exe_with_name: 'Zordon'
  pyinstaller-build-linux:
    runs-on: ubuntu-latest
    steps:
      - name: Create Executables (Linux)
        uses: sayyid5416/pyinstaller@v1
        with:
          python_ver: '3.11'
          spec: 'client.spec'
          requirements: 'requirements.txt'
          upload_exe_with_name: 'Zordon'
  pyinstaller-build-macos:
    runs-on: macos-latest
    steps:
      - name: Create Executables (macOS)
        uses: sayyid5416/pyinstaller@v1
        with:
          python_ver: '3.11'
          spec: 'client.spec'
          requirements: 'requirements.txt'
          upload_exe_with_name: 'Zordon'
@@ -1,23 +0,0 @@
 name: Pylint
 on: [push]
 jobs:
  build:
    runs-on: ubuntu-latest
    strategy:
      matrix:
        python-version: ["3.10", "3.11", "3.12"]
    steps:
    - uses: actions/checkout@v3
    - name: Set up Python ${{ matrix.python-version }}
      uses: actions/setup-python@v3
      with:
        python-version: ${{ matrix.python-version }}
    - name: Install dependencies
      run: |
        python -m pip install --upgrade pip
        pip install pylint
    - name: Analysing the code with pylint
      run: |
        pylint $(git ls-files '*.py')
@@ -34,6 +34,7 @@ jobs:
        flake8 . --count --select=E9,F63,F7,F82 --show-source --statistics
        # exit-zero treats all errors as warnings. The GitHub editor is 127 chars wide
        flake8 . --count --exit-zero --max-complexity=10 --max-line-length=127 --statistics
-    - name: Test with pytest
+      continue-on-error: false
-      run: |
+    # - name: Test with pytest
-        pytest
+    #   run: |
    #     pytest
@@ -6,3 +6,11 @@
 /dist/
 /build/
 /.github/
 *.idea
 .DS_Store
 /venv/
 .env
 venv/
 /.eggs/
 /.ai/
 /.github/
@@ -1,4 +1,5 @@
 [MASTER]
 max-line-length = 120
 ignore-paths=^src/engines/aerender/
 [MESSAGES CONTROL]
 disable = missing-docstring, invalid-name, import-error, logging-fstring-interpolation
@@ -1,14 +1,46 @@
-# 🎬 Zordon - Render Management Tools
+![Zordon Screenshot](docs/screenshot.png)
-Welcome to Zordon! It's a local network render farm manager, aiming to streamline and simplify the rendering process across multiple home computers.
+---
-## 📦 Installation
+# Zordon
-Install the necessary dependencies: `pip3 install -r requirements.txt`
+A lightweight, zero-install, distributed rendering and management tool designed to streamline and optimize rendering workflows across multiple machines
-## 🎨 Supported Renderers
+## What is Zordon?
-Zordon currently supports the following renderers:
+Zordon is tool designed for small render farms, such as those used in home studios or small businesses, to efficiently manage and run render jobs for Blender, FFMPEG, and other video renderers. It simplifies the process of distributing rendering tasks across multiple available machines, optimizing the rendering workflow for artists, animators, and video professionals.
 Notice: This should be considered a beta and is meant for casual / hobbiest use. Do not use in mission critical environments!
 ## Supported Renderers
 Zordon supports or plans to support the following renderers:
 - **Blender**
 - **FFMPEG**
 - **Adobe After Effects** ([coming soon](https://github.com/blw1138/Zordon/issues/84))
 - **Cinema 4D** ([planned](https://github.com/blw1138/Zordon/issues/105))
 - **Autodesk Maya** ([planned](https://github.com/blw1138/Zordon/issues/106))
 ## System Requirements
 - Windows 10 or later
 - macOS Ventura (13.0) or later
 - Linux (Supported versions TBD)
 ## Build using Pyinstaller
 Zordon is regularly tested with Python 3.11 and later. It's packaged and distributed with pyinstaller. It is supported on Windows, macOS and Linux.
 ```
 git clone https://github.com/blw1138/Zordon.git
 pip3 install -r requirements.txt
 pip3 install pyinstaller
 pip3 install pyinstaller_versionfile
 pyinstaller main.spec
 ```
 ## License
 Zordon is licensed under the MIT License. See the [LICENSE](LICENSE.txt) file for more details.
@@ -0,0 +1,131 @@
 #!/usr/bin/env python3
 import argparse
 import logging
 import os
 import socket
 import sys
 import time
 from server import ZordonServer
 from src.api.serverproxy_manager import ServerProxyManager
 logger = logging.getLogger()
 def main():
    parser = argparse.ArgumentParser(
        description="Zordon CLI tool for preparing/submitting a render job",
        formatter_class=argparse.ArgumentDefaultsHelpFormatter
    )
    # Required arguments
    parser.add_argument("scene_file", help="Path to the scene file (e.g., .blend, .max, .mp4)")
    parser.add_argument("engine", help="Desired render engine", choices=['blender', 'ffmpeg'])
    # Frame range
    parser.add_argument("--start", type=int, default=1, help="Start frame")
    parser.add_argument("--end", type=int, default=1, help="End frame")
    # Job metadata
    parser.add_argument("--name", default=None, help="Job name")
    # Output
    parser.add_argument("--output", default="", help="Output path/pattern (e.g., /renders/frame_####.exr)")
    # Target OS and Engine Version
    parser.add_argument(
        "--os",
        choices=["any", "windows", "linux", "macos"],
        default="any",
        help="Target operating system for render workers"
    )
    parser.add_argument(
        "--engine-version",
        default="latest",
        help="Required renderer/engine version number (e.g., '4.2', '5.0')"
    )
    # Optional flags
    parser.add_argument("--dry-run", action="store_true", help="Print job details without submitting")
    args = parser.parse_args()
    # Basic validation
    if not os.path.exists(args.scene_file):
        print(f"Error: Scene file '{args.scene_file}' not found!", file=sys.stderr)
        sys.exit(1)
    if args.start > args.end:
        print("Error: Start frame cannot be greater than end frame!", file=sys.stderr)
        sys.exit(1)
    # Calculate total frames
    total_frames = len(range(args.start, args.end + 1))
    job_name = args.name or os.path.basename(args.scene_file)
    file_path = os.path.abspath(args.scene_file)
    # Print job summary
    print("Render Job Summary:")
    print(f"  Job Name         : {job_name}")
    print(f"  Scene File       : {file_path}")
    print(f"  Engine           : {args.engine}")
    print(f"  Frames           : {args.start}-{args.end} → {total_frames} frames")
    print(f"  Output Path      : {args.output or '(default from scene)'}")
    print(f"  Target OS        : {args.os}")
    print(f"  Engine Version   : {args.engine_version}")
    if args.dry_run:
        print("\nDry run complete (no submission performed).")
        return
    local_hostname = socket.gethostname()
    local_hostname = local_hostname + (".local" if not local_hostname.endswith(".local") else "")
    found_proxy = ServerProxyManager.get_proxy_for_hostname(local_hostname)
    is_connected = found_proxy.check_connection()
    adhoc_server = None
    if not is_connected:
        adhoc_server = ZordonServer()
        adhoc_server.start_server()
        found_proxy = ServerProxyManager.get_proxy_for_hostname(adhoc_server.server_hostname)
        while not is_connected:
            # todo: add timeout
            is_connected = found_proxy.check_connection()
            time.sleep(1)
    new_job = {"name": job_name, "engine_name": args.engine}
    try:
        response = found_proxy.post_job_to_server(file_path, new_job)
    except Exception as e:
        print(f"Error creating job: {e}")
        exit(1)
    if response and response.ok:
        print(f"Uploaded to {found_proxy.hostname} successfully!")
        running_job_data = response.json()
        job_id = running_job_data.get('id')
        print(f"Job {job_id} Summary:")
        print(f"  Status           : {running_job_data.get('status')}")
        print(f"  Engine           : {running_job_data.get('engine_name')}-{running_job_data.get('engine_version')}")
        print("\nWaiting for render to complete...")
        percent_complete = 0.0
        while percent_complete < 1.0:
            # add checks for errors
            time.sleep(1)
            running_job_data = found_proxy.get_job_info(job_id)
            percent_complete = running_job_data['percent_complete']
            sys.stdout.write("\x1b[1A")  # Move up 1
            sys.stdout.write("\x1b[0J")  # Clear from cursor to end of screen (optional)
            print(f"Percent Complete: {percent_complete:.2%}")
            sys.stdout.flush()
        print("Finished rendering successfully!")
    else:
        print(f"Failed to upload job. {response.text} !")
    if adhoc_server:
        adhoc_server.stop_server()
 if __name__ == "__main__":
    main()
@@ -0,0 +1,77 @@
 #!/usr/bin/env python3
 import logging
 import threading
 from collections import deque
 from server import ZordonServer
 logger = logging.getLogger()
 def __setup_buffer_handler():
    # lazy load GUI frameworks
    from PyQt6.QtCore import QObject, pyqtSignal
    class BufferingHandler(logging.Handler, QObject):
        new_record = pyqtSignal(str)
        flushOnClose = True
        def __init__(self, capacity=100):
            logging.Handler.__init__(self)
            QObject.__init__(self)
            self.buffer = deque(maxlen=capacity)  # Define a buffer with a fixed capacity
        def emit(self, record):
            try:
                msg = self.format(record)
                self.buffer.append(msg)  # Add message to the buffer
                self.new_record.emit(msg)  # Emit signal
            except RuntimeError:
                pass
        def get_buffer(self):
            return list(self.buffer)  # Return a copy of the buffer
    buffer_handler = BufferingHandler()
    buffer_handler.setFormatter(logging.getLogger().handlers[0].formatter)
    new_logger = logging.getLogger()
    new_logger.addHandler(buffer_handler)
    return buffer_handler
 def __show_gui(buffer_handler):
    # lazy load GUI frameworks
    from PyQt6.QtWidgets import QApplication
    # load application
    app: QApplication = QApplication(sys.argv)
    if app.style().objectName() != 'macos':
        app.setStyle('Fusion')
    # configure main window
    from src.ui.main_window import MainWindow
    window: MainWindow = MainWindow()
    window.buffer_handler = buffer_handler
    window.show()
    exit_code = app.exec()
    # cleanup: remove and close the GUI logging handler before interpreter shutdown
    root_logger = logging.getLogger()
    if buffer_handler in root_logger.handlers:
        root_logger.removeHandler(buffer_handler)
    try:
        buffer_handler.close()
    except Exception:
        # never let logging cleanup throw during shutdown
        pass
    return exit_code
 if __name__ == '__main__':
    import sys
    server = ZordonServer()
    server.start_server()
    __show_gui(__setup_buffer_handler())
    server.stop_server()
    sys.exit()
@@ -0,0 +1,121 @@
 # -*- mode: python ; coding: utf-8 -*-
 from PyInstaller.utils.hooks import collect_all
 # - get version from version file
 import os
 import sys
 import platform
 src_path = os.path.abspath("src")
 sys.path.insert(0, src_path)
 from version import APP_NAME, APP_VERSION, APP_AUTHOR
 sys.path.insert(0, os.path.abspath('.'))
 datas = [('resources', 'resources'), ('src/engines/blender/scripts/', 'src/engines/blender/scripts')]
 binaries = []
 hiddenimports = ['zeroconf']
 tmp_ret = collect_all('zeroconf')
 datas += tmp_ret[0]; binaries += tmp_ret[1]; hiddenimports += tmp_ret[2]
 a = Analysis(
    ['client.py'],
    pathex=[],
    binaries=binaries,
    datas=datas,
    hiddenimports=hiddenimports,
    hookspath=[],
    hooksconfig={},
    runtime_hooks=[],
    excludes=[],
    noarchive=False,
    optimize=1,  # fyi: optim level 2 breaks on windows
 )
 pyz = PYZ(a.pure)
 if platform.system() == 'Darwin':  # macOS
    exe = EXE(
        pyz,
        a.scripts,
        [],
        exclude_binaries=True,
        name=APP_NAME,
        debug=False,
        bootloader_ignore_signals=False,
        strip=True,
        upx=True,
        console=False,
        disable_windowed_traceback=False,
        argv_emulation=False,
        target_arch=None,
        codesign_identity=None,
        entitlements_file=None,
    )
    app = BUNDLE(
        exe,
        a.binaries,
        a.datas,
        strip=True,
        name=f'{APP_NAME}.app',
        icon='resources/Server.png',
        bundle_identifier=None,
        version=APP_VERSION
    )
 elif platform.system() == 'Windows':
    import pyinstaller_versionfile
    import tempfile
    version_file_path = os.path.join(tempfile.gettempdir(), 'versionfile.txt')
    pyinstaller_versionfile.create_versionfile(
        output_file=version_file_path,
        version=APP_VERSION,
        company_name=APP_AUTHOR,
        file_description=APP_NAME,
        internal_name=APP_NAME,
        legal_copyright=f"© {APP_AUTHOR}",
        original_filename=f"{APP_NAME}.exe",
        product_name=APP_NAME
    )
    exe = EXE(
        pyz,
        a.scripts,
        a.binaries,
        a.datas,
        [],
        name=APP_NAME,
        debug=False,
        bootloader_ignore_signals=False,
        strip=True,
        upx=True,
        console=False,
        disable_windowed_traceback=False,
        argv_emulation=False,
        target_arch=None,
        codesign_identity=None,
        entitlements_file=None,
        version=version_file_path
    )
 else:  # linux
    exe = EXE(
        pyz,
        a.scripts,
        a.binaries,
        a.datas,
        [],
        name=APP_NAME,
        debug=False,
        bootloader_ignore_signals=False,
        strip=True,
        upx=True,
        console=False,
        disable_windowed_traceback=False,
        argv_emulation=False,
        target_arch=None,
        codesign_identity=None,
        entitlements_file=None
    )
@@ -3,7 +3,7 @@ update_engines_on_launch: true
 max_content_path: 100000000
 server_log_level: info
 log_buffer_length: 250
-subjob_connection_timeout: 120
+worker_process_timeout: 120
 flask_log_level: error
 flask_debug_enable: false
 queue_eval_seconds: 1
@@ -1,7 +0,0 @@
 #!/usr/bin/env python3
 from src import init
 if __name__ == '__main__':
    import sys
    sys.exit(init.run())
@@ -0,0 +1,2 @@
 [pytest]
 norecursedirs = src/engines/aerender .git build dist *.egg venv .venv env .env __pycache__ .pytest_cache
@@ -1,37 +1,20 @@
-PyQt6>=6.6.1
+PyQt6>=6.7.0
 psutil>=5.9.8
-requests>=2.31.0
+requests>=2.32.2
-Pillow>=10.2.0
+Pillow>=10.3.0
 PyYAML>=6.0.1
-flask>=3.0.2
+flask>=3.0.3
-tqdm>=4.66.2
+tqdm>=4.66.4
-werkzeug>=3.0.1
+werkzeug>=3.0.3
 Pypubsub>=4.0.3
-zeroconf>=0.131.0
+zeroconf>=0.132.2
-SQLAlchemy>=2.0.25
+SQLAlchemy>=2.0.30
 plyer>=2.1.0
-pytz>=2023.3.post1
+rich>=13.7.1
-future>=0.18.3
+setuptools>=70.0.0
-rich>=13.7.0
+py-cpuinfo>=9.0.0
-pytest>=8.0.0
+requests-toolbelt>=1.0.0
-numpy>=1.26.3
+PyQt6-sip>=13.6.0
-setuptools>=69.0.3
+humanize>=4.12.1
-pandas>=2.2.0
+macholib>=1.16.3
-matplotlib>=3.8.2
+altgraph>=0.17.4
 MarkupSafe>=2.1.4
 dmglib>=0.9.5; sys_platform == 'darwin'
 python-dateutil>=2.8.2
 certifi>=2023.11.17
 shiboken6>=6.6.1
 Pygments>=2.17.2
 cycler>=0.12.1
 contourpy>=1.2.0
 packaging>=23.2
 fonttools>=4.47.2
 Jinja2>=3.1.3
 pyparsing>=3.1.1
 kiwisolver>=1.4.5
 attrs>=23.2.0
 lxml>=5.1.0
 click>=8.1.7
 requests_toolbelt>=1.0.0
@@ -1,5 +1,127 @@
-#!/usr/bin/env python3
+import logging
-from src.api.api_server import start_server
+import multiprocessing
 import os
 import socket
 import threading
 import psutil
 from src.api.api_server import API_VERSION
 from src.api.api_server import start_api_server
 from src.api.preview_manager import PreviewManager
 from src.api.serverproxy_manager import ServerProxyManager
 from src.distributed_job_manager import DistributedJobManager
 from src.engines.engine_manager import EngineManager
 from src.render_queue import RenderQueue
 from src.utilities.config import Config
 from src.utilities.misc_helper import (get_gpu_info, system_safe_path, current_system_cpu, current_system_os,
                                       current_system_os_version, current_system_cpu_brand, check_for_updates)
 from src.utilities.zeroconf_server import ZeroconfServer
 from src.version import APP_NAME, APP_VERSION
 logger = logging.getLogger()
 class ZordonServer:
    def __init__(self):
        # setup logging
        logging.basicConfig(format='%(asctime)s: %(levelname)s: %(module)s: %(message)s', datefmt='%d-%b-%y %H:%M:%S',
                            level=Config.server_log_level.upper())
        logging.getLogger("requests").setLevel(logging.WARNING)  # suppress noisy requests/urllib3 logging
        logging.getLogger("urllib3").setLevel(logging.WARNING)
        # Load Config YAML
        Config.setup_config_dir()
        Config.load_config(system_safe_path(os.path.join(Config.config_dir(), 'config.yaml')))
        # configure default paths
        EngineManager.engines_path = system_safe_path(
            os.path.join(os.path.join(os.path.expanduser(Config.upload_folder),
                                      'engines')))
        os.makedirs(EngineManager.engines_path, exist_ok=True)
        PreviewManager.storage_path = system_safe_path(
            os.path.join(os.path.expanduser(Config.upload_folder), 'previews'))
        self.api_server = None
        self.server_hostname = None
    def start_server(self):
        def existing_process(process_name):
            import psutil
            current_pid = os.getpid()
            current_process = psutil.Process(current_pid)
            for proc in psutil.process_iter(['pid', 'name', 'ppid']):
                proc_name = proc.info['name'].lower().rstrip('.exe')
                if proc_name == process_name.lower() and proc.info['pid'] != current_pid:
                    if proc.info['pid'] == current_process.ppid():
                        continue  # parent process
                    elif proc.info['ppid'] == current_pid:
                        continue  # child process
                    else:
                        return proc  # unrelated process
            return None
        # check for existing instance
        existing_proc = existing_process(APP_NAME)
        if existing_proc:
            err_msg = f"Another instance of {APP_NAME} is already running (pid: {existing_proc.pid})"
            logger.fatal(err_msg)
            raise ProcessLookupError(err_msg)
        # main start
        logger.info(f"Starting {APP_NAME} Render Server ({APP_VERSION})")
        logger.debug(f"Upload directory: {os.path.expanduser(Config.upload_folder)}")
        logger.debug(f"Thumbs directory: {PreviewManager.storage_path}")
        logger.debug(f"Engines directory: {EngineManager.engines_path}")
        # Set up the RenderQueue object
        RenderQueue.load_state(database_directory=system_safe_path(os.path.expanduser(Config.upload_folder)))
        ServerProxyManager.subscribe_to_listener()
        DistributedJobManager.subscribe_to_listener()
        # get hostname
        self.server_hostname = socket.gethostname()
        # configure and start API server
        self.api_server = threading.Thread(target=start_api_server, args=(self.server_hostname,))
        self.api_server.daemon = True
        self.api_server.start()
        # start zeroconf server
        ZeroconfServer.configure(f"_{APP_NAME.lower()}._tcp.local.", self.server_hostname, Config.port_number)
        ZeroconfServer.properties = {'system_cpu': current_system_cpu(),
                                     'system_cpu_brand': current_system_cpu_brand(),
                                     'system_cpu_cores': multiprocessing.cpu_count(),
                                     'system_os': current_system_os(),
                                     'system_os_version': current_system_os_version(),
                                     'system_memory': round(psutil.virtual_memory().total / (1024**3)),  # in GB
                                     'gpu_info': get_gpu_info(),
                                     'api_version': API_VERSION}
        ZeroconfServer.start()
        logger.info(f"{APP_NAME} Render Server started - Hostname: {self.server_hostname}")
        RenderQueue.start()  # Start evaluating the render queue
    def is_running(self):
        return self.api_server and self.api_server.is_alive()
    def stop_server(self):
        logger.info(f"{APP_NAME} Render Server is preparing to stop")
        try:
            ZeroconfServer.stop()
            RenderQueue.prepare_for_shutdown()
        except Exception as e:
            logger.exception(f"Exception during prepare for shutdown: {e}")
        logger.info(f"{APP_NAME} Render Server has shut down")
 if __name__ == '__main__':
-    start_server()
+    server = ZordonServer()
    try:
        server.start_server()
        server.api_server.join()
    except KeyboardInterrupt:
        pass
    except Exception as e:
        logger.fatal(f"Unhandled exception: {e}")
    finally:
        server.stop_server()
@@ -0,0 +1,90 @@
 # -*- mode: python ; coding: utf-8 -*-
 from PyInstaller.utils.hooks import collect_all
 # - get version from version file
 import os
 import sys
 import platform
 sys.path.insert(0, os.path.abspath('.'))
 from version import APP_NAME, APP_VERSION, APP_AUTHOR
 APP_NAME = APP_NAME + " Server"
 datas = [('resources', 'resources'), ('src/engines/blender/scripts/', 'src/engines/blender/scripts')]
 binaries = []
 hiddenimports = ['zeroconf']
 tmp_ret = collect_all('zeroconf')
 datas += tmp_ret[0]; binaries += tmp_ret[1]; hiddenimports += tmp_ret[2]
 a = Analysis(
    ['server.py'],
    pathex=[],
    binaries=binaries,
    datas=datas,
    hiddenimports=hiddenimports,
    hookspath=[],
    hooksconfig={},
    runtime_hooks=[],
    excludes=[],
    noarchive=False,
    optimize=1,  # fyi: optim level 2 breaks on windows
 )
 pyz = PYZ(a.pure)
 if platform.system() == 'Windows':
    import pyinstaller_versionfile
    import tempfile
    version_file_path = os.path.join(tempfile.gettempdir(), 'versionfile.txt')
    pyinstaller_versionfile.create_versionfile(
        output_file=version_file_path,
        version=APP_VERSION,
        company_name=APP_AUTHOR,
        file_description=APP_NAME,
        internal_name=APP_NAME,
        legal_copyright=f"© {APP_AUTHOR}",
        original_filename=f"{APP_NAME}.exe",
        product_name=APP_NAME
    )
    exe = EXE(
        pyz,
        a.scripts,
        a.binaries,
        a.datas,
        [],
        name=APP_NAME,
        debug=False,
        bootloader_ignore_signals=False,
        strip=True,
        upx=True,
        console=True,
        disable_windowed_traceback=False,
        argv_emulation=False,
        target_arch=None,
        codesign_identity=None,
        entitlements_file=None,
        version=version_file_path
    )
 else:  # linux / macOS
    exe = EXE(
        pyz,
        a.scripts,
        a.binaries,
        a.datas,
        [],
        name=APP_NAME,
        debug=False,
        bootloader_ignore_signals=False,
        strip=True,
        upx=True,
        console=False,
        disable_windowed_traceback=False,
        argv_emulation=False,
        target_arch=None,
        codesign_identity=None,
        entitlements_file=None
    )
@@ -1,22 +0,0 @@
 """
 This is a setup.py script generated by py2applet
 Usage:
    python setup.py py2app
 """
 import glob
 from setuptools import setup
 APP = ['main.py']
 DATA_FILES = [('config', glob.glob('config/*.*')),
              ('resources', glob.glob('resources/*.*'))]
 OPTIONS = {}
 setup(
    app=APP,
    data_files=DATA_FILES,
    options={'py2app': OPTIONS},
    setup_requires=['py2app'],
    name='Zordon'
 )
@@ -1,151 +0,0 @@
 #!/usr/bin/env python3
 import logging
 import os
 import shutil
 import tempfile
 import zipfile
 from datetime import datetime
 import requests
 from tqdm import tqdm
 from werkzeug.utils import secure_filename
 logger = logging.getLogger()
 def handle_uploaded_project_files(request, jobs_list, upload_directory):
    """
    Handles the uploaded project files.
    This method takes a request with a file, a list of jobs, and an upload directory. It checks if the file was uploaded
    directly, if it needs to be downloaded from a URL, or if it's already present on the local file system. It then
    moves the file to the appropriate directory and returns the local path to the file and its name.
    Args:
        request (Request): The request object containing the file.
        jobs_list (list): A list of jobs. The first job in the list is used to get the file's URL and local path.
        upload_directory (str): The directory where the file should be uploaded.
    Raises:
        ValueError: If no valid project paths are found.
    Returns:
        tuple: A tuple containing the local path to the loaded project file and its name.
    """
    # Initialize default values
    loaded_project_local_path = None
    uploaded_project = request.files.get('file', None)
    project_url = jobs_list[0].get('url', None)
    local_path = jobs_list[0].get('local_path', None)
    renderer = jobs_list[0].get('renderer')
    downloaded_file_url = None
    if uploaded_project and uploaded_project.filename:
        referred_name = os.path.basename(uploaded_project.filename)
    elif project_url:
        referred_name, downloaded_file_url = download_project_from_url(project_url)
        if not referred_name:
            raise ValueError(f"Error downloading file from URL: {project_url}")
    elif local_path and os.path.exists(local_path):
        referred_name = os.path.basename(local_path)
    else:
        raise ValueError("Cannot find any valid project paths")
    # Prepare the local filepath
    cleaned_path_name = os.path.splitext(referred_name)[0].replace(' ', '_')
    job_dir = os.path.join(upload_directory, '-'.join(
        [datetime.now().strftime("%Y.%m.%d_%H.%M.%S"), renderer, cleaned_path_name]))
    os.makedirs(job_dir, exist_ok=True)
    project_source_dir = os.path.join(job_dir, 'source')
    os.makedirs(project_source_dir, exist_ok=True)
    # Move projects to their work directories
    if uploaded_project and uploaded_project.filename:
        loaded_project_local_path = os.path.join(project_source_dir, secure_filename(uploaded_project.filename))
        uploaded_project.save(loaded_project_local_path)
        logger.info(f"Transfer complete for {loaded_project_local_path.split(upload_directory)[-1]}")
    elif project_url:
        loaded_project_local_path = os.path.join(project_source_dir, referred_name)
        shutil.move(downloaded_file_url, loaded_project_local_path)
        logger.info(f"Download complete for {loaded_project_local_path.split(upload_directory)[-1]}")
    elif local_path:
        loaded_project_local_path = os.path.join(project_source_dir, referred_name)
        shutil.copy(local_path, loaded_project_local_path)
        logger.info(f"Import complete for {loaded_project_local_path.split(upload_directory)[-1]}")
    return loaded_project_local_path, referred_name
 def download_project_from_url(project_url):
    # This nested function is to handle downloading from a URL
    logger.info(f"Downloading project from url: {project_url}")
    referred_name = os.path.basename(project_url)
    try:
        response = requests.get(project_url, stream=True)
        if response.status_code == 200:
            # Get the total file size from the "Content-Length" header
            file_size = int(response.headers.get("Content-Length", 0))
            # Create a progress bar using tqdm
            progress_bar = tqdm(total=file_size, unit="B", unit_scale=True)
            # Open a file for writing in binary mode
            downloaded_file_url = os.path.join(tempfile.gettempdir(), referred_name)
            with open(downloaded_file_url, "wb") as file:
                for chunk in response.iter_content(chunk_size=1024):
                    if chunk:
                        # Write the chunk to the file
                        file.write(chunk)
                        # Update the progress bar
                        progress_bar.update(len(chunk))
            # Close the progress bar
            progress_bar.close()
            return referred_name, downloaded_file_url
    except Exception as e:
        logger.error(f"Error downloading file: {e}")
    return None, None
 def process_zipped_project(zip_path):
    """
    Processes a zipped project.
    This method takes a path to a zip file, extracts its contents, and returns the path to the extracted project file.
    If the zip file contains more than one project file or none, an error is raised.
    Args:
        zip_path (str): The path to the zip file.
    Raises:
        ValueError: If there's more than 1 project file or none in the zip file.
    Returns:
        str: The path to the main project file.
    """
    work_path = os.path.dirname(zip_path)
    try:
        with zipfile.ZipFile(zip_path, 'r') as myzip:
            myzip.extractall(work_path)
        project_files = [x for x in os.listdir(work_path) if os.path.isfile(os.path.join(work_path, x))]
        project_files = [x for x in project_files if '.zip' not in x]
        logger.debug(f"Zip files: {project_files}")
        # supported_exts = RenderWorkerFactory.class_for_name(renderer).engine.supported_extensions
        # if supported_exts:
        #     project_files = [file for file in project_files if any(file.endswith(ext) for ext in supported_exts)]
        # If there's more than 1 project file or none, raise an error
        if len(project_files) != 1:
            raise ValueError(f'Cannot find a valid project file in {os.path.basename(zip_path)}')
        extracted_project_path = os.path.join(work_path, project_files[0])
        logger.info(f"Extracted zip file to {extracted_project_path}")
    except (zipfile.BadZipFile, zipfile.LargeZipFile) as e:
        logger.error(f"Error processing zip file: {e}")
        raise ValueError(f"Error processing zip file: {e}")
    return extracted_project_path
@@ -2,138 +2,98 @@
 import concurrent.futures
 import json
 import logging
 import multiprocessing
 import os
 import pathlib
 import shutil
 import socket
 import ssl
 import tempfile
 import threading
 import time
 from datetime import datetime
 from zipfile import ZipFile
 import cpuinfo
 import psutil
 import yaml
-from flask import Flask, request, send_file, after_this_request, Response, redirect, url_for, abort
+from flask import Flask, request, send_file, after_this_request, Response, redirect, url_for
 from sqlalchemy.orm.exc import DetachedInstanceError
-from src.api.add_job_helpers import handle_uploaded_project_files, process_zipped_project
+from src.api.job_import_handler import JobImportHandler
-from src.api.serverproxy_manager import ServerProxyManager
+from src.api.preview_manager import PreviewManager
 from src.distributed_job_manager import DistributedJobManager
 from src.engines.core.base_worker import string_to_status, RenderStatus
 from src.engines.engine_manager import EngineManager
 from src.render_queue import RenderQueue, JobNotFoundError
 from src.utilities.config import Config
 from src.utilities.misc_helper import system_safe_path, current_system_os, current_system_cpu, \
-    current_system_os_version, num_to_alphanumeric
+    current_system_os_version, num_to_alphanumeric, get_gpu_info
-from src.utilities.server_helper import generate_thumbnail_for_job
+from src.utilities.status_utils import string_to_status
-from src.utilities.zeroconf_server import ZeroconfServer
+from src.version import APP_VERSION
 from src.utilities.benchmark import cpu_benchmark, disk_io_benchmark
 logger = logging.getLogger()
 server = Flask(__name__)
 ssl._create_default_https_context = ssl._create_unverified_context  # disable SSL for downloads
-categories = [RenderStatus.RUNNING, RenderStatus.ERROR, RenderStatus.NOT_STARTED, RenderStatus.SCHEDULED,
+API_VERSION = "0.1"
-              RenderStatus.COMPLETED, RenderStatus.CANCELLED]
+
 def start_api_server(hostname=None):
    # get hostname
    if not hostname:
        local_hostname = socket.gethostname()
        hostname = local_hostname + (".local" if not local_hostname.endswith(".local") else "")
    # load flask settings
    server.config['HOSTNAME'] = hostname
    server.config['PORT'] = int(Config.port_number)
    server.config['UPLOAD_FOLDER'] = system_safe_path(os.path.expanduser(Config.upload_folder))
    server.config['MAX_CONTENT_PATH'] = Config.max_content_path
    server.config['enable_split_jobs'] = Config.enable_split_jobs
    # disable most Flask logging
    flask_log = logging.getLogger('werkzeug')
    flask_log.setLevel(Config.flask_log_level.upper())
    logger.debug('Starting API server')
    try:
        server.run(host=hostname, port=server.config['PORT'], debug=Config.flask_debug_enable, use_reloader=False,
                   threaded=True)
    finally:
        logger.debug('Stopping API server')
-def sorted_jobs(all_jobs, sort_by_date=True):
+# --------------------------------------------
-    if not sort_by_date:
+# Get All Jobs
-        sorted_job_list = []
+# --------------------------------------------
        if all_jobs:
            for status_category in categories:
                found_jobs = [x for x in all_jobs if x.status == status_category.value]
                if found_jobs:
                    sorted_found_jobs = sorted(found_jobs, key=lambda d: d.date_created, reverse=True)
                    sorted_job_list.extend(sorted_found_jobs)
    else:
        sorted_job_list = sorted(all_jobs, key=lambda d: d.date_created, reverse=True)
    return sorted_job_list
@server.get('/api/jobs')
 def jobs_json():
-    try:
+    """Retrieves all jobs from the render queue in JSON format.
-        all_jobs = [x.json() for x in RenderQueue.all_jobs()]
+
-        job_cache_int = int(json.dumps(all_jobs).__hash__())
+    This endpoint fetches all jobs currently in the render queue, converts them to JSON format,
-        job_cache_token = num_to_alphanumeric(job_cache_int)
+    and returns them along with a cache token that represents the current state of the job list.
-        return {'jobs': all_jobs, 'token': job_cache_token}
+
-    except Exception as e:
+    Returns:
-        logger.exception(f"Exception fetching jobs_json: {e}")
+        dict: A dictionary containing:
-    return {}, 500
+            - 'jobs' (list[dict]): A list of job dictionaries, each representing a job in the queue.
            - 'token' (str): A cache token generated from the hash of the job list.
    """
    all_jobs = [x.json() for x in RenderQueue.all_jobs()]
    job_cache_int = int(json.dumps(all_jobs).__hash__())
    job_cache_token = num_to_alphanumeric(job_cache_int)
    return {'jobs': all_jobs, 'token': job_cache_token}
@server.get('/api/jobs_long_poll')
 def long_polling_jobs():
-    try:
+    hash_token = request.args.get('token', None)
-        hash_token = request.args.get('token', None)
+    start_time = time.time()
-        start_time = time.time()
+    while True:
-        while True:
+        all_jobs = jobs_json()
-            all_jobs = jobs_json()
+        if all_jobs['token'] != hash_token:
-            if all_jobs['token'] != hash_token:
+            return all_jobs
-                return all_jobs
+        # Break after 30 seconds to avoid gateway timeout
-            # Break after 30 seconds to avoid gateway timeout
+        if time.time() - start_time > 30:
-            if time.time() - start_time > 30:
+            return {}, 204
-                return {}, 204
+        time.sleep(1)
            time.sleep(1)
    except Exception as e:
        logger.exception(f"Exception fetching long_polling_jobs: {e}")
    return {}, 500
@server.route('/api/job/<job_id>/thumbnail')
 def job_thumbnail(job_id):
    big_thumb = request.args.get('size', False) == "big"
    video_ok = request.args.get('video_ok', False)
    found_job = RenderQueue.job_with_id(job_id, none_ok=True)
    if found_job:
        os.makedirs(server.config['THUMBS_FOLDER'], exist_ok=True)
        thumb_video_path = os.path.join(server.config['THUMBS_FOLDER'], found_job.id + '.mp4')
        thumb_image_path = os.path.join(server.config['THUMBS_FOLDER'], found_job.id + '.jpg')
        big_video_path = os.path.join(server.config['THUMBS_FOLDER'], found_job.id + '_big.mp4')
        big_image_path = os.path.join(server.config['THUMBS_FOLDER'], found_job.id + '_big.jpg')
        # generate regular thumb if it doesn't exist
        if not os.path.exists(thumb_video_path) and not os.path.exists(thumb_video_path + '_IN-PROGRESS') and \
                found_job.status not in [RenderStatus.CANCELLED, RenderStatus.ERROR]:
            generate_thumbnail_for_job(found_job, thumb_video_path, thumb_image_path, max_width=240)
        # generate big thumb if it doesn't exist
        if not os.path.exists(big_video_path) and not os.path.exists(big_image_path + '_IN-PROGRESS') and \
                found_job.status not in [RenderStatus.CANCELLED, RenderStatus.ERROR]:
            generate_thumbnail_for_job(found_job, big_video_path, big_image_path, max_width=800)
        # generated videos
        if video_ok:
            if big_thumb and os.path.exists(big_video_path) and not os.path.exists(
                    big_video_path + '_IN-PROGRESS'):
                return send_file(big_video_path, mimetype="video/mp4")
            elif os.path.exists(thumb_video_path) and not os.path.exists(thumb_video_path + '_IN-PROGRESS'):
                return send_file(thumb_video_path, mimetype="video/mp4")
        # Generated thumbs
        if big_thumb and os.path.exists(big_image_path):
            return send_file(big_image_path, mimetype='image/jpeg')
        elif os.path.exists(thumb_image_path):
            return send_file(thumb_image_path, mimetype='image/jpeg')
        return found_job.status.value, 200
    return found_job.status.value, 404
 # Get job file routing
@server.route('/api/job/<job_id>/file/<filename>', methods=['GET'])
 def get_job_file(job_id, filename):
    found_job = RenderQueue.job_with_id(job_id)
    try:
        for full_path in found_job.file_list():
            if filename in full_path:
                return send_file(path_or_file=full_path)
    except FileNotFoundError:
        abort(404)
@server.get('/api/jobs/<status_val>')
@@ -146,29 +106,33 @@ def filtered_jobs_json(status_val):
        return f'Cannot find jobs with status {status_val}', 400
-@server.post('/api/job/<job_id>/notify_parent_of_status_change')
+# --------------------------------------------
-def subjob_status_change(job_id):
+# Job Details / File Handling
-    try:
+# --------------------------------------------
        subjob_details = request.json
        logger.info(f"Subjob to job id: {job_id} is now {subjob_details['status']}")
        DistributedJobManager.handle_subjob_status_change(RenderQueue.job_with_id(job_id), subjob_data=subjob_details)
        return Response(status=200)
    except JobNotFoundError:
        return "Job not found", 404
@server.errorhandler(JobNotFoundError)
 def handle_job_not_found(job_error):
    return f'Cannot find job with ID {job_error.job_id}', 400
@server.get('/api/job/<job_id>')
-def get_job_status(job_id):
+def get_job_details(job_id):
    """Retrieves the details of a requested job in JSON format
    Args:
        job_id (str): The ID of the render job.
    Returns:
        dict: A JSON representation of the job's details.
    """
    return RenderQueue.job_with_id(job_id).json()
@server.get('/api/job/<job_id>/logs')
 def get_job_logs(job_id):
    """Retrieves the log file for a specific render job.
    Args:
        job_id (str): The ID of the render job.
    Returns:
        Response: The log file's content as plain text, or an empty response if the log file is not found.
    """
    found_job = RenderQueue.job_with_id(job_id)
    log_path = system_safe_path(found_job.log_path())
    log_data = None
@@ -180,11 +144,26 @@ def get_job_logs(job_id):
@server.get('/api/job/<job_id>/file_list')
 def get_file_list(job_id):
-    return RenderQueue.job_with_id(job_id).file_list()
+    return [os.path.basename(x) for x in RenderQueue.job_with_id(job_id).file_list()]
@server.route('/api/job/<job_id>/download')
 def download_requested_file(job_id):
    requested_filename = request.args.get('filename')
    if not requested_filename:
        return 'Filename required', 400
    found_job = RenderQueue.job_with_id(job_id)
    for job_filename in found_job.file_list():
        if os.path.basename(job_filename).lower() == requested_filename.lower():
            return send_file(job_filename, as_attachment=True, )
    return f"File '{requested_filename}' not found", 404
@server.route('/api/job/<job_id>/download_all')
-def download_all(job_id):
+def download_all_files(job_id):
    zip_filename = None
    @after_this_request
@@ -199,6 +178,7 @@ def download_all(job_id):
    found_job = RenderQueue.job_with_id(job_id)
    output_dir = os.path.dirname(found_job.output_path)
    if os.path.exists(output_dir):
        from zipfile import ZipFile
        zip_filename = system_safe_path(os.path.join(tempfile.gettempdir(),
                                                     pathlib.Path(found_job.input_path).stem + '.zip'))
        with ZipFile(zip_filename, 'w') as zipObj:
@@ -210,6 +190,10 @@ def download_all(job_id):
        return f'Cannot find project files for job {job_id}', 500
 # --------------------------------------------
 # System Environment / Status
 # --------------------------------------------
@server.get('/api/presets')
 def presets():
    presets_path = system_safe_path('config/presets.yaml')
@@ -241,41 +225,99 @@ def snapshot():
    return server_data
-@server.get('/api/_detected_clients')
+@server.route('/api/status')
-def detected_clients():
+def status():
-    # todo: dev/debug only. Should not ship this - probably.
+    return {"timestamp": datetime.now().isoformat(),
-    return ZeroconfServer.found_hostnames()
+            "system_os": current_system_os(),
            "system_os_version": current_system_os_version(),
            "system_cpu": current_system_cpu(),
            "system_cpu_brand": cpuinfo.get_cpu_info()['brand_raw'],
            "cpu_percent": psutil.cpu_percent(percpu=False),
            "cpu_percent_per_cpu": psutil.cpu_percent(percpu=True),
            "cpu_count": psutil.cpu_count(logical=False),
            "memory_total": psutil.virtual_memory().total,
            "memory_available": psutil.virtual_memory().available,
            "memory_percent": psutil.virtual_memory().percent,
            "job_counts": RenderQueue.job_counts(),
            "hostname": server.config['HOSTNAME'],
            "port": server.config['PORT'],
            "app_version": APP_VERSION,
            "api_version": API_VERSION
            }
-# New version
+# --------------------------------------------
 # Job Lifecyle (Create, Cancel, Delete)
 # --------------------------------------------
@server.post('/api/add_job')
 def add_job_handler():
-    # Process request data
+    """
    POST /api/add_job
    Add a render job to the queue.
    **Request Formats**
    - JSON body:
      {
        "name": "example.blend",
        "engine": "blender",
        "frame_start": 1,
        "frame_end": 100,
        "render_settings": {...}
        "child_jobs"; [...]
      }
    **Responses**
    200 Success
    400 Invalid or missing input
    500 Internal server error while parsing or creating jobs
    """
    try:
        if request.is_json:
-            jobs_list = [request.json] if not isinstance(request.json, list) else request.json
+            new_job_data = request.get_json()
        elif request.form.get('json', None):
-            jobs_list = json.loads(request.form['json'])
+            new_job_data = json.loads(request.form['json'])
        else:
-            return "Invalid data", 400
+            return "Cannot find valid job data", 400
    except Exception as e:
        err_msg = f"Error processing job data: {e}"
        logger.error(err_msg)
        return err_msg, 500
    # Validate Job Data - check for required values and download or unzip project files
    try:
-        loaded_project_local_path, referred_name = handle_uploaded_project_files(request, jobs_list,
+        processed_job_data = JobImportHandler.validate_job_data(new_job_data, server.config['UPLOAD_FOLDER'],
-                                                                                 server.config['UPLOAD_FOLDER'])
+                                                                uploaded_file=request.files.get('file'))
-        if loaded_project_local_path.lower().endswith('.zip'):
+    except (KeyError, FileNotFoundError) as e:
-            loaded_project_local_path = process_zipped_project(loaded_project_local_path)
+        err_msg = f"Error processing job data: {e}"
-
+        return err_msg, 400
        results = []
        for new_job_data in jobs_list:
            new_job = DistributedJobManager.create_render_job(new_job_data, loaded_project_local_path)
            results.append(new_job.json())
        return results, 200
    except Exception as e:
-        logger.exception(f"Error adding job: {e}")
+        err_msg = f"Unknown error processing data: {e}"
        return err_msg, 500
    try:
        loaded_project_local_path = processed_job_data['__loaded_project_local_path']
        created_jobs = []
        if processed_job_data.get("child_jobs"):
            for child_job_diffs in processed_job_data["child_jobs"]:
                processed_child_job_data = processed_job_data.copy()
                processed_child_job_data.pop("child_jobs")
                processed_child_job_data.update(child_job_diffs)
                child_job = DistributedJobManager.create_render_job(processed_child_job_data, loaded_project_local_path)
                created_jobs.append(child_job)
        else:
            new_job = DistributedJobManager.create_render_job(processed_job_data, loaded_project_local_path)
            created_jobs.append(new_job)
        # Save notes to .txt
        if processed_job_data.get("notes"):
            parent_dir = os.path.dirname(os.path.dirname(loaded_project_local_path))
            notes_name = processed_job_data['name'] + "-notes.txt"
            with open(os.path.join(parent_dir, notes_name), "w") as f:
                f.write(processed_job_data["notes"])
        return [x.json() for x in created_jobs]
    except Exception as e:
        logger.exception(f"Error creating render job: {e}")
    return 'unknown error', 500
@@ -301,122 +343,102 @@ def delete_job(job_id):
        # Check if we can remove the 'output' directory
        found_job = RenderQueue.job_with_id(job_id)
        project_dir = os.path.dirname(os.path.dirname(found_job.input_path))
        output_dir = os.path.dirname(found_job.output_path)
        found_job.stop()
        try:
            PreviewManager.delete_previews_for_job(found_job)
        except Exception as e:
            logger.error(f"Error deleting previews for {found_job}: {e}")
        # finally delete the job
        RenderQueue.delete_job(found_job)
        # delete the output_dir
        if server.config['UPLOAD_FOLDER'] in output_dir and os.path.exists(output_dir):
            shutil.rmtree(output_dir)
-        # Remove any thumbnails
+        # See if we own the project_dir (i.e. was it uploaded) - if so delete the directory
-        for filename in os.listdir(server.config['THUMBS_FOLDER']):
+        try:
-            if job_id in filename:
+            if server.config['UPLOAD_FOLDER'] in project_dir and os.path.exists(project_dir):
-                os.remove(os.path.join(server.config['THUMBS_FOLDER'], filename))
+                # check to see if any other projects are sharing the same project file
-
+                project_dir_files = [f for f in os.listdir(project_dir) if not f.startswith('.')]
-        thumb_path = os.path.join(server.config['THUMBS_FOLDER'], found_job.id + '.mp4')
+                if len(project_dir_files) == 0 or (len(project_dir_files) == 1 and 'source' in project_dir_files[0]):
-        if os.path.exists(thumb_path):
+                    logger.info(f"Removing project directory: {project_dir}")
-            os.remove(thumb_path)
+                    shutil.rmtree(project_dir)
-
+        except Exception as e:
-        # See if we own the project_dir (i.e. was it uploaded)
+            logger.error(f"Error removing project files: {e}")
        project_dir = os.path.dirname(os.path.dirname(found_job.input_path))
        if server.config['UPLOAD_FOLDER'] in project_dir and os.path.exists(project_dir):
            # check to see if any other projects are sharing the same project file
            project_dir_files = [f for f in os.listdir(project_dir) if not f.startswith('.')]
            if len(project_dir_files) == 0 or (len(project_dir_files) == 1 and 'source' in project_dir_files[0]):
                logger.info(f"Removing project directory: {project_dir}")
                shutil.rmtree(project_dir)
        RenderQueue.delete_job(found_job)
        if request.args.get('redirect', False):
            return redirect(url_for('index'))
        else:
            return "Job deleted", 200
        return "Job deleted", 200
    except Exception as e:
        logger.error(f"Error deleting job: {e}")
        return f"Error deleting job: {e}", 500
-@server.get('/api/clear_history')
+# --------------------------------------------
-def clear_history():
+# Engine Info and Management:
-    RenderQueue.clear_history()
+# --------------------------------------------
    return 'success'
@server.route('/api/status')
 def status():
    # Get system info
    return {"timestamp": datetime.now().isoformat(),
            "system_os": current_system_os(),
            "system_os_version": current_system_os_version(),
            "system_cpu": current_system_cpu(),
            "cpu_percent": psutil.cpu_percent(percpu=False),
            "cpu_percent_per_cpu": psutil.cpu_percent(percpu=True),
            "cpu_count": psutil.cpu_count(logical=False),
            "memory_total": psutil.virtual_memory().total,
            "memory_available": psutil.virtual_memory().available,
            "memory_percent": psutil.virtual_memory().percent,
            "job_counts": RenderQueue.job_counts(),
            "hostname": server.config['HOSTNAME'],
            "port": server.config['PORT']
            }
@server.get('/api/renderer_info')
 def renderer_info():
@server.get('/api/engine_info')
 def engine_info():
    response_type = request.args.get('response_type', 'standard')
    if response_type not in ['full', 'standard']:
        raise ValueError(f"Invalid response_type: {response_type}")
    def process_engine(engine):
        try:
            # Get all installed versions of the engine
-            installed_versions = EngineManager.all_versions_for_engine(engine.name())
+            installed_versions = EngineManager.all_version_data_for_engine(engine.name())
-            if installed_versions:
+            if not installed_versions:
-                # Use system-installed versions to avoid permission issues
+                return None
                system_installed_versions = [x for x in installed_versions if x['type'] == 'system']
                install_path = system_installed_versions[0]['path'] if system_installed_versions else \
                installed_versions[0]['path']
-                en = engine(install_path)
+            system_installed_versions = [v for v in installed_versions if v['type'] == 'system']
            install_path = system_installed_versions[0]['path'] if system_installed_versions else installed_versions[0]['path']
-                if response_type == 'full':  # Full dataset - Can be slow
+            en = engine(install_path)
-                    return {
+            engine_name = en.name()
-                        en.name(): {
+            result = {
-                            'is_available': RenderQueue.is_available_for_job(en.name()),
+                engine_name: {
-                            'versions': installed_versions,
+                    'is_available': RenderQueue.is_available_for_job(engine_name),
-                            'supported_extensions': engine.supported_extensions(),
+                    'versions': installed_versions
-                            'supported_export_formats': en.get_output_formats(),
+                }
-                            'system_info': en.system_info()
+            }
-                        }
+
            if response_type == 'full':
                with concurrent.futures.ThreadPoolExecutor() as executor:
                    future_results = {
                        'supported_extensions': executor.submit(en.supported_extensions),
                        'supported_export_formats': executor.submit(en.get_output_formats),
                        'system_info': executor.submit(en.system_info)
                    }
-                elif response_type == 'standard':  # Simpler dataset to reduce response times
+
-                    return {
+                    for key, future in future_results.items():
-                        en.name(): {
+                        result[engine_name][key] = future.result()
-                            'is_available': RenderQueue.is_available_for_job(en.name()),
+
-                            'versions': installed_versions,
+            return result
-                        }
+
                    }
                else:
                    raise AttributeError(f"Invalid response_type: {response_type}")
        except Exception as e:
-            logger.error(f'Error fetching details for {engine.name()} renderer: {e}')
+            logger.error(f"Error fetching details for engine '{engine.name()}': {e}")
            return {}
-    renderer_data = {}
+    engine_data = {}
    with concurrent.futures.ThreadPoolExecutor() as executor:
        futures = {executor.submit(process_engine, engine): engine.name() for engine in EngineManager.supported_engines()}
        for future in concurrent.futures.as_completed(futures):
            result = future.result()
            if result:
-                renderer_data.update(result)
+                engine_data.update(result)
-    return renderer_data
+    return engine_data
@server.get('/api/<engine_name>/is_available')
 def is_engine_available(engine_name):
    return {'engine': engine_name, 'available': RenderQueue.is_available_for_job(engine_name),
            'cpu_count': int(psutil.cpu_count(logical=False)),
-            'versions': EngineManager.all_versions_for_engine(engine_name),
+            'versions': EngineManager.all_version_data_for_engine(engine_name),
            'hostname': server.config['HOSTNAME']}
@@ -460,89 +482,117 @@ def delete_engine_download():
        (f"Error deleting {json_data.get('engine')} {json_data.get('version')}", 500)
-@server.get('/api/renderer/<renderer>/args')
+@server.get('/api/engine/<engine_name>/args')
-def get_renderer_args(renderer):
+def get_engine_args(engine_name):
    try:
-        renderer_engine_class = EngineManager.engine_with_name(renderer)
+        engine_class = EngineManager.engine_with_name(engine_name)
-        return renderer_engine_class().get_arguments()
+        return engine_class().get_arguments()
    except LookupError:
-        return f"Cannot find renderer '{renderer}'", 400
+        return f"Cannot find engine '{engine_name}'", 400
-@server.get('/api/renderer/<renderer>/help')
+@server.get('/api/engine/<engine_name>/help')
-def get_renderer_help(renderer):
+def get_engine_help(engine_name):
    try:
-        renderer_engine_class = EngineManager.engine_with_name(renderer)
+        engine_class = EngineManager.engine_with_name(engine_name)
-        return renderer_engine_class().get_help()
+        return engine_class().get_help()
    except LookupError:
-        return f"Cannot find renderer '{renderer}'", 400
+        return f"Cannot find engine '{engine_name}'", 400
 # --------------------------------------------
 # Miscellaneous:
 # --------------------------------------------
@server.get('/api/heartbeat')
 def heartbeat():
    return datetime.now().isoformat(), 200
@server.post('/api/job/<job_id>/send_subjob_update_notification')
 def subjob_update_notification(job_id):
    subjob_details = request.json
    DistributedJobManager.handle_subjob_update_notification(RenderQueue.job_with_id(job_id), subjob_data=subjob_details)
    return Response(status=200)
@server.route('/api/job/<job_id>/thumbnail')
 def job_thumbnail(job_id):
    try:
        big_thumb = request.args.get('size', False) == "big"
        video_ok = request.args.get('video_ok', False)
        found_job = RenderQueue.job_with_id(job_id, none_ok=False)
        # trigger a thumbnail update - just in case
        PreviewManager.update_previews_for_job(found_job, wait_until_completion=True, timeout=60)
        previews = PreviewManager.get_previews_for_job(found_job)
        all_previews_list = previews.get('output', previews.get('input', []))
        video_previews = [x for x in all_previews_list if x['kind'] == 'video']
        image_previews = [x for x in all_previews_list if x['kind'] == 'image']
        filtered_list = video_previews if video_previews and video_ok else image_previews
        # todo - sort by size or other metrics here
        if filtered_list:
            preview_to_send = filtered_list[0]
            mime_types = {'image': 'image/jpeg', 'video': 'video/mp4'}
            file_mime_type = mime_types.get(preview_to_send['kind'], 'unknown')
            return send_file(preview_to_send['filename'], mimetype=file_mime_type)
    except Exception as e:
        logger.error(f'Error getting thumbnail: {e}')
        return f'Error getting thumbnail: {e}', 500
    return "No thumbnail available", 404
 # --------------------------------------------
 # System Benchmarks:
 # --------------------------------------------
@server.get('/api/cpu_benchmark')
 def get_cpu_benchmark_score():
    from src.utilities.benchmark import cpu_benchmark
    return str(cpu_benchmark(10))
@server.get('/api/disk_benchmark')
 def get_disk_benchmark():
    from src.utilities.benchmark import disk_io_benchmark
    results = disk_io_benchmark()
    return {'write_speed': results[0], 'read_speed': results[-1]}
-def start_server():
+# --------------------------------------------
-    def eval_loop(delay_sec=1):
+# Error Handlers:
-        while True:
+# --------------------------------------------
            RenderQueue.evaluate_queue()
            time.sleep(delay_sec)
-    # get hostname
+@server.errorhandler(JobNotFoundError)
-    local_hostname = socket.gethostname()
+def handle_job_not_found(job_error):
-    local_hostname = local_hostname + (".local" if not local_hostname.endswith(".local") else "")
+    return str(job_error), 400
    # load flask settings
    server.config['HOSTNAME'] = local_hostname
    server.config['PORT'] = int(Config.port_number)
    server.config['UPLOAD_FOLDER'] = system_safe_path(os.path.expanduser(Config.upload_folder))
    server.config['THUMBS_FOLDER'] = system_safe_path(os.path.join(os.path.expanduser(Config.upload_folder), 'thumbs'))
    server.config['MAX_CONTENT_PATH'] = Config.max_content_path
    server.config['enable_split_jobs'] = Config.enable_split_jobs
-    # Setup directory for saving engines to
+@server.errorhandler(DetachedInstanceError)
-    EngineManager.engines_path = system_safe_path(os.path.join(os.path.join(os.path.expanduser(Config.upload_folder),
+def handle_detached_instance(_):
-                                                                            'engines')))
+    return "Unavailable", 503
    os.makedirs(EngineManager.engines_path, exist_ok=True)
    # Debug info
    logger.debug(f"Upload directory: {server.config['UPLOAD_FOLDER']}")
    logger.debug(f"Thumbs directory: {server.config['THUMBS_FOLDER']}")
    logger.debug(f"Engines directory: {EngineManager.engines_path}")
-    # disable most Flask logging
+@server.errorhandler(Exception)
-    flask_log = logging.getLogger('werkzeug')
+def handle_general_error(general_error):
-    flask_log.setLevel(Config.flask_log_level.upper())
+    err_msg = f"Server error: {general_error}"
    logger.error(err_msg)
    return err_msg, 500
    # check for updates for render engines if configured or on first launch
    if Config.update_engines_on_launch or not EngineManager.get_engines():
        EngineManager.update_all_engines()
-    # Set up the RenderQueue object
+# --------------------------------------------
-    RenderQueue.load_state(database_directory=server.config['UPLOAD_FOLDER'])
+# Debug / Development Only:
-    ServerProxyManager.subscribe_to_listener()
+# --------------------------------------------
    DistributedJobManager.subscribe_to_listener()
-    thread = threading.Thread(target=eval_loop, kwargs={'delay_sec': Config.queue_eval_seconds}, daemon=True)
+@server.get('/api/_debug/detected_clients')
-    thread.start()
+def detected_clients():
    # todo: dev/debug only. Should not ship this - probably.
    from src.utilities.zeroconf_server import ZeroconfServer
    return ZeroconfServer.found_hostnames()
    logger.info(f"Starting Zordon Render Server - Hostname: '{server.config['HOSTNAME']}:'")
    ZeroconfServer.configure("_zordon._tcp.local.", server.config['HOSTNAME'], server.config['PORT'])
    ZeroconfServer.properties = {'system_cpu': current_system_cpu(), 'system_cpu_cores': multiprocessing.cpu_count(),
                                 'system_os': current_system_os(),
                                 'system_os_version': current_system_os_version()}
    ZeroconfServer.start()
-    try:
+@server.get('/api/_debug/clear_history')
-        server.run(host='0.0.0.0', port=server.config['PORT'], debug=Config.flask_debug_enable,
+def clear_history():
-                   use_reloader=False, threaded=True)
+    RenderQueue.clear_history()
-    finally:
+    return 'success'
        RenderQueue.save_state()
        ZeroconfServer.stop()
@@ -0,0 +1,145 @@
 #!/usr/bin/env python3
 import logging
 import os
 import shutil
 import tempfile
 import zipfile
 from datetime import datetime
 import requests
 from tqdm import tqdm
 from werkzeug.utils import secure_filename
 logger = logging.getLogger()
 class JobImportHandler:
    @classmethod
    def validate_job_data(cls, new_job_data, upload_directory, uploaded_file=None):
        loaded_project_local_path = None
        # check for required keys
        job_name = new_job_data.get('name')
        engine_name = new_job_data.get('engine_name')
        if not job_name:
            raise KeyError("Missing job name")
        elif not engine_name:
            raise KeyError("Missing engine name")
        project_url = new_job_data.get('url', None)
        local_path = new_job_data.get('local_path', None)
        downloaded_file_url = None
        if uploaded_file and uploaded_file.filename:
            referred_name = os.path.basename(uploaded_file.filename)
        elif project_url:
            referred_name, downloaded_file_url = cls.download_project_from_url(project_url)
            if not referred_name:
                raise FileNotFoundError(f"Error downloading file from URL: {project_url}")
        elif local_path and os.path.exists(local_path):
            referred_name = os.path.basename(local_path)
        else:
            raise FileNotFoundError("Cannot find any valid project paths")
        # Prepare the local filepath
        cleaned_path_name = job_name.replace(' ', '-')
        job_dir = os.path.join(upload_directory, '-'.join(
            [cleaned_path_name, engine_name, datetime.now().strftime("%Y.%m.%d_%H.%M.%S")]))
        os.makedirs(job_dir, exist_ok=True)
        project_source_dir = os.path.join(job_dir, 'source')
        os.makedirs(project_source_dir, exist_ok=True)
        # Move projects to their work directories
        if uploaded_file and uploaded_file.filename:
            loaded_project_local_path = os.path.join(project_source_dir, secure_filename(uploaded_file.filename))
            uploaded_file.save(loaded_project_local_path)
            logger.info(f"Transfer complete for {loaded_project_local_path.split(upload_directory)[-1]}")
        elif project_url:
            loaded_project_local_path = os.path.join(project_source_dir, referred_name)
            shutil.move(downloaded_file_url, loaded_project_local_path)
            logger.info(f"Download complete for {loaded_project_local_path.split(upload_directory)[-1]}")
        elif local_path:
            loaded_project_local_path = os.path.join(project_source_dir, referred_name)
            shutil.copy(local_path, loaded_project_local_path)
            logger.info(f"Import complete for {loaded_project_local_path.split(upload_directory)[-1]}")
        if loaded_project_local_path.lower().endswith('.zip'):
            loaded_project_local_path = cls.process_zipped_project(loaded_project_local_path)
        new_job_data["__loaded_project_local_path"] = loaded_project_local_path
        return new_job_data
    @staticmethod
    def download_project_from_url(project_url):
        # This nested function is to handle downloading from a URL
        logger.info(f"Downloading project from url: {project_url}")
        referred_name = os.path.basename(project_url)
        try:
            response = requests.get(project_url, stream=True)
            if response.status_code == 200:
                # Get the total file size from the "Content-Length" header
                file_size = int(response.headers.get("Content-Length", 0))
                # Create a progress bar using tqdm
                progress_bar = tqdm(total=file_size, unit="B", unit_scale=True)
                # Open a file for writing in binary mode
                downloaded_file_url = os.path.join(tempfile.gettempdir(), referred_name)
                with open(downloaded_file_url, "wb") as file:
                    for chunk in response.iter_content(chunk_size=1024):
                        if chunk:
                            # Write the chunk to the file
                            file.write(chunk)
                            # Update the progress bar
                            progress_bar.update(len(chunk))
                # Close the progress bar
                progress_bar.close()
                return referred_name, downloaded_file_url
        except Exception as e:
            logger.error(f"Error downloading file: {e}")
        return None, None
    @staticmethod
    def process_zipped_project(zip_path):
        """
        Processes a zipped project.
        This method takes a path to a zip file, extracts its contents, and returns the path to the extracted project file.
        If the zip file contains more than one project file or none, an error is raised.
        Args:
            zip_path (str): The path to the zip file.
        Raises:
            ValueError: If there's more than 1 project file or none in the zip file.
        Returns:
            str: The path to the main project file.
        """
        work_path = os.path.dirname(zip_path)
        try:
            with zipfile.ZipFile(zip_path, 'r') as myzip:
                myzip.extractall(work_path)
            project_files = [x for x in os.listdir(work_path) if os.path.isfile(os.path.join(work_path, x))]
            project_files = [x for x in project_files if '.zip' not in x]
            logger.debug(f"Zip files: {project_files}")
            # supported_exts = RenderWorkerFactory.class_for_name(engine).engine.supported_extensions
            # if supported_exts:
            #     project_files = [file for file in project_files if any(file.endswith(ext) for ext in supported_exts)]
            # If there's more than 1 project file or none, raise an error
            if len(project_files) != 1:
                raise ValueError(f'Cannot find a valid project file in {os.path.basename(zip_path)}')
            extracted_project_path = os.path.join(work_path, project_files[0])
            logger.info(f"Extracted zip file to {extracted_project_path}")
        except (zipfile.BadZipFile, zipfile.LargeZipFile) as e:
            logger.error(f"Error processing zip file: {e}")
            raise ValueError(f"Error processing zip file: {e}")
        return extracted_project_path
@@ -0,0 +1,113 @@
 import logging
 import os
 import subprocess
 import threading
 from pathlib import Path
 from src.utilities.ffmpeg_helper import generate_thumbnail, save_first_frame
 logger = logging.getLogger()
 supported_video_formats = ['.mp4', '.mov', '.avi', '.mpg', '.mpeg', '.mxf', '.m4v', '.mkv', '.webm']
 supported_image_formats = ['.jpg', '.png', '.exr', '.tif', '.tga', '.bmp', '.webp']
 class PreviewManager:
    storage_path = None
    _running_jobs = {}
    @classmethod
    def __generate_job_preview_worker(cls, job, replace_existing=False, max_width=480):
        # Determine best source file to use for thumbs
        job_file_list = job.file_list()
        source_files = job_file_list if job_file_list else [job.input_path]
        preview_label = "output" if job_file_list else "input"
        # filter by type
        found_image_files = [f for f in source_files if os.path.splitext(f)[-1].lower() in supported_image_formats]
        found_video_files = [f for f in source_files if os.path.splitext(f)[-1].lower() in supported_video_formats]
        # check if we even have any valid files to work from
        if source_files and not found_video_files and not found_image_files:
            logger.warning(f"No valid image or video files found in files from job: {job}")
            return
        os.makedirs(cls.storage_path, exist_ok=True)
        base_path = os.path.join(cls.storage_path, f"{job.id}-{preview_label}-{max_width}")
        preview_video_path = base_path + '.mp4'
        preview_image_path = base_path + '.jpg'
        if replace_existing:
            for x in [preview_image_path, preview_video_path]:
                try:
                    os.remove(x)
                except OSError:
                    pass
        # Generate image previews
        if (found_video_files or found_image_files) and not os.path.exists(preview_image_path):
            try:
                path_of_source = found_image_files[-1] if found_image_files else found_video_files[-1]
                logger.debug(f"Generating image preview for {path_of_source}")
                save_first_frame(source_path=path_of_source, dest_path=preview_image_path, max_width=max_width)
                logger.debug(f"Successfully created image preview for {path_of_source}")
            except Exception as e:
                logger.error(f"Error generating image preview for {job}: {e}")
        # Generate video previews
        if found_video_files and not os.path.exists(preview_video_path):
            try:
                path_of_source = found_video_files[0]
                logger.debug(f"Generating video preview for {path_of_source}")
                generate_thumbnail(source_path=path_of_source, dest_path=preview_video_path, max_width=max_width)
                logger.debug(f"Successfully created video preview for {path_of_source}")
            except subprocess.CalledProcessError as e:
                logger.error(f"Error generating video preview for {job}: {e}")
    @classmethod
    def update_previews_for_job(cls, job, replace_existing=False, wait_until_completion=False, timeout=None):
        job_thread = cls._running_jobs.get(job.id)
        if job_thread and job_thread.is_alive():
            logger.debug(f'Preview generation job already running for {job}')
        else:
            job_thread = threading.Thread(target=cls.__generate_job_preview_worker, args=(job, replace_existing,))
            job_thread.start()
            cls._running_jobs[job.id] = job_thread
        if wait_until_completion:
            job_thread.join(timeout=timeout)
    @classmethod
    def get_previews_for_job(cls, job):
        results = {}
        try:
            directory_path = Path(cls.storage_path)
            preview_files_for_job = [f for f in directory_path.iterdir() if f.is_file() and f.name.startswith(job.id)]
            for preview_filename in preview_files_for_job:
                try:
                    pixel_width = str(preview_filename).split('-')[-1]
                    preview_label = str(os.path.basename(preview_filename)).split('-')[1]
                    extension = os.path.splitext(preview_filename)[-1].lower()
                    kind = 'video' if extension in supported_video_formats else \
                        'image' if extension in supported_image_formats else 'unknown'
                    results[preview_label] = results.get(preview_label, [])
                    results[preview_label].append({'filename': str(preview_filename), 'width': pixel_width, 'kind': kind})
                except IndexError:  # ignore invalid filenames
                    pass
        except FileNotFoundError:
            pass
        return results
    @classmethod
    def delete_previews_for_job(cls, job):
        all_previews = cls.get_previews_for_job(job)
        flattened_list = [item for sublist in all_previews.values() for item in sublist]
        for preview in flattened_list:
            try:
                logger.debug(f"Removing preview: {preview['filename']}")
                os.remove(preview['filename'])
            except OSError as e:
                logger.error(f"Error removing preview '{preview.get('filename')}': {e}")
@@ -10,7 +10,6 @@ from urllib.parse import urljoin
 from src.utilities.misc_helper import is_localhost
 from src.utilities.status_utils import RenderStatus
 from src.utilities.zeroconf_server import ZeroconfServer
 status_colors = {RenderStatus.ERROR: "red", RenderStatus.CANCELLED: 'orange1', RenderStatus.COMPLETED: 'green',
                 RenderStatus.NOT_STARTED: "yellow", RenderStatus.SCHEDULED: 'purple',
@@ -22,19 +21,11 @@ categories = [RenderStatus.RUNNING, RenderStatus.WAITING_FOR_SUBJOBS, RenderStat
 logger = logging.getLogger()
 OFFLINE_MAX = 4
 LOOPBACK = '127.0.0.1'
 class RenderServerProxy:
-    """
+    """The ServerProxy class is responsible for interacting with a remote server.
-    The ServerProxy class is responsible for interacting with a remote server.
+    It provides convenience methods to request data from the server and store the status of the server.
    It provides methods to request data from the server and store the status of the server.
    Attributes:
        system_cpu (str): The CPU type of the system.
        system_cpu_count (int): The number of CPUs in the system.
        system_os (str): The operating system of the system.
        system_os_version (str): The version of the operating system.
    """
    def __init__(self, hostname, server_port="8080"):
@@ -54,18 +45,27 @@ class RenderServerProxy:
        self.system_cpu_count = None
        self.system_os = None
        self.system_os_version = None
        self.system_api_version = None
    # --------------------------------------------
    # Basics / Connection:
    # --------------------------------------------
    def __repr__(self):
        return f"<RenderServerProxy - {self.hostname}>"
-    def connect(self):
+    def check_connection(self):
-        return self.status()
+        try:
            return self.request("heartbeat").ok
        except Exception:
            pass
        return False
    def is_online(self):
        if self.__update_in_background:
            return self.__offline_flags < OFFLINE_MAX
        else:
-            return self.get_status() is not None
+            return self.check_connection()
    def status(self):
        if not self.is_online():
@@ -73,6 +73,10 @@ class RenderServerProxy:
        running_jobs = [x for x in self.__jobs_cache if x['status'] == 'running'] if self.__jobs_cache else []
        return f"{len(running_jobs)} running" if running_jobs else "Ready"
    # --------------------------------------------
    # Requests:
    # --------------------------------------------
    def request_data(self, payload, timeout=5):
        try:
            req = self.request(payload, timeout)
@@ -100,8 +104,13 @@ class RenderServerProxy:
        return None
    def request(self, payload, timeout=5):
-        hostname = LOOPBACK if self.is_localhost else self.hostname
+        from src.api.api_server import API_VERSION
-        return requests.get(f'http://{hostname}:{self.port}/api/{payload}', timeout=timeout)
+        return requests.get(f'http://{self.hostname}:{self.port}/api/{payload}', timeout=timeout,
                            headers={"X-API-Version": str(API_VERSION)})
    # --------------------------------------------
    # Background Updates:
    # --------------------------------------------
    def start_background_update(self):
        if self.__update_in_background:
@@ -119,17 +128,6 @@ class RenderServerProxy:
        self.__background_thread.daemon = True
        self.__background_thread.start()
    def stop_background_update(self):
        self.__update_in_background = False
    def get_job_info(self, job_id, timeout=5):
        return self.request_data(f'job/{job_id}', timeout=timeout)
    def get_all_jobs(self, timeout=5, ignore_token=False):
        if not self.__update_in_background or ignore_token:
            self.__update_job_cache(timeout, ignore_token)
        return self.__jobs_cache.copy() if self.__jobs_cache else None
    def __update_job_cache(self, timeout=40, ignore_token=False):
        if self.__offline_flags:  # if we're offline, don't bother with the long poll
@@ -147,15 +145,21 @@ class RenderServerProxy:
            self.__jobs_cache = sorted_jobs
            self.__jobs_cache_token = status_result['token']
    def stop_background_update(self):
        self.__update_in_background = False
    # --------------------------------------------
    # Get System Info:
    # --------------------------------------------
    def get_all_jobs(self, timeout=5, ignore_token=False):
        if not self.__update_in_background or ignore_token:
            self.__update_job_cache(timeout, ignore_token)
        return self.__jobs_cache.copy() if self.__jobs_cache else None
    def get_data(self, timeout=5):
        return self.request_data('full_status', timeout=timeout)
    def cancel_job(self, job_id, confirm=False):
        return self.request_data(f'job/{job_id}/cancel?confirm={confirm}')
    def delete_job(self, job_id, confirm=False):
        return self.request_data(f'job/{job_id}/delete?confirm={confirm}')
    def get_status(self):
        status = self.request_data('status')
        if status and not self.system_cpu:
@@ -163,103 +167,105 @@ class RenderServerProxy:
            self.system_cpu_count = status['cpu_count']
            self.system_os = status['system_os']
            self.system_os_version = status['system_os_version']
            self.system_api_version = status['api_version']
        return status
-    def is_engine_available(self, engine_name):
+    # --------------------------------------------
-        return self.request_data(f'{engine_name}/is_available')
+    # Get Job Info:
    # --------------------------------------------
-    def get_all_engines(self):
+    def get_job_info(self, job_id, timeout=5):
-        return self.request_data('all_engines')
+        return self.request_data(f'job/{job_id}', timeout=timeout)
-    def notify_parent_of_status_change(self, parent_id, subjob):
+    def get_job_files_list(self, job_id):
-        """
+        return self.request_data(f"job/{job_id}/file_list")
        Notifies the parent job of a status change in a subjob.
-        Args:
+    # --------------------------------------------
-            parent_id (str): The ID of the parent job.
+    # Job Lifecycle:
-            subjob (Job): The subjob that has changed status.
+    # --------------------------------------------
-        Returns:
+    def post_job_to_server(self, file_path, job_data, callback=None):
            Response: The response from the server.
        """
        hostname = LOOPBACK if self.is_localhost else self.hostname
        return requests.post(f'http://{hostname}:{self.port}/api/job/{parent_id}/notify_parent_of_status_change',
                             json=subjob.json())
    def post_job_to_server(self, file_path, job_list, callback=None):
        """
        Posts a job to the server.
        Args:
            file_path (str): The path to the file to upload.
-            job_list (list): A list of jobs to post.
+            job_data (dict): A dict of jobs data.
            callback (function, optional): A callback function to call during the upload. Defaults to None.
        Returns:
            Response: The response from the server.
        """
-        try:
+        # Check if file exists
-            # Check if file exists
+        if not os.path.exists(file_path):
-            if not os.path.exists(file_path):
+            raise FileNotFoundError(f"File not found: {file_path}")
                raise FileNotFoundError(f"File not found: {file_path}")
-            # Bypass uploading file if posting to localhost
+        # Bypass uploading file if posting to localhost
-            if self.is_localhost:
+        if self.is_localhost:
-                jobs_with_path = [{'local_path': file_path, **item} for item in job_list]
+            job_data['local_path'] = file_path
-                job_data = json.dumps(jobs_with_path)
+            url = urljoin(f'http://{self.hostname}:{self.port}', '/api/add_job')
-                url = urljoin(f'http://{LOOPBACK}:{self.port}', '/api/add_job')
+            headers = {'Content-Type': 'application/json'}
-                headers = {'Content-Type': 'application/json'}
+            return requests.post(url, data=json.dumps(job_data), headers=headers)
                return requests.post(url, data=job_data, headers=headers)
-            # Prepare the form data for remote host
+        # Prepare the form data for remote host
-            with open(file_path, 'rb') as file:
+        with open(file_path, 'rb') as file:
-                encoder = MultipartEncoder({
+            encoder = MultipartEncoder({
-                    'file': (os.path.basename(file_path), file, 'application/octet-stream'),
+                'file': (os.path.basename(file_path), file, 'application/octet-stream'),
-                    'json': (None, json.dumps(job_list), 'application/json'),
+                'json': (None, json.dumps(job_data), 'application/json'),
-                })
+            })
-                # Create a monitor that will track the upload progress
+            # Create a monitor that will track the upload progress
-                monitor = MultipartEncoderMonitor(encoder, callback) if callback else MultipartEncoderMonitor(encoder)
+            monitor = MultipartEncoderMonitor(encoder, callback) if callback else MultipartEncoderMonitor(encoder)
-                headers = {'Content-Type': monitor.content_type}
+            headers = {'Content-Type': monitor.content_type}
-                url = urljoin(f'http://{self.hostname}:{self.port}', '/api/add_job')
+            url = urljoin(f'http://{self.hostname}:{self.port}', '/api/add_job')
-                # Send the request with proper resource management
+            # Send the request with proper resource management
-                with requests.post(url, data=monitor, headers=headers) as response:
+            with requests.post(url, data=monitor, headers=headers) as response:
-                    return response
+                return response
-        except requests.ConnectionError as e:
+    def cancel_job(self, job_id, confirm=False):
-            logger.error(f"Connection error: {e}")
+        return self.request_data(f'job/{job_id}/cancel?confirm={confirm}')
        except Exception as e:
            logger.error(f"An error occurred: {e}")
-    def get_job_files(self, job_id, save_path):
+    def delete_job(self, job_id, confirm=False):
-        hostname = LOOPBACK if self.is_localhost else self.hostname
+        return self.request_data(f'job/{job_id}/delete?confirm={confirm}')
        url = f"http://{hostname}:{self.port}/api/job/{job_id}/download_all"
        return self.download_file(url, filename=save_path)
-    @staticmethod
+    def send_subjob_update_notification(self, parent_id, subjob):
    def download_file(url, filename):
        with requests.get(url, stream=True) as r:
            r.raise_for_status()
            with open(filename, 'wb') as f:
                for chunk in r.iter_content(chunk_size=8192):
                    f.write(chunk)
        return filename
    # --- Renderer --- #
    def get_renderer_info(self, response_type='standard', timeout=5):
        """
-        Fetches renderer information from the server.
+        Notifies the parent job of an update in a subjob.
        Args:
-            response_type (str, optional): Returns standard or full version of renderer info
+            parent_id (str): The ID of the parent job.
            subjob (Job): The subjob that has updated.
        Returns:
            Response: The response from the server.
        """
        return requests.post(f'http://{self.hostname}:{self.port}/api/job/{parent_id}/send_subjob_update_notification',
                             json=subjob.json())
    # --------------------------------------------
    # Engines:
    # --------------------------------------------
    def is_engine_available(self, engine_name):
        return self.request_data(f'{engine_name}/is_available')
    def get_all_engines(self):
        # todo: this doesnt work
        return self.request_data('all_engines')
    def get_engine_info(self, response_type='standard', timeout=5):
        """
        Fetches engine information from the server.
        Args:
            response_type (str, optional): Returns standard or full version of engine info
            timeout (int, optional): The number of seconds to wait for a response from the server. Defaults to 5.
        Returns:
-            dict: A dictionary containing the renderer information.
+            dict: A dictionary containing the engine information.
        """
-        all_data = self.request_data(f"renderer_info?response_type={response_type}", timeout=timeout)
+        all_data = self.request_data(f"engine_info?response_type={response_type}", timeout=timeout)
        return all_data
    def delete_engine(self, engine, version, system_cpu=None):
@@ -275,5 +281,25 @@ class RenderServerProxy:
            Response: The response from the server.
        """
        form_data = {'engine': engine, 'version': version, 'system_cpu': system_cpu}
-        hostname = LOOPBACK if self.is_localhost else self.hostname
+        return requests.post(f'http://{self.hostname}:{self.port}/api/delete_engine', json=form_data)
-        return requests.post(f'http://{hostname}:{self.port}/api/delete_engine', json=form_data)
+
    # --------------------------------------------
    # Download Files:
    # --------------------------------------------
    def download_all_job_files(self, job_id, save_path):
        url = f"http://{self.hostname}:{self.port}/api/job/{job_id}/download_all"
        return self.__download_file_from_url(url, output_filepath=save_path)
    def download_job_file(self, job_id, job_filename, save_path):
        url = f"http://{self.hostname}:{self.port}/api/job/{job_id}/download?filename={job_filename}"
        return self.__download_file_from_url(url, output_filepath=save_path)
    @staticmethod
    def __download_file_from_url(url, output_filepath):
        with requests.get(url, stream=True) as r:
            r.raise_for_status()
            with open(output_filepath, 'wb') as f:
                for chunk in r.iter_content(chunk_size=8192):
                    f.write(chunk)
        return output_filepath
@@ -3,17 +3,16 @@ import os
 import socket
 import threading
 import time
 import zipfile
 from concurrent.futures import ThreadPoolExecutor
 import requests
 from plyer import notification
 from pubsub import pub
 from src.api.preview_manager import PreviewManager
 from src.api.server_proxy import RenderServerProxy
 from src.engines.engine_manager import EngineManager
 from src.render_queue import RenderQueue
-from src.utilities.misc_helper import get_file_size_human
+from src.utilities.config import Config
 from src.utilities.server_helper import download_missing_frames_from_subjob, distribute_server_work
 from src.utilities.status_utils import RenderStatus, string_to_status
 from src.utilities.zeroconf_server import ZeroconfServer
@@ -32,6 +31,43 @@ class DistributedJobManager:
          This should be called once, typically during the initialization phase.
        """
        pub.subscribe(cls.__local_job_status_changed, 'status_change')
        pub.subscribe(cls.__local_job_frame_complete, 'frame_complete')
    @classmethod
    def __local_job_frame_complete(cls, job_id, frame_number, update_interval=5):
        """
        Responds to the 'frame_complete' pubsub message for local jobs.
        Args:
            job_id (str): The ID of the job that has changed status.
            old_status (str): The previous status of the job.
            new_status (str): The new (current) status of the job.
        Note: Do not call directly. Instead, call via the 'frame_complete' pubsub message.
        """
        render_job = RenderQueue.job_with_id(job_id, none_ok=True)
        if not render_job:  # ignore jobs not in the queue
            return
        logger.debug(f"Job {job_id} has completed frame #{frame_number}")
        replace_existing_previews = (frame_number % update_interval) == 0
        cls.__job_update_shared(render_job, replace_existing_previews)
    @classmethod
    def __job_update_shared(cls, render_job, replace_existing_previews=False):
        # update previews
        PreviewManager.update_previews_for_job(job=render_job, replace_existing=replace_existing_previews)
        # notify parent to allow individual frames to be copied instead of waiting until the end
        if render_job.parent:
            parent_id, parent_hostname = render_job.parent.split('@')[0], render_job.parent.split('@')[-1]
            try:
                logger.debug(f'Job {render_job.id} updating parent {parent_id}@{parent_hostname}')
                RenderServerProxy(parent_hostname).send_subjob_update_notification(parent_id, render_job)
            except Exception as e:
                logger.error(f"Error notifying parent {parent_hostname} about update in subjob {render_job.id}: {e}")
    @classmethod
    def __local_job_status_changed(cls, job_id, old_status, new_status):
@@ -39,10 +75,10 @@ class DistributedJobManager:
        Responds to the 'status_change' pubsub message for local jobs.
        If it's a child job, it notifies the parent job about the status change.
-        Parameters:
+        Args:
-        job_id (str): The ID of the job that has changed status.
+            job_id (str): The ID of the job that has changed status.
-        old_status (str): The previous status of the job.
+            old_status (str): The previous status of the job.
-        new_status (str): The new (current) status of the job.
+            new_status (str): The new (current) status of the job.
        Note: Do not call directly. Instead, call via the 'status_change' pubsub message.
        """
@@ -52,15 +88,15 @@ class DistributedJobManager:
            return
        logger.debug(f"Job {job_id} status change: {old_status} -> {new_status}")
        if render_job.parent:  # If local job is a subjob from a remote server
            parent_id, hostname = render_job.parent.split('@')[0], render_job.parent.split('@')[-1]
            RenderServerProxy(hostname).notify_parent_of_status_change(parent_id=parent_id, subjob=render_job)
-        # handle cancelling all the children
+        cls.__job_update_shared(render_job, replace_existing_previews=(render_job.status == RenderStatus.COMPLETED))
-        elif render_job.children and new_status in [RenderStatus.CANCELLED, RenderStatus.ERROR]:
+
-            for child in render_job.children:
+        # Handle children
-                child_id, hostname = child.split('@')
+        if render_job.children:
-                RenderServerProxy(hostname).cancel_job(child_id, confirm=True)
+            if new_status in [RenderStatus.CANCELLED, RenderStatus.ERROR]:  # Cancel children if necessary
                for child in render_job.children:
                    child_id, child_hostname = child.split('@')
                    RenderServerProxy(child_hostname).cancel_job(child_id, confirm=True)
        # UI Notifications
        try:
@@ -93,15 +129,12 @@ class DistributedJobManager:
    # --------------------------------------------
    @classmethod
-    def create_render_job(cls, job_data, loaded_project_local_path):
+    def create_render_job(cls, new_job_attributes, loaded_project_local_path):
-        """
+        """Creates render jobs. Pass in dict of job_data and the local path to the project. It creates and returns a new
-        Creates render jobs.
+        render job.
        This method takes a list of job data, a local path to a loaded project, and a job directory. It creates a render
        job for each job data in the list and appends the result to a list. The list of results is then returned.
        Args:
-            job_data (dict): Job data.
+            new_job_attributes (dict): Dict of desired attributes for new job (frame count, renderer, output path, etc)
            loaded_project_local_path (str): The local path to the loaded project.
        Returns:
@@ -109,7 +142,7 @@ class DistributedJobManager:
        """
        # get new output path in output_dir
-        output_path = job_data.get('output_path')
+        output_path = new_job_attributes.get('output_path')
        if not output_path:
            loaded_project_filename = os.path.basename(loaded_project_local_path)
            output_filename = os.path.splitext(loaded_project_filename)[0]
@@ -123,26 +156,28 @@ class DistributedJobManager:
        logger.debug(f"New job output path: {output_path}")
        # create & configure jobs
-        worker = EngineManager.create_worker(renderer=job_data['renderer'],
+        worker = EngineManager.create_worker(engine_name=new_job_attributes['engine_name'],
                                             input_path=loaded_project_local_path,
                                             output_path=output_path,
-                                             engine_version=job_data.get('engine_version'),
+                                             engine_version=new_job_attributes.get('engine_version'),
-                                             args=job_data.get('args', {}),
+                                             args=new_job_attributes.get('args', {}),
-                                             parent=job_data.get('parent'),
+                                             parent=new_job_attributes.get('parent'),
-                                             name=job_data.get('name'))
+                                             name=new_job_attributes.get('name'))
-        worker.status = job_data.get("initial_status", worker.status)  # todo: is this necessary?
+        worker.status = new_job_attributes.get("initial_status", worker.status)  # todo: is this necessary?
-        worker.priority = int(job_data.get('priority', worker.priority))
+        worker.priority = int(new_job_attributes.get('priority', worker.priority))
-        worker.start_frame = int(job_data.get("start_frame", worker.start_frame))
+        worker.start_frame = int(new_job_attributes.get("start_frame", worker.start_frame))
-        worker.end_frame = int(job_data.get("end_frame", worker.end_frame))
+        worker.end_frame = int(new_job_attributes.get("end_frame", worker.end_frame))
        worker.watchdog_timeout = Config.worker_process_timeout
        worker.hostname = socket.gethostname()
        # determine if we can / should split the job
-        if job_data.get("enable_split_jobs", False) and (worker.total_frames > 1) and not worker.parent:
+        if new_job_attributes.get("enable_split_jobs", False) and (worker.total_frames > 1) and not worker.parent:
-            cls.split_into_subjobs_async(worker, job_data, loaded_project_local_path)
+            cls.split_into_subjobs_async(worker, new_job_attributes, loaded_project_local_path)
        else:
-            logger.debug("Not splitting into subjobs")
+            worker.status = RenderStatus.NOT_STARTED
-        RenderQueue.add_to_render_queue(worker, force_start=job_data.get('force_start', False))
+        RenderQueue.add_to_render_queue(worker, force_start=new_job_attributes.get('force_start', False))
        PreviewManager.update_previews_for_job(worker)
        return worker
@@ -151,9 +186,8 @@ class DistributedJobManager:
    # --------------------------------------------
    @classmethod
-    def handle_subjob_status_change(cls, local_job, subjob_data):
+    def handle_subjob_update_notification(cls, local_job, subjob_data):
-        """
+        """Responds to a notification from a remote subjob and the host requests any subsequent updates from the subjob.
        Responds to a status change from a remote subjob and triggers the creation or modification of subjobs as needed.
        Args:
            local_job (BaseRenderWorker): The local parent job worker.
@@ -162,140 +196,104 @@ class DistributedJobManager:
        subjob_status = string_to_status(subjob_data['status'])
        subjob_id = subjob_data['id']
-        subjob_hostname = next((hostname.split('@')[1] for hostname in local_job.children if
+        subjob_hostname = subjob_data['hostname']
-                                hostname.split('@')[0] == subjob_id), None)
+        subjob_key = f'{subjob_id}@{subjob_hostname}'
-        local_job.children[f'{subjob_id}@{subjob_hostname}'] = subjob_data
+        old_status = local_job.children.get(subjob_key, {}).get('status')
        local_job.children[subjob_key] = subjob_data
-        logname = f"{local_job.id}:{subjob_id}@{subjob_hostname}"
+        logname = f"<Parent: {local_job.id} | Child: {subjob_key}>"
-        logger.debug(f"Subjob status changed: {logname} -> {subjob_status.value}")
+        if old_status != subjob_status.value:
            logger.debug(f"Subjob status changed: {logname} -> {subjob_status.value}")
-        # Download complete or partial render jobs
+        download_success = download_missing_frames_from_subjob(local_job, subjob_id, subjob_hostname)
-        if subjob_status in [RenderStatus.COMPLETED, RenderStatus.CANCELLED, RenderStatus.ERROR] and \
+        if subjob_data['status'] == 'completed' and download_success:
-                subjob_data['file_count']:
+            local_job.children[subjob_key]['download_status'] = 'completed'
            download_result = cls.download_from_subjob(local_job, subjob_id, subjob_hostname)
            if not download_result:
                # todo: handle error
                logger.error(f"Unable to download subjob files from {logname} with status {subjob_status.value}")
        if subjob_status == RenderStatus.CANCELLED or subjob_status == RenderStatus.ERROR:
            # todo: determine missing frames and schedule new job
            pass
    @staticmethod
    def download_from_subjob(local_job, subjob_id, subjob_hostname):
        """
        Downloads and extracts files from a completed subjob on a remote server.
        Parameters:
        local_job (BaseRenderWorker): The local parent job worker.
        subjob_id (str or int): The ID of the subjob.
        subjob_hostname (str): The hostname of the remote server where the subjob is located.
        Returns:
        bool: True if the files have been downloaded and extracted successfully, False otherwise.
        """
        child_key = f'{subjob_id}@{subjob_hostname}'
        logname = f"{local_job.id}:{child_key}"
        zip_file_path = local_job.output_path + f'_{subjob_hostname}_{subjob_id}.zip'
        # download zip file from server
        try:
            local_job.children[child_key]['download_status'] = 'working'
            logger.info(f"Downloading completed subjob files from {subjob_hostname} to localhost")
            RenderServerProxy(subjob_hostname).get_job_files(subjob_id, zip_file_path)
            logger.info(f"File transfer complete for {logname} - Transferred {get_file_size_human(zip_file_path)}")
        except Exception as e:
            logger.error(f"Error downloading files from remote server: {e}")
            local_job.children[child_key]['download_status'] = 'failed'
            return False
        # extract zip
        try:
            logger.debug(f"Extracting zip file: {zip_file_path}")
            extract_path = os.path.dirname(zip_file_path)
            with zipfile.ZipFile(zip_file_path, 'r') as zip_ref:
                zip_ref.extractall(extract_path)
                logger.info(f"Successfully extracted zip to: {extract_path}")
            os.remove(zip_file_path)
            local_job.children[child_key]['download_status'] = 'complete'
        except Exception as e:
            logger.exception(f"Exception extracting zip file: {e}")
            local_job.children[child_key]['download_status'] = 'failed'
        return local_job.children[child_key].get('download_status', None) == 'complete'
    @classmethod
-    def wait_for_subjobs(cls, local_job):
+    def wait_for_subjobs(cls, parent_job):
-        logger.debug(f"Waiting for subjobs for job {local_job}")
+        """Check the status of subjobs and waits until they are all finished. Download rendered frames from subjobs
-        local_job.status = RenderStatus.WAITING_FOR_SUBJOBS
+        when they are completed.
        Args:
            parent_job: Worker object that has child jobs
        Returns:
        """
        logger.debug(f"Waiting for subjobs for job {parent_job}")
        parent_job.status = RenderStatus.WAITING_FOR_SUBJOBS
        statuses_to_download = [RenderStatus.CANCELLED, RenderStatus.ERROR, RenderStatus.COMPLETED]
        def subjobs_not_downloaded():
-            return {k: v for k, v in local_job.children.items() if 'download_status' not in v or
+            return {k: v for k, v in parent_job.children.items() if 'download_status' not in v or
                    v['download_status'] == 'working' or v['download_status'] is None}
-        logger.info(f'Waiting on {len(subjobs_not_downloaded())} subjobs for {local_job.id}')
+        logger.info(f'Waiting on {len(subjobs_not_downloaded())} subjobs for {parent_job.id}')
-        while len(subjobs_not_downloaded()):
+        server_delay = 10
-            for child_key, subjob_cached_data in subjobs_not_downloaded().items():
+        sleep_counter = 0
        while parent_job.status == RenderStatus.WAITING_FOR_SUBJOBS:
-                subjob_id = child_key.split('@')[0]
+            if sleep_counter % server_delay == 0:  # only ping servers every x seconds
-                subjob_hostname = child_key.split('@')[-1]
+                for child_key, subjob_cached_data in subjobs_not_downloaded().items():
-                # Fetch info from server and handle failing case
+                    subjob_id = child_key.split('@')[0]
-                subjob_data = RenderServerProxy(subjob_hostname).get_job_info(subjob_id)
+                    subjob_hostname = child_key.split('@')[-1]
                if not subjob_data:
                    logger.warning(f"No response from: {subjob_hostname}")
                    # todo: handle timeout / missing server situations
                    continue
-                # Update parent job cache but keep the download status
+                    # Fetch info from server and handle failing case
-                download_status = local_job.children[child_key].get('download_status', None)
+                    subjob_data = RenderServerProxy(subjob_hostname).get_job_info(subjob_id)
-                local_job.children[child_key] = subjob_data
+                    if not subjob_data:
-                local_job.children[child_key]['download_status'] = download_status
+                        logger.warning(f"No response from {subjob_hostname}")
                        # timeout / missing server situations
                        parent_job.children[child_key]['download_status'] = f'error: No response from {subjob_hostname}'
                        continue
-                status = string_to_status(subjob_data.get('status', ''))
+                    # Update parent job cache but keep the download status
-                status_msg = f"Subjob {child_key} | {status} | " \
+                    download_status = parent_job.children[child_key].get('download_status', None)
-                             f"{float(subjob_data.get('percent_complete')) * 100.0}%"
+                    parent_job.children[child_key] = subjob_data
-                logger.debug(status_msg)
+                    parent_job.children[child_key]['download_status'] = download_status
-                # Still working in another thread - keep waiting
+                    status = string_to_status(subjob_data.get('status', ''))
-                if download_status == 'working':
+                    status_msg = f"Subjob {child_key} | {status} | " \
-                    continue
+                                 f"{float(subjob_data.get('percent_complete')) * 100.0}%"
                    logger.debug(status_msg)
-                # Check if job is finished, but has not had files copied yet over yet
+                    # Check if job is finished, but has not had files copied yet over yet
-                if download_status is None and subjob_data['file_count'] and status in statuses_to_download:
+                    if download_status is None and subjob_data['file_count'] and status in statuses_to_download:
-                    download_result = cls.download_from_subjob(local_job, subjob_id, subjob_hostname)
+                        try:
-                    if not download_result:
+                            download_missing_frames_from_subjob(parent_job, subjob_id, subjob_hostname)
-                        logger.error("Failed to download from subjob")
+                            parent_job.children[child_key]['download_status'] = 'complete'
-                        # todo: error handling here
+                        except Exception as e:
                            logger.error(f"Error downloading missing frames from subjob: {e}")
                            parent_job.children[child_key]['download_status'] = 'error: {}'
-                # Any finished jobs not successfully downloaded at this point are skipped
+                    # Any finished jobs not successfully downloaded at this point are skipped
-                if local_job.children[child_key].get('download_status', None) is None and \
+                    if parent_job.children[child_key].get('download_status', None) is None and \
-                        status in statuses_to_download:
+                            status in statuses_to_download:
-                    logger.warning(f"Skipping waiting on downloading from subjob: {child_key}")
+                        logger.warning(f"Skipping waiting on downloading from subjob: {child_key}")
-                    local_job.children[child_key]['download_status'] = 'skipped'
+                        parent_job.children[child_key]['download_status'] = 'skipped'
            if subjobs_not_downloaded():
                logger.debug(f"Waiting on {len(subjobs_not_downloaded())} subjobs on "
                             f"{', '.join(list(subjobs_not_downloaded().keys()))}")
-                time.sleep(5)
+                time.sleep(1)
                sleep_counter += 1
            else:  # exit the loop
                parent_job.status = RenderStatus.RUNNING
    # --------------------------------------------
    # Creating Subjobs
    # --------------------------------------------
    @classmethod
-    def split_into_subjobs_async(cls, parent_worker, job_data, project_path, system_os=None):
+    def split_into_subjobs_async(cls, parent_worker, new_job_attributes, project_path, system_os=None):
        # todo: I don't love this
        parent_worker.status = RenderStatus.CONFIGURING
-        cls.background_worker = threading.Thread(target=cls.split_into_subjobs, args=(parent_worker, job_data,
+        cls.background_worker = threading.Thread(target=cls.split_into_subjobs, args=(parent_worker, new_job_attributes,
                                                                                      project_path, system_os))
        cls.background_worker.start()
    @classmethod
-    def split_into_subjobs(cls, parent_worker, job_data, project_path, system_os=None, specific_servers=None):
+    def split_into_subjobs(cls, parent_worker, new_job_attributes, project_path, system_os=None, specific_servers=None):
        """
        Splits a job into subjobs and distributes them among available servers.
@@ -304,43 +302,43 @@ class DistributedJobManager:
        subjob.
        Args:
-            parent_worker (Worker): The worker that is handling the job.
+            parent_worker (Worker): The parent job what we're creating the subjobs for.
-            job_data (dict): The data for the job to be split.
+            new_job_attributes (dict): Dict of desired attributes for new job (frame count, engine, output path, etc)
-            project_path (str): The path to the project associated with the job.
+            project_path (str): The path to the project.
-            system_os (str, optional): The operating system of the servers. Default is any OS.
+            system_os (str, optional): Required OS. Default is any.
            specific_servers (list, optional): List of specific servers to split work between. Defaults to all found.
        """
        # Check availability
-        parent_worker.status = RenderStatus.CONFIGURING
+        available_servers = specific_servers if specific_servers else cls.find_available_servers(parent_worker.engine_name,
-        available_servers = specific_servers if specific_servers else cls.find_available_servers(parent_worker.renderer, system_os)
+                                                                                                 system_os)
-        logger.debug(f"Splitting into subjobs - Available servers: {available_servers}")
+        # skip if theres no external servers found
-        all_subjob_server_data = cls.distribute_server_work(parent_worker.start_frame, parent_worker.end_frame, available_servers)
+        external_servers = [x for x in available_servers if x['hostname'] != parent_worker.hostname]
        if not external_servers:
            parent_worker.status = RenderStatus.NOT_STARTED
            return
        logger.debug(f"Splitting into subjobs - Available servers: {[x['hostname'] for x in available_servers]}")
        all_subjob_server_data = distribute_server_work(parent_worker.start_frame, parent_worker.end_frame, available_servers)
        # Prep and submit these sub-jobs
        logger.info(f"Job {parent_worker.id} split plan: {all_subjob_server_data}")
        try:
            for subjob_data in all_subjob_server_data:
                subjob_hostname = subjob_data['hostname']
-                if subjob_hostname != parent_worker.hostname:
+                post_results = cls.__create_subjob(new_job_attributes, project_path, subjob_data, subjob_hostname,
-                    post_results = cls.__create_subjob(job_data, project_path, subjob_data, subjob_hostname,
+                                                   parent_worker)
-                                                       parent_worker)
+                if not post_results.ok:
-                    if not post_results.ok:
+                    ValueError(f"Failed to create subjob on {subjob_hostname}")
                        ValueError(f"Failed to create subjob on {subjob_hostname}")
-                    # save child info
+                # save child info
-                    submission_results = post_results.json()[0]
+                submission_results = post_results.json()[0]
-                    child_key = f"{submission_results['id']}@{subjob_hostname}"
+                child_key = f"{submission_results['id']}@{subjob_hostname}"
-                    parent_worker.children[child_key] = submission_results
+                parent_worker.children[child_key] = submission_results
                else:
                    # truncate parent render_job
                    parent_worker.start_frame = max(subjob_data['frame_range'][0], parent_worker.start_frame)
                    parent_worker.end_frame = min(subjob_data['frame_range'][-1], parent_worker.end_frame)
                    logger.info(f"Local job now rendering from {parent_worker.start_frame} to {parent_worker.end_frame}")
            # start subjobs
-            logger.debug(f"Created {len(all_subjob_server_data) - 1} subjobs successfully")
+            logger.debug(f"Created {len(all_subjob_server_data)} subjobs successfully")
-            parent_worker.name = f"{parent_worker.name}[{parent_worker.start_frame}-{parent_worker.end_frame}]"
+            parent_worker.name = f"{parent_worker.name} (Parent)"
            parent_worker.status = RenderStatus.NOT_STARTED  # todo: this won't work with scheduled starts
        except Exception as e:
            # cancel all the subjobs
@@ -349,143 +347,24 @@ class DistributedJobManager:
            RenderServerProxy(parent_worker.hostname).cancel_job(parent_worker.id, confirm=True)
    @staticmethod
-    def __create_subjob(job_data, project_path, server_data, server_hostname, parent_worker):
+    def __create_subjob(new_job_attributes, project_path, server_data, server_hostname, parent_worker):
-        subjob = job_data.copy()
+        """Convenience method to create subjobs for a parent worker"""
        subjob = new_job_attributes.copy()
        subjob['name'] = f"{parent_worker.name}[{server_data['frame_range'][0]}-{server_data['frame_range'][-1]}]"
        subjob['parent'] = f"{parent_worker.id}@{parent_worker.hostname}"
        subjob['start_frame'] = server_data['frame_range'][0]
        subjob['end_frame'] = server_data['frame_range'][-1]
-        subjob['engine_version'] = parent_worker.renderer_version
+        subjob['engine_version'] = parent_worker.engine_version
        logger.debug(f"Posting subjob with frames {subjob['start_frame']}-"
                     f"{subjob['end_frame']} to {server_hostname}")
        post_results = RenderServerProxy(server_hostname).post_job_to_server(
-            file_path=project_path, job_list=[subjob])
+            file_path=project_path, job_data=subjob)
        return post_results
    # --------------------------------------------
    # Server Handling
    # --------------------------------------------
    @staticmethod
    def distribute_server_work(start_frame, end_frame, available_servers, method='cpu_benchmark'):
        """
        Splits the frame range among available servers proportionally based on their performance (CPU count).
        Args:
            start_frame (int): The start frame number of the animation to be rendered.
            end_frame (int): The end frame number of the animation to be rendered.
            available_servers (list): A list of available server dictionaries. Each server dictionary should include
            'hostname' and 'cpu_count' keys (see find_available_servers).
            method (str, optional): Specifies the distribution method. Possible values are 'cpu_benchmark', 'cpu_count'
            and 'evenly'.
            Defaults to 'cpu_benchmark'.
        Returns:
            list: A list of server dictionaries where each dictionary includes the frame range and total number of
            frames to be rendered by the server.
        """
        # Calculate respective frames for each server
        def divide_frames_by_cpu_count(frame_start, frame_end, servers):
            total_frames = frame_end - frame_start + 1
            total_cpus = sum(server['cpu_count'] for server in servers)
            frame_ranges = {}
            current_frame = frame_start
            allocated_frames = 0
            for i, server in enumerate(servers):
                if i == len(servers) - 1:  # if it's the last server
                    # Give all remaining frames to the last server
                    num_frames = total_frames - allocated_frames
                else:
                    num_frames = round((server['cpu_count'] / total_cpus) * total_frames)
                    allocated_frames += num_frames
                frame_end_for_server = current_frame + num_frames - 1
                if current_frame <= frame_end_for_server:
                    frame_ranges[server['hostname']] = (current_frame, frame_end_for_server)
                current_frame = frame_end_for_server + 1
            return frame_ranges
        def divide_frames_by_benchmark(frame_start, frame_end, servers):
            def fetch_benchmark(server):
                try:
                    benchmark = requests.get(f'http://{server["hostname"]}:{ZeroconfServer.server_port}'
                                             f'/api/cpu_benchmark').text
                    server['cpu_benchmark'] = benchmark
                    logger.debug(f'Benchmark for {server["hostname"]}: {benchmark}')
                except requests.exceptions.RequestException as e:
                    logger.error(f'Error fetching benchmark for {server["hostname"]}: {e}')
            # Number of threads to use (can adjust based on your needs or number of servers)
            threads = len(servers)
            with ThreadPoolExecutor(max_workers=threads) as executor:
                executor.map(fetch_benchmark, servers)
            total_frames = frame_end - frame_start + 1
            total_performance = sum(int(server['cpu_benchmark']) for server in servers)
            frame_ranges = {}
            current_frame = frame_start
            allocated_frames = 0
            for i, server in enumerate(servers):
                if i == len(servers) - 1:  # if it's the last server
                    # Give all remaining frames to the last server
                    num_frames = total_frames - allocated_frames
                else:
                    num_frames = round((int(server['cpu_benchmark']) / total_performance) * total_frames)
                    allocated_frames += num_frames
                frame_end_for_server = current_frame + num_frames - 1
                if current_frame <= frame_end_for_server:
                    frame_ranges[server['hostname']] = (current_frame, frame_end_for_server)
                current_frame = frame_end_for_server + 1
            return frame_ranges
        def divide_frames_equally(frame_start, frame_end, servers):
            frame_range = frame_end - frame_start + 1
            frames_per_server = frame_range // len(servers)
            leftover_frames = frame_range % len(servers)
            frame_ranges = {}
            current_start = frame_start
            for i, server in enumerate(servers):
                current_end = current_start + frames_per_server - 1
                if leftover_frames > 0:
                    current_end += 1
                    leftover_frames -= 1
                if current_start <= current_end:
                    frame_ranges[server['hostname']] = (current_start, current_end)
                current_start = current_end + 1
            return frame_ranges
        if len(available_servers) == 1:
            breakdown = {available_servers[0]['hostname']: (start_frame, end_frame)}
        else:
            logger.debug(f'Splitting between {len(available_servers)} servers by {method} method')
            if method == 'evenly':
                breakdown = divide_frames_equally(start_frame, end_frame, available_servers)
            elif method == 'cpu_benchmark':
                breakdown = divide_frames_by_benchmark(start_frame, end_frame, available_servers)
            elif method == 'cpu_count':
                breakdown = divide_frames_by_cpu_count(start_frame, end_frame, available_servers)
            else:
                raise ValueError(f"Invalid distribution method: {method}")
        server_breakdown = [server for server in available_servers if breakdown.get(server['hostname']) is not None]
        for server in server_breakdown:
            server['frame_range'] = breakdown[server['hostname']]
            server['total_frames'] = breakdown[server['hostname']][-1] - breakdown[server['hostname']][0] + 1
        return server_breakdown
    @staticmethod
    def find_available_servers(engine_name, system_os=None):
        """
@@ -495,13 +374,15 @@ class DistributedJobManager:
        :param system_os: str, Restrict results to servers running a specific OS
        :return: A list of dictionaries with each dict containing hostname and cpu_count of available servers
        """
        from api.api_server import API_VERSION
        available_servers = []
        for hostname in ZeroconfServer.found_hostnames():
            host_properties = ZeroconfServer.get_hostname_properties(hostname)
-            if not system_os or (system_os and system_os == host_properties.get('system_os')):
+            if host_properties.get('api_version') == API_VERSION:
-                response = RenderServerProxy(hostname).is_engine_available(engine_name)
+                if not system_os or (system_os and system_os == host_properties.get('system_os')):
-                if response and response.get('available', False):
+                    response = RenderServerProxy(hostname).is_engine_available(engine_name)
-                    available_servers.append(response)
+                    if response and response.get('available', False):
                        available_servers.append(response)
        return available_servers
@@ -515,6 +396,6 @@ if __name__ == '__main__':
    time.sleep(2)
    available_servers = DistributedJobManager.find_available_servers('blender')
    print(f"AVAILABLE SERVERS ({len(available_servers)}): {available_servers}")
-    # results = DistributedJobManager.distribute_server_work(1, 100, available_servers)
+    # results = distribute_server_work(1, 100, available_servers)
    # print(f"RESULTS: {results}")
    ZeroconfServer.stop()
@@ -8,7 +8,7 @@ class AERender(BaseRenderEngine):
    def version(self):
        version = None
        try:
-            render_path = self.renderer_path()
+            render_path = self.engine_path()
            if render_path:
                ver_out = subprocess.check_output([render_path, '-version'], timeout=SUBPROCESS_TIMEOUT)
                version = ver_out.decode('utf-8').split(" ")[-1].strip()
@@ -8,8 +8,7 @@ from src.engines.blender.blender_engine import Blender
 from src.engines.core.base_downloader import EngineDownloader
 from src.utilities.misc_helper import current_system_os, current_system_cpu
-# url = "https://download.blender.org/release/"
+url = "https://download.blender.org/release/"
 url = "https://ftp.nluug.nl/pub/graphics/blender/release/"  # much faster mirror for testing
 logger = logging.getLogger()
 supported_formats = ['.zip', '.tar.xz', '.dmg']
@@ -88,8 +87,8 @@ class BlenderDownloader(EngineDownloader):
        threads = []
        results = [[] for _ in majors]
-        def thread_function(major_version, index, system_os, cpu):
+        def thread_function(major_version, index, system_os_t, cpu_t):
-            results[index] = cls.__get_minor_versions(major_version, system_os, cpu)
+            results[index] = cls.__get_minor_versions(major_version, system_os_t, cpu_t)
        for i, m in enumerate(majors):
            thread = threading.Thread(target=thread_function, args=(m, i, system_os, cpu))
@@ -126,7 +125,7 @@ class BlenderDownloader(EngineDownloader):
        return None
    @classmethod
-    def download_engine(cls, version, download_location, system_os=None, cpu=None, timeout=120):
+    def download_engine(cls, version, download_location, system_os=None, cpu=None, timeout=120, progress_callback=None):
        system_os = system_os or current_system_os()
        cpu = cpu or current_system_cpu()
@@ -136,7 +135,7 @@ class BlenderDownloader(EngineDownloader):
            minor_versions = [x for x in cls.__get_minor_versions(major_version, system_os, cpu) if
                              x['version'] == version]
            cls.download_and_extract_app(remote_url=minor_versions[0]['url'], download_location=download_location,
-                                         timeout=timeout)
+                                         timeout=timeout, progress_callback=progress_callback)
        except IndexError:
            logger.error("Cannot find requested engine")
@@ -6,6 +6,8 @@ from src.utilities.misc_helper import system_safe_path
 logger = logging.getLogger()
 _creationflags = subprocess.CREATE_NO_WINDOW if platform.system() == 'Windows' else 0
 class Blender(BaseRenderEngine):
@@ -22,20 +24,21 @@ class Blender(BaseRenderEngine):
        from src.engines.blender.blender_worker import BlenderRenderWorker
        return BlenderRenderWorker
    def ui_options(self):
        from src.engines.blender.blender_ui import BlenderUI
        return BlenderUI.get_options(self)
    @staticmethod
-    def supported_extensions():
+    def ui_options(system_info):
        from src.engines.blender.blender_ui import BlenderUI
        return BlenderUI.get_options(system_info)
    def supported_extensions(self):
        return ['blend']
    def version(self):
        version = None
        try:
-            render_path = self.renderer_path()
+            render_path = self.engine_path()
            if render_path:
-                ver_out = subprocess.check_output([render_path, '-v'], timeout=SUBPROCESS_TIMEOUT)
+                ver_out = subprocess.check_output([render_path, '-v'], timeout=SUBPROCESS_TIMEOUT,
                                                  creationflags=_creationflags)
                version = ver_out.decode('utf-8').splitlines()[0].replace('Blender', '').strip()
        except Exception as e:
            logger.error(f'Failed to get Blender version: {e}')
@@ -49,10 +52,12 @@ class Blender(BaseRenderEngine):
    def run_python_expression(self, project_path, python_expression, timeout=None):
        if os.path.exists(project_path):
            try:
-                return subprocess.run([self.renderer_path(), '-b', project_path, '--python-expr', python_expression],
+                return subprocess.run([self.engine_path(), '-b', project_path, '--python-expr', python_expression],
-                                      capture_output=True, timeout=timeout)
+                                      capture_output=True, timeout=timeout, creationflags=_creationflags)
            except Exception as e:
-                logger.error(f"Error running python expression in blender: {e}")
+                err_msg = f"Error running python expression in blender: {e}"
                logger.error(err_msg)
                raise ChildProcessError(err_msg)
        else:
            raise FileNotFoundError(f'Project file not found: {project_path}')
@@ -64,12 +69,19 @@ class Blender(BaseRenderEngine):
            raise FileNotFoundError(f'Python script not found: {script_path}')
        try:
-            command = [self.renderer_path(), '-b', '--python', script_path]
+            command = [self.engine_path(), '-b', '--python', script_path]
            if project_path:
                command.insert(2, project_path)
-            return subprocess.run(command, capture_output=True, timeout=timeout)
+            result = subprocess.run(command, capture_output=True, timeout=timeout, creationflags=_creationflags)
            return result
        except subprocess.TimeoutExpired:
            err_msg = f"Timed out after {timeout}s while running python script in blender: {script_path}"
            logger.error(err_msg)
            raise TimeoutError(err_msg)
        except Exception as e:
-            logger.exception(f"Error running python script in blender: {e}")
+            err_msg = f"Error running python script in blender: {e}"
            logger.error(err_msg)
            raise ChildProcessError(err_msg)
    def get_project_info(self, project_path, timeout=10):
        scene_info = {}
@@ -86,10 +98,12 @@ class Blender(BaseRenderEngine):
                elif line.startswith('Error'):
                    logger.error(f"get_scene_info error: {line.strip()}")
        except Exception as e:
-            logger.error(f'Error getting file details for .blend file: {e}')
+            msg = f'Error getting file details for .blend file: {e}'
            logger.error(msg)
            raise ChildProcessError(msg)
        return scene_info
-    def pack_project_file(self, project_path, timeout=30):
+    def pack_project_file(self, project_path, timeout=None):
        # Credit to L0Lock for pack script - https://blender.stackexchange.com/a/243935
        try:
            logger.info(f"Starting to pack Blender file: {project_path}")
@@ -103,7 +117,7 @@ class Blender(BaseRenderEngine):
            # report any missing textures
            not_found = re.findall("(Unable to pack file, source path .*)\n", result_text)
            for err in not_found:
-                logger.error(err)
+                raise ChildProcessError(err)
            p = re.compile('Saved to: (.*)\n')
            match = p.search(result_text)
@@ -111,12 +125,15 @@ class Blender(BaseRenderEngine):
                new_path = os.path.join(dir_name, match.group(1).strip())
                logger.info(f'Blender file packed successfully to {new_path}')
                return new_path
            return project_path
        except Exception as e:
-            logger.error(f'Error packing .blend file: {e}')
+            msg = f'Error packing .blend file: {e}'
            logger.error(msg)
            raise ChildProcessError(msg)
        return None
    def get_arguments(self):
-        help_text = subprocess.check_output([self.renderer_path(), '-h']).decode('utf-8')
+        help_text = subprocess.check_output([self.engine_path(), '-h'], creationflags=_creationflags).decode('utf-8')
        lines = help_text.splitlines()
        options = {}
@@ -148,7 +165,7 @@ class Blender(BaseRenderEngine):
        return options
    def system_info(self):
-        return {'render_devices': self.get_render_devices()}
+        return {'render_devices': self.get_render_devices(), 'engines': self.supported_render_engines()}
    def get_render_devices(self):
        script_path = os.path.join(os.path.dirname(os.path.realpath(__file__)), 'scripts', 'get_system_info.py')
@@ -163,13 +180,13 @@ class Blender(BaseRenderEngine):
            logger.error("GPU data not found in the output.")
    def supported_render_engines(self):
-        engine_output = subprocess.run([self.renderer_path(), '-E', 'help'], timeout=SUBPROCESS_TIMEOUT,
+        engine_output = subprocess.run([self.engine_path(), '-E', 'help'], timeout=SUBPROCESS_TIMEOUT,
-                                       capture_output=True).stdout.decode('utf-8').strip()
+                                       capture_output=True, creationflags=_creationflags).stdout.decode('utf-8').strip()
        render_engines = [x.strip() for x in engine_output.split('Blender Engine Listing:')[-1].strip().splitlines()]
        return render_engines
    def perform_presubmission_tasks(self, project_path):
-        packed_path = self.pack_project_file(project_path, timeout=30)
+        packed_path = self.pack_project_file(project_path, timeout=120)
        return packed_path
@@ -1,9 +1,9 @@
 class BlenderUI:
    @staticmethod
-    def get_options(instance):
+    def get_options(system_info):
        options = [
-            {'name': 'engine', 'options': instance.supported_render_engines()},
+            {'name': 'engine', 'options': system_info.get('engines', [])},
            {'name': 'render_device', 'options': ['Any', 'GPU', 'CPU']},
        ]
        return options
@@ -18,30 +18,40 @@ class BlenderRenderWorker(BaseRenderWorker):
        self.__frame_percent_complete = 0.0
        # Scene Info
-        self.scene_info = Blender(engine_path).get_project_info(input_path)
+        self.scene_info = {}
        self.start_frame = int(self.scene_info.get('start_frame', 1))
        self.end_frame = int(self.scene_info.get('end_frame', self.start_frame))
        self.project_length = (self.end_frame - self.start_frame) + 1
        self.current_frame = -1
    def generate_worker_subprocess(self):
-        cmd = [self.renderer_path]
+        self.scene_info = Blender(self.engine_path).get_project_info(self.input_path)
        cmd = [self.engine_path]
        if self.args.get('background', True):  # optionally run render not in background
            cmd.append('-b')
        cmd.append(self.input_path)
        # Set Render Engine
        blender_engine = self.args.get('engine')
        if blender_engine:
            blender_engine = blender_engine.upper()
            cmd.extend(['-E', blender_engine])
        # Start Python expressions - # todo: investigate splitting into separate 'setup' script
        cmd.append('--python-expr')
        python_exp = 'import bpy; bpy.context.scene.render.use_overwrite = False;'
        # Setup Custom Resolution
        if self.args.get('resolution'):
            res = self.args.get('resolution')
            python_exp += 'bpy.context.scene.render.resolution_percentage = 100;'
            python_exp += f'bpy.context.scene.render.resolution_x={res[0]}; bpy.context.scene.render.resolution_y={res[1]};'
        # Setup Custom Camera
        custom_camera = self.args.get('camera', None)
        if custom_camera:
-            python_exp = python_exp + f"bpy.context.scene.camera = bpy.data.objects['{custom_camera}'];"
+            python_exp += f"bpy.context.scene.camera = bpy.data.objects['{custom_camera}'];"
-        # Set Render Device (gpu/cpu/any)
+        # Set Render Device for Cycles (gpu/cpu/any)
        blender_engine = self.args.get('engine', 'BLENDER_EEVEE').upper()
        if blender_engine == 'CYCLES':
            render_device = self.args.get('render_device', 'any').lower()
            if render_device not in {'any', 'gpu', 'cpu'}:
@@ -62,8 +72,11 @@ class BlenderRenderWorker(BaseRenderWorker):
        # Export format
        export_format = self.args.get('export_format', None) or 'JPEG'
-        path_without_ext = os.path.splitext(self.output_path)[0] + "_"
+        main_part, ext = os.path.splitext(self.output_path)
-        cmd.extend(['-E', blender_engine, '-o', path_without_ext, '-F', export_format])
+        # Remove the extension only if it is not composed entirely of digits
        path_without_ext = main_part if not ext[1:].isdigit() else self.output_path
        path_without_ext += "_"
        cmd.extend(['-o', path_without_ext, '-F', export_format])
        # set frame range
        cmd.extend(['-s', self.start_frame, '-e', self.end_frame, '-a'])
@@ -77,11 +90,15 @@ class BlenderRenderWorker(BaseRenderWorker):
    def _parse_stdout(self, line):
-        pattern = re.compile(
+        cycles_pattern = re.compile(
            r'Fra:(?P<frame>\d*).*Mem:(?P<memory>\S+).*Time:(?P<time>\S+)(?:.*Remaining:)?(?P<remaining>\S*)')
-        found = pattern.search(line)
+        cycles_match = cycles_pattern.search(line)
-        if found:
+        eevee_pattern = re.compile(
-            stats = found.groupdict()
+            r"Rendering\s+(?P<current>\d+)\s*/\s*(?P<total>\d+)\s+samples"
        )
        eevee_match = eevee_pattern.search(line)
        if cycles_match:
            stats = cycles_match.groupdict()
            memory_use = stats['memory']
            time_elapsed = stats['time']
            time_remaining = stats['remaining'] or 'Unknown'
@@ -96,6 +113,11 @@ class BlenderRenderWorker(BaseRenderWorker):
                logger.debug(
                    'Frame:{0} | Mem:{1} | Time:{2} | Remaining:{3}'.format(self.current_frame, memory_use,
                                                                            time_elapsed, time_remaining))
        elif eevee_match:
            self.__frame_percent_complete = int(eevee_match.groups()[0]) / int(eevee_match.groups()[1])
            logger.debug(f'Frame:{self.current_frame} | Samples:{eevee_match.groups()[0]}/{eevee_match.groups()[1]}')
        elif "Rendering frame" in line: # used for eevee
            self.current_frame = int(line.split("Rendering frame")[-1].strip())
        elif "file doesn't exist" in line.lower():
            self.log_error(line, halt_render=True)
        elif line.lower().startswith('error'):
@@ -107,6 +129,7 @@ class BlenderRenderWorker(BaseRenderWorker):
                output_file_number = output_filename_match.groups()[0]
                try:
                    self.current_frame = int(output_file_number)
                    self._send_frame_complete_notification()
                except ValueError:
                    pass
            elif render_stats_match:
@@ -115,15 +138,15 @@ class BlenderRenderWorker(BaseRenderWorker):
                logger.info(f'Frame #{self.current_frame} - '
                            f'{frame_count} of {self.total_frames} completed in {time_completed} | '
                            f'Total Elapsed Time: {datetime.now() - self.start_time}')
            else:
                logger.debug(f'DEBUG: {line}')
        else:
            pass
            # if len(line.strip()):
            #     logger.debug(line.strip())
    def percent_complete(self):
-        if self.total_frames <= 1:
+        if self.status == RenderStatus.COMPLETED:
            return 1
        elif self.total_frames <= 1:
            return self.__frame_percent_complete
        else:
            whole_frame_percent = (self.current_frame - self.start_frame) / self.total_frames
@@ -1,9 +1,7 @@
 import logging
 import os
 import shutil
 import tarfile
 import tempfile
 import zipfile
 import requests
 from tqdm import tqdm
@@ -12,26 +10,154 @@ logger = logging.getLogger()
 class EngineDownloader:
    """A class responsible for downloading and extracting rendering engines from publicly available URLs.
    Attributes:
        supported_formats (list[str]): A list of file formats supported by the downloader.
    """
    supported_formats = ['.zip', '.tar.xz', '.dmg']
    def __init__(self):
        pass
    # --------------------------------------------
    # Required Overrides for Subclasses:
    # --------------------------------------------
    @classmethod
    def find_most_recent_version(cls, system_os=None, cpu=None, lts_only=False):
-        raise NotImplementedError  # implement this method in your engine subclass
+        """
        Finds the most recent version of the rendering engine available for download.
        This method should be overridden in a subclass to implement the logic for determining
        the most recent version of the rendering engine, optionally filtering by long-term
        support (LTS) versions, the operating system, and CPU architecture.
        Args:
            system_os (str, optional): Desired OS ('linux', 'macos', 'windows'). Defaults to system os.
            cpu (str, optional): The CPU architecture for which to download the engine. Default is system cpu.
            lts_only (bool, optional): Limit the search to LTS (long-term support) versions only. Default is False.
        Returns:
            dict: A dict with the following keys:
                - 'cpu' (str): The CPU architecture.
                - 'system_os' (str): The operating system.
                - 'file' (str): The filename of the version's download file.
                - 'url' (str): The remote URL for downloading the version.
                - 'version' (str): The version number.
        Raises:
            NotImplementedError: If the method is not overridden in a subclass.
        """
        raise NotImplementedError(f"find_most_recent_version not implemented for {cls.__class__.__name__}")
    @classmethod
    def version_is_available_to_download(cls, version, system_os=None, cpu=None):
-        raise NotImplementedError  # implement this method in your engine subclass
+        """Checks if a requested version of the rendering engine is available for download.
        This method should be overridden in a subclass to implement the logic for determining
        whether a given version of the rendering engine is available for download, based on the
        operating system and CPU architecture.
        Args:
            version (str): The requested renderer version to download.
            system_os (str, optional): Desired OS ('linux', 'macos', 'windows'). Defaults to system os.
            cpu (str, optional): The CPU architecture for which to download the engine. Default is system cpu.
        Returns:
            bool: True if the version is available for download, False otherwise.
        Raises:
            NotImplementedError: If the method is not overridden in a subclass.
        """
        raise NotImplementedError(f"version_is_available_to_download not implemented for {cls.__class__.__name__}")
    @classmethod
-    def download_engine(cls, version, download_location, system_os=None, cpu=None, timeout=120):
+    def download_engine(cls, version, download_location, system_os=None, cpu=None, timeout=120, progress_callback=None):
-        raise NotImplementedError  # implement this method in your engine subclass
+        """Downloads the requested version of the rendering engine to the given download location.
        This method should be overridden in a subclass to implement the logic for downloading
        a specific version of the rendering engine. The method is intended to handle the
        downloading process based on the version, operating system, CPU architecture, and
        timeout parameters.
        Args:
            version (str): The requested renderer version to download.
            download_location (str): The directory where the engine should be downloaded.
            system_os (str, optional): Desired OS ('linux', 'macos', 'windows'). Defaults to system os.
            cpu (str, optional): The CPU architecture for which to download the engine. Default is system cpu.
            timeout (int, optional): The maximum time in seconds to wait for the download. Default is 120 seconds.
            progress_callback (callable, optional): A callback function that is called periodically with the current download progress.
        Raises:
            NotImplementedError: If the method is not overridden in a subclass.
        """
        raise NotImplementedError(f"download_engine not implemented for {cls.__class__.__name__}")
    # --------------------------------------------
    # Optional Overrides for Subclasses:
    # --------------------------------------------
    @classmethod
-    def download_and_extract_app(cls, remote_url, download_location, timeout=120):
+    def all_versions(cls, system_os=None, cpu=None):
        """Retrieves a list of available versions of the software for a specific operating system and CPU architecture.
        This method fetches all available versions for the given operating system and CPU type, constructing
        a list of dictionaries containing details such as the version, CPU architecture, system OS, and the
        remote URL for downloading each version.
        Args:
            system_os (str, optional): Desired OS ('linux', 'macos', 'windows'). Defaults to system os.
            cpu (str, optional): The CPU architecture for which to download the engine. Default is system cpu.
        Returns:
            list[dict]: A list of dictionaries, each containing:
                - 'cpu' (str): The CPU architecture.
                - 'file' (str): The filename of the version's download file.
                - 'system_os' (str): The operating system.
                - 'url' (str): The remote URL for downloading the version.
                - 'version' (str): The version number.
        """
        return []
    # --------------------------------------------
    # Do Not Override These Methods:
    # --------------------------------------------
    @classmethod
    def download_and_extract_app(cls, remote_url, download_location, timeout=120, progress_callback=None):
        """Downloads an application from the given remote URL and extracts it to the specified location.
        This method handles the downloading of the application, supports multiple archive formats,
        and extracts the contents to the specified `download_location`. It also manages temporary
        files and logs progress throughout the process.
        Args:
            remote_url (str): The URL of the application to download.
            download_location (str): The directory where the application should be extracted.
            timeout (int, optional): The maximum time in seconds to wait for the download. Default is 120 seconds.
            progress_callback (callable, optional): A callback function that is called periodically with the current download progress.
        Returns:
            str: The path to the directory where the application was extracted.
        Raises:
            Exception: Catches and logs any exceptions that occur during the download or extraction process.
        Supported Formats:
            - `.tar.xz`: Extracted using the `tarfile` module.
            - `.zip`: Extracted using the `zipfile` module.
            - `.dmg`: macOS disk image files, handled using the `dmglib` library.
            - Other formats will result in an error being logged.
        Notes:
            - If the application already exists in the `download_location`, the method will log an error
              and return without downloading or extracting.
            - Temporary files created during the download process are cleaned up after completion.
        """
        if progress_callback:
            progress_callback(0)
        # Create a temp download directory
        temp_download_dir = tempfile.mkdtemp()
@@ -44,7 +170,7 @@ class EngineDownloader:
            if os.path.exists(os.path.join(download_location, output_dir_name)):
                logger.error(f"Engine download for {output_dir_name} already exists")
-                return
+                return None
            if not os.path.exists(temp_downloaded_file_path):
                # Make a GET request to the URL with stream=True to enable streaming
@@ -60,26 +186,33 @@ class EngineDownloader:
                    progress_bar = tqdm(total=file_size, unit="B", unit_scale=True)
                    # Open a file for writing in binary mode
                    total_saved = 0
                    with open(temp_downloaded_file_path, "wb") as file:
                        for chunk in response.iter_content(chunk_size=1024):
                            if chunk:
                                # Write the chunk to the file
                                file.write(chunk)
                                total_saved += len(chunk)
                                # Update the progress bar
                                progress_bar.update(len(chunk))
                                if progress_callback:
                                    percent = float(total_saved) / float(file_size)
                                    progress_callback(percent)
                    # Close the progress bar
                    progress_callback(1.0)
                    progress_bar.close()
                    logger.info(f"Successfully downloaded {os.path.basename(temp_downloaded_file_path)}")
                else:
                    logger.error(f"Failed to download the file. Status code: {response.status_code}")
-                    return
+                    return None
            os.makedirs(download_location, exist_ok=True)
            # Extract the downloaded file
            # Process .tar.xz files
            if temp_downloaded_file_path.lower().endswith('.tar.xz'):
                import tarfile
                try:
                    with tarfile.open(temp_downloaded_file_path, 'r:xz') as tar:
                        tar.extractall(path=download_location)
@@ -93,6 +226,7 @@ class EngineDownloader:
            # Process .zip files
            elif temp_downloaded_file_path.lower().endswith('.zip'):
                import zipfile
                try:
                    with zipfile.ZipFile(temp_downloaded_file_path, 'r') as zip_ref:
                        zip_ref.extractall(download_location)
@@ -1,5 +1,6 @@
 import logging
 import os
 import platform
 import subprocess
 logger = logging.getLogger()
@@ -7,28 +8,148 @@ SUBPROCESS_TIMEOUT = 5
 class BaseRenderEngine(object):
    """Base class for render engines. This class provides common functionality and structure for various rendering
    engines. Create subclasses and override the methods marked below to add additional engines
    Attributes:
        install_paths (list): A list of default installation paths where the render engine
        might be found. This list can be populated with common paths to help locate the
        executable on different operating systems or environments.
    """
    install_paths = []
-    supported_extensions = []
+
    # --------------------------------------------
    # Required Overrides for Subclasses:
    # --------------------------------------------
    def __init__(self, custom_path=None):
-        self.custom_renderer_path = custom_path
+        self.custom_engine_path = custom_path
-        if not self.renderer_path() or not os.path.exists(self.renderer_path()):
+        if not self.engine_path() or not os.path.exists(self.engine_path()):
-            raise FileNotFoundError(f"Cannot find path to renderer for {self.name()} instance")
+            raise FileNotFoundError(f"Cannot find path to engine for {self.name()} instance: {self.engine_path()}")
-        if not os.access(self.renderer_path(), os.X_OK):
+        if not os.access(self.engine_path(), os.X_OK):
-            logger.warning(f"Path is not executable. Setting permissions to 755 for {self.renderer_path()}")
+            logger.warning(f"Path is not executable. Setting permissions to 755 for {self.engine_path()}")
-            os.chmod(self.renderer_path(), 0o755)
+            os.chmod(self.engine_path(), 0o755)
-    def renderer_path(self):
+    def version(self):
-        return self.custom_renderer_path or self.default_renderer_path()
+        """Return the version number as a string.
        Returns:
            str: Version number.
        Raises:
            NotImplementedError: If not overridden.
        """
        raise NotImplementedError(f"version not implemented for {self.__class__.__name__}")
    def get_project_info(self, project_path, timeout=10):
        """Extracts detailed project information from the given project path.
        Args:
            project_path (str): The path to the project file.
            timeout (int, optional): The maximum time (in seconds) to wait for the operation. Default is 10 seconds.
        Returns:
            dict: A dictionary containing project information (subclasses should define the structure).
        Raises:
            NotImplementedError: If the method is not overridden in a subclass.
        """
        raise NotImplementedError(f"get_project_info not implemented for {self.__class__.__name__}")
    @classmethod
    def get_output_formats(cls):
        """Returns a list of available output formats supported by the engine.
        Returns:
            list[str]: A list of strings representing the available output formats.
        """
        raise NotImplementedError(f"get_output_formats not implemented for {cls.__name__}")
    @staticmethod
    def worker_class():  # override when subclassing to link worker class
        raise NotImplementedError("Worker class not implemented")
    # --------------------------------------------
    # Optional Overrides for Subclasses:
    # --------------------------------------------
    def supported_extensions(self):
        """
        Returns:
            list[str]: list of supported extensions
        """
        return []
    def get_help(self):
        """Retrieves the help documentation for the engine.
        This method runs the engine's help command (default: '-h') and captures the output.
        Override this method if the engine uses a different help flag.
        Returns:
            str: The help documentation as a string.
        Raises:
            FileNotFoundError: If the engine path is not found.
        """
        path = self.engine_path()
        if not path:
            raise FileNotFoundError(f"Engine path not found: {path}")
        creationflags = subprocess.CREATE_NO_WINDOW if platform.system() == 'Windows' else 0
        help_doc = subprocess.check_output([path, '-h'], stderr=subprocess.STDOUT,
                                           timeout=SUBPROCESS_TIMEOUT, creationflags=creationflags).decode('utf-8')
        return help_doc
    def system_info(self):
        """Return additional information about the system specfic to the engine (configured GPUs, render engines, etc)
        Returns:
            dict: A dictionary with engine-specific system information
        """
        return {}
    def perform_presubmission_tasks(self, project_path):
        """Perform any pre-submission tasks on a project file before uploading it to a server (pack textures, etc.)
        Override this method to:
            1. Copy the project file to a temporary location (DO NOT MODIFY ORIGINAL PATH).
            2. Perform additional modifications or tasks.
            3. Return the path to the modified project file.
        Args:
            project_path (str): The original project file path.
        Returns:
            str: The path to the modified project file.
        """
        return project_path
    def get_arguments(self):
        pass
    @staticmethod
    def downloader():  # override when subclassing if using a downloader class
        return None
    @staticmethod
    def ui_options(system_info):  # override to return options for ui
        return {}
    # --------------------------------------------
    # Do Not Override These Methods:
    # --------------------------------------------
    def engine_path(self):
        return self.custom_engine_path or self.default_engine_path()
    @classmethod
    def name(cls):
        return str(cls.__name__).lower()
    @classmethod
-    def default_renderer_path(cls):
+    def default_engine_path(cls):
        path = None
        try:  # Linux and macOS
            path = subprocess.check_output(['which', cls.name()], timeout=SUBPROCESS_TIMEOUT).decode('utf-8').strip()
@@ -39,41 +160,3 @@ class BaseRenderEngine(object):
        except Exception as e:
            logger.exception(e)
        return path
    def version(self):
        raise NotImplementedError("version not implemented")
    @staticmethod
    def downloader():  # override when subclassing if using a downloader class
        return None
    @staticmethod
    def worker_class():  # override when subclassing to link worker class
        raise NotImplementedError("Worker class not implemented")
    def ui_options(self):  # override to return options for ui
        return {}
    def get_help(self):  # override if renderer uses different help flag
        path = self.renderer_path()
        if not path:
            raise FileNotFoundError("renderer path not found")
        help_doc = subprocess.check_output([path, '-h'], stderr=subprocess.STDOUT,
                                           timeout=SUBPROCESS_TIMEOUT).decode('utf-8')
        return help_doc
    def get_project_info(self, project_path, timeout=10):
        raise NotImplementedError(f"get_project_info not implemented for {self.__name__}")
    @classmethod
    def get_output_formats(cls):
        raise NotImplementedError(f"get_output_formats not implemented for {cls.__name__}")
    def get_arguments(self):
        pass
    def system_info(self):
        pass
    def perform_presubmission_tasks(self, project_path):
        return project_path
@@ -3,8 +3,10 @@ import io
 import json
 import logging
 import os
 import signal
 import subprocess
 import threading
 import time
 from datetime import datetime
 import psutil
@@ -30,11 +32,10 @@ class BaseRenderWorker(Base):
    date_created = Column(DateTime)
    start_time = Column(DateTime, nullable=True)
    end_time = Column(DateTime, nullable=True)
-    renderer = Column(String)
+    engine_name = Column(String)
-    renderer_version = Column(String)
+    engine_version = Column(String)
-    renderer_path = Column(String)
+    engine_path = Column(String)
    priority = Column(Integer)
    project_length = Column(Integer)
    start_frame = Column(Integer)
    end_frame = Column(Integer, nullable=True)
    parent = Column(String, nullable=True)
@@ -44,18 +45,20 @@ class BaseRenderWorker(Base):
    file_hash = Column(String)
    _status = Column(String)
-    engine = None
+    # --------------------------------------------
    # Required Overrides for Subclasses:
    # --------------------------------------------
    def __init__(self, input_path, output_path, engine_path, priority=2, args=None, ignore_extensions=True, parent=None,
                 name=None):
        if not ignore_extensions:
            if not any(ext in input_path for ext in self.engine.supported_extensions()):
-                err_meg = f'Cannot find valid project with supported file extension for {self.engine.name()} renderer'
+                err_meg = f"Cannot find valid project with supported file extension for '{self.engine.name()}'"
                logger.error(err_meg)
                raise ValueError(err_meg)
        if not self.engine:
-            raise NotImplementedError("Engine not defined")
+            raise NotImplementedError(f"Engine not defined for {self.__class__.__name__}")
        def generate_id():
            import uuid
@@ -68,10 +71,10 @@ class BaseRenderWorker(Base):
        self.output_path = output_path
        self.args = args or {}
        self.date_created = datetime.now()
-        self.renderer = self.engine.name()
+        self.engine_name = self.engine.name()
-        self.renderer_path = engine_path
+        self.engine_path = engine_path
-        self.renderer_version = self.engine(engine_path).version()
+        self.engine_version = self.engine(engine_path).version()
-        self.custom_renderer_path = None
+        self.custom_engine_path = None
        self.priority = priority
        self.parent = parent
        self.children = {}
@@ -79,7 +82,6 @@ class BaseRenderWorker(Base):
        self.maximum_attempts = 3
        # Frame Ranges
        self.project_length = 0  # is this necessary?
        self.current_frame = 0
        self.start_frame = 0
        self.end_frame = None
@@ -89,19 +91,68 @@ class BaseRenderWorker(Base):
        self.end_time = None
        # History
-        self.status = RenderStatus.NOT_STARTED
+        self.status = RenderStatus.CONFIGURING
        self.warnings = []
        self.errors = []
        # Threads and processes
-        self.__thread = threading.Thread(target=self.run, args=())
+        self.__thread = threading.Thread(target=self.__run, args=())
        self.__thread.daemon = True
        self.__process = None
        self.last_output = None
        self.__last_output_time = None
        self.watchdog_timeout = 120
    def generate_worker_subprocess(self):
        """Generate a return a list of the command line arguments necessary to perform requested job
        Returns:
            list[str]: list of command line arguments
        """
        raise NotImplementedError("generate_worker_subprocess not implemented")
    def _parse_stdout(self, line):
        """Parses a line of standard output from the engine.
        This method should be overridden in a subclass to implement the logic for processing
        and interpreting a single line of output from the engine's standard output stream.
        On frame completion, the subclass should:
            1. Update value of self.current_frame
            2. Call self._send_frame_complete_notification()
        Args:
            line (str): A line of text from the engine's standard output.
        Raises:
            NotImplementedError: If the method is not overridden in a subclass.
        """
        raise NotImplementedError(f"_parse_stdout not implemented for {self.__class__.__name__}")
    # --------------------------------------------
    # Optional Overrides for Subclasses:
    # --------------------------------------------
    def percent_complete(self):
        # todo: fix this
        if self.status == RenderStatus.COMPLETED:
            return 1.0
        return 0
    def post_processing(self):
        """Override to perform any engine-specific postprocessing"""
        pass
    # --------------------------------------------
    # Do Not Override These Methods:
    # --------------------------------------------
    def __repr__(self):
        return f"<Job id:{self.id} p{self.priority} {self.engine_name}-{self.engine_version} '{self.name}' status:{self.status.value}>"
    @property
    def total_frames(self):
-        return (self.end_frame or self.project_length) - self.start_frame + 1
+        return max(self.end_frame, 1) - self.start_frame + 1
    @property
    def status(self):
@@ -121,33 +172,27 @@ class BaseRenderWorker(Base):
                self._status = RenderStatus.CANCELLED.value
        return string_to_status(self._status)
-    def validate(self):
+    def _send_frame_complete_notification(self):
-        if not os.path.exists(self.input_path):
+        pub.sendMessage('frame_complete', job_id=self.id, frame_number=self.current_frame)
            raise FileNotFoundError(f"Cannot find input path: {self.input_path}")
        self.generate_subprocess()
    def generate_subprocess(self):
        # Convert raw args from string if available and catch conflicts
        generated_args = [str(x) for x in self.generate_worker_subprocess()]
        generated_args_flags = [x for x in generated_args if x.startswith('-')]
        if len(generated_args_flags) != len(set(generated_args_flags)):
-            msg = "Cannot generate subprocess - Multiple arg conflicts detected"
+            msg = f"Cannot generate subprocess - Multiple arg conflicts detected: {generated_args}"
            logger.error(msg)
            logger.debug(f"Generated args for subprocess: {generated_args}")
            raise ValueError(msg)
        return generated_args
    def get_raw_args(self):
-        raw_args_string = self.args.get('raw', None)
+        raw_args_string = self.args.get('raw', '')
        raw_args = None
        if raw_args_string:
            import shlex
            raw_args = shlex.split(raw_args_string)
        return raw_args
    def generate_worker_subprocess(self):
        raise NotImplementedError("generate_worker_subprocess not implemented")
    def log_path(self):
        filename = (self.name or os.path.basename(self.input_path)) + '_' + \
                   self.date_created.strftime("%Y.%m.%d_%H.%M.%S") + '.log'
@@ -155,7 +200,7 @@ class BaseRenderWorker(Base):
    def start(self):
-        if self.status not in [RenderStatus.SCHEDULED, RenderStatus.NOT_STARTED]:
+        if self.status not in [RenderStatus.SCHEDULED, RenderStatus.NOT_STARTED, RenderStatus.CONFIGURING]:
            logger.error(f"Trying to start job with status: {self.status}")
            return
@@ -166,108 +211,225 @@ class BaseRenderWorker(Base):
            self.errors.append(msg)
            return
-        if not os.path.exists(self.renderer_path):
+        if not os.path.exists(self.engine_path):
            self.status = RenderStatus.ERROR
            msg = f'Cannot find render engine path for {self.engine.name()}'
            logger.error(msg)
            self.errors.append(msg)
            return
-        self.status = RenderStatus.RUNNING
+        self.status = RenderStatus.RUNNING if not self.children else RenderStatus.WAITING_FOR_SUBJOBS
        self.start_time = datetime.now()
        logger.info(f'Starting {self.engine.name()} {self.renderer_version} Render for {self.input_path} | '
                    f'Frame Count: {self.total_frames}')
        self.__thread.start()
-    def run(self):
+    # handle multiple attempts at running subprocess
-        # Setup logging
+    def __run__subprocess_cycle(self, log_file):
        log_dir = os.path.dirname(self.log_path())
        os.makedirs(log_dir, exist_ok=True)
        subprocess_cmds = self.generate_subprocess()
        initial_file_count = len(self.file_list())
        failed_attempts = 0
-        with open(self.log_path(), "a") as f:
+        log_file.write(f"Running command: {subprocess_cmds}\n")
        log_file.write('=' * 80 + '\n\n')
-            f.write(f"{self.start_time.isoformat()} - Starting {self.engine.name()} {self.renderer_version} "
+        while True:
-                    f"render for {self.input_path}\n\n")
+            # Log attempt #
-            f.write(f"Running command: {subprocess_cmds}\n")
+            if failed_attempts:
-            f.write('=' * 80 + '\n\n')
+                if failed_attempts >= self.maximum_attempts:
                    err_msg = f"Maximum attempts exceeded ({self.maximum_attempts})"
                    logger.error(err_msg)
                    self.status = RenderStatus.ERROR
                    self.errors.append(err_msg)
                    return
                else:
                    log_file.write(f'\n{"=" * 20} Attempt #{failed_attempts + 1} {"=" * 20}\n\n')
                    logger.warning(f"Restarting render - Attempt #{failed_attempts + 1}")
                    self.status = RenderStatus.RUNNING
-            while True:
+            return_code = self.__setup_and_run_process(log_file, subprocess_cmds)
                # Log attempt #
                if failed_attempts:
                    if failed_attempts >= self.maximum_attempts:
                        err_msg = f"Maximum attempts exceeded ({self.maximum_attempts})"
                        logger.error(err_msg)
                        self.status = RenderStatus.ERROR
                        self.errors.append(err_msg)
                        return
                    else:
                        f.write(f'\n{"=" * 20} Attempt #{failed_attempts + 1} {"=" * 20}\n\n')
                        logger.warning(f"Restarting render - Attempt #{failed_attempts + 1}")
                        self.status = RenderStatus.RUNNING
-                # Start process and get updates
+            message = f"{'=' * 50}\n\n{self.engine.name()} render ended with code {return_code} " \
                      f"after {self.time_elapsed()}\n\n"
            log_file.write(message)
            # don't try again if we've been cancelled
            if self.status in [RenderStatus.CANCELLED, RenderStatus.ERROR]:
                return
            # if file output hasn't increased, return as error, otherwise restart process.
            file_count_has_increased = len(self.file_list()) > initial_file_count
            if (self.status == RenderStatus.RUNNING) and file_count_has_increased and not return_code:
                break
            if return_code:
                err_msg = f"{self.engine.name()} render failed with code {return_code}"
                logger.error(err_msg)
                self.errors.append(err_msg)
            # handle instances where engine exits ok but doesnt generate files
            if not return_code and not file_count_has_increased:
                err_msg = (f"{self.engine.name()} render exited ok, but file count has not increased. "
                           f"Count is still {len(self.file_list())}")
                log_file.write(f'Error: {err_msg}\n\n')
                self.errors.append(err_msg)
            # only count the attempt as failed if engine creates no output - reset counter on successful output
            failed_attempts = 0 if file_count_has_increased else failed_attempts + 1
    def __run__wait_for_subjobs(self, logfile):
        from src.distributed_job_manager import DistributedJobManager
        DistributedJobManager.wait_for_subjobs(parent_job=self)
    @staticmethod
    def log_and_print(message, log_file, level='info'):
        if level == 'debug':
            logger.debug(message)
        elif level == 'error':
            logger.error(message)
        else:
            logger.info(message)
        log_file.write(f"{message}\n")
    def __run(self):
        # Setup logging
        log_dir = os.path.dirname(self.log_path())
        os.makedirs(log_dir, exist_ok=True)
        with open(self.log_path(), "a") as log_file:
            self.log_and_print(f"{self.start_time.isoformat()} - Starting "
                               f"{self.engine.name()} {self.engine_version} render job for {self.name} "
                               f"({self.input_path})", log_file)
            log_file.write(f"\n")
            if not self.children:
                self.__run__subprocess_cycle(log_file)
            else:
                self.__run__wait_for_subjobs(log_file)
            # Validate Output - End if missing frames
            if self.status == RenderStatus.RUNNING:
                file_list_length = len(self.file_list())
                expected_list_length = (self.end_frame - self.start_frame + 1) if self.end_frame else 1
                msg = f"Frames: Expected ({expected_list_length}) vs actual ({file_list_length}) for {self}"
                self.log_and_print(msg, log_file, 'debug')
                if file_list_length not in (expected_list_length, 1):
                    msg = f"Missing frames: Expected ({expected_list_length}) vs actual ({file_list_length})"
                    self.log_and_print(msg, log_file, 'error')
                    self.errors.append(msg)
                    self.status = RenderStatus.ERROR
                    # todo: create new subjob to generate missing frames
            # cleanup and close if cancelled / error
            if self.status in [RenderStatus.CANCELLED, RenderStatus.ERROR]:
                self.end_time = datetime.now()
                message = f"{self.engine.name()} render ended with status '{self.status.value}' " \
                          f"after {self.time_elapsed()}"
                self.log_and_print(message, log_file)
                log_file.close()
                return
            # Post Render Work
            if not self.parent:
                logger.debug(f"Starting post-processing work for {self}")
                self.log_and_print(f"Starting post-processing work for {self}", log_file, 'debug')
                self.post_processing()
                self.log_and_print(f"Completed post-processing work for {self}", log_file, 'debug')
            self.status = RenderStatus.COMPLETED
            self.end_time = datetime.now()
            message = f"Render {self.name} completed successfully after {self.time_elapsed()}"
            self.log_and_print(message, log_file)
    def __setup_and_run_process(self, f, subprocess_cmds):
        def watchdog():
            logger.debug(f'Starting process watchdog for {self} with {self.watchdog_timeout}s timeout')
            while self.__process.poll() is None:
                time_since_last_update = time.time() - self.__last_output_time
                if time_since_last_update > self.watchdog_timeout:
                    logger.error(f"Process for {self} terminated due to exceeding timeout ({self.watchdog_timeout}s)")
                    self.__kill_process()
                    break
                # logger.debug(f'Watchdog for {self} - Time since last update: {time_since_last_update}')
                time.sleep(1)
            logger.debug(f'Stopping process watchdog for {self}')
        return_code = -1
        watchdog_thread = threading.Thread(target=watchdog)
        watchdog_thread.daemon = True
        try:
            # Start process and get updates
            if os.name == 'posix':  # linux / mac
                self.__process = subprocess.Popen(subprocess_cmds, stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
-                                                  universal_newlines=False)
+                                                  universal_newlines=False, preexec_fn=os.setsid)
            else:  # windows
                creationflags = subprocess.CREATE_NEW_PROCESS_GROUP | subprocess.CREATE_NO_WINDOW
                self.__process = subprocess.Popen(subprocess_cmds, stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
                                                  universal_newlines=False,
                                                  creationflags=creationflags)
-                for c in io.TextIOWrapper(self.__process.stdout, encoding="utf-8"):  # or another encoding
+            # Start watchdog
            self.__last_output_time = time.time()
            watchdog_thread.start()
            for c in io.TextIOWrapper(self.__process.stdout, encoding="utf-8"):  # or another encoding
                self.last_output = c.strip()
                self.__last_output_time = time.time()
                try:
                    f.write(c)
                    f.flush()
                    os.fsync(f.fileno())
-                    self.last_output = c.strip()
+                except Exception as e:
                    logger.error(f"Error saving log to disk: {e}")
                try:
                    self._parse_stdout(c.strip())
                except Exception as e:
                    logger.error(f'Error parsing stdout: {e}')
-                f.write('\n')
+            f.write('\n')
-                # Check return codes and process
+            # Check return codes and process
-                return_code = self.__process.wait()
+            return_code = self.__process.wait()
-                self.end_time = datetime.now()
+        except Exception as e:
            message = f'Uncaught error running render process: {e}'
            f.write(message)
            logger.exception(message)
            self.__kill_process()
-                if self.status in [RenderStatus.CANCELLED, RenderStatus.ERROR]:  # user cancelled
+        # let watchdog end before continuing - prevents multiple watchdogs running when process restarts
-                    message = f"{self.engine.name()} render ended with status '{self.status}' " \
+        if watchdog_thread.is_alive():
-                              f"after {self.time_elapsed()}"
+            watchdog_thread.join()
                    f.write(message)
                    return
-                # if file output hasn't increased, return as error, otherwise restart process.
+        return return_code
                if len(self.file_list()) <= initial_file_count:
                    err_msg = f"File count has not increased. Count is still {len(self.file_list())}"
                    f.write(f'Error: {err_msg}\n\n')
                    self.errors.append(err_msg)
                    self.status = RenderStatus.ERROR
-                # Handle completed - All else counts as failed attempt
+    def __kill_process(self):
-                if (self.status == RenderStatus.COMPLETED) and not return_code:
+        try:
-                    message = (f"{'=' * 50}\n\n{self.engine.name()} render completed successfully in "
+            if self.__process.poll():
-                               f"{self.time_elapsed()}\n")
+                return
-                    f.write(message)
+            logger.debug(f"Trying to kill process {self.__process}")
-                    break
+            self.__process.terminate()
-
+            self.__process.kill()
-                # Handle non-zero return codes
+            if os.name == 'posix':  # linux / macos
-                message = f"{'=' * 50}\n\n{self.engine.name()} render failed with code {return_code} " \
+                os.killpg(os.getpgid(self.__process.pid), signal.SIGTERM)
-                          f"after {self.time_elapsed()}\n\n"
+                os.killpg(os.getpgid(self.__process.pid), signal.SIGKILL)
-                f.write(message)
+            else:  # windows
-                self.errors.append(message)
+                parent = psutil.Process(self.__process.pid)
-                failed_attempts += 1
+                for child in parent.children(recursive=True):
-
+                    child.kill()
-        if self.children:
+            self.__process.wait(timeout=5)
-            from src.distributed_job_manager import DistributedJobManager
+            logger.debug(f"Process ended with status {self.__process.poll()}")
-            DistributedJobManager.wait_for_subjobs(local_job=self)
+        except (ProcessLookupError, AttributeError, psutil.NoSuchProcess):
-
+            pass
-        # Post Render Work
+        except Exception as e:
-        logger.debug("Starting post-processing work")
+            logger.error(f"Error stopping the process: {e}")
        self.post_processing()
        self.status = RenderStatus.COMPLETED
        logger.info(f"Render {self.id}-{self.name} completed successfully after {self.time_elapsed()}")
    def post_processing(self):
        pass
    def is_running(self):
-        if self.__thread:
+        if hasattr(self, '__thread'):
            return self.__thread.is_alive()
        return False
@@ -278,15 +440,11 @@ class BaseRenderWorker(Base):
            self.stop(is_error=True)
    def stop(self, is_error=False):
-        if hasattr(self, '__process'):
+        logger.debug(f"Stopping {self}")
-            try:
+
-                process = psutil.Process(self.__process.pid)
+        # cleanup status
-                for proc in process.children(recursive=True):
+        if self.status in [RenderStatus.RUNNING, RenderStatus.NOT_STARTED, RenderStatus.SCHEDULED,
-                    proc.kill()
+                           RenderStatus.CONFIGURING]:
                process.kill()
            except Exception as e:
                logger.debug(f"Error stopping the process: {e}")
        if self.status in [RenderStatus.RUNNING, RenderStatus.NOT_STARTED, RenderStatus.SCHEDULED]:
            if is_error:
                err_message = self.errors[-1] if self.errors else 'Unknown error'
                logger.error(f"Halting render due to error: {err_message}")
@@ -294,13 +452,9 @@ class BaseRenderWorker(Base):
            else:
                self.status = RenderStatus.CANCELLED
-    def percent_complete(self):
+        self.__kill_process()
-        if self.status == RenderStatus.COMPLETED:
+        if self.is_running():  # allow the log files to close
-            return 1.0
+            self.__thread.join(timeout=5)
        return 0
    def _parse_stdout(self, line):
        raise NotImplementedError("_parse_stdout not implemented")
    def time_elapsed(self):
        return get_time_elapsed(self.start_time, self.end_time)
@@ -308,7 +462,11 @@ class BaseRenderWorker(Base):
    def file_list(self):
        try:
            job_dir = os.path.dirname(self.output_path)
-            file_list = [os.path.join(job_dir, file) for file in os.listdir(job_dir)]
+            file_list = [
                os.path.join(job_dir, file)
                for file in os.listdir(job_dir)
                if not file.startswith('.')  # Ignore hidden files
            ]
            file_list.sort()
            return file_list
        except FileNotFoundError:
@@ -331,8 +489,8 @@ class BaseRenderWorker(Base):
            'file_hash': self.file_hash,
            'percent_complete': self.percent_complete(),
            'file_count': len(self.file_list()),
-            'renderer': self.renderer,
+            'engine': self.engine_name,
-            'renderer_version': self.renderer_version,
+            'engine_version': self.engine_version,
            'errors': getattr(self, 'errors', None),
            'start_frame': self.start_frame,
            'end_frame': self.end_frame,
@@ -11,23 +11,49 @@ from src.utilities.misc_helper import system_safe_path, current_system_os, curre
 logger = logging.getLogger()
 ENGINE_CLASSES = [Blender, FFMPEG]
 class EngineManager:
    """Class that manages different versions of installed render engines and handles fetching and downloading new versions,
    if possible.
    """
    engines_path = None
    download_tasks = []
    @staticmethod
    def supported_engines():
-        return [Blender, FFMPEG]
+        return ENGINE_CLASSES
    # --- Installed Engines ---
    @classmethod
    def engine_for_project_path(cls, path):
        _, extension = os.path.splitext(path)
        extension = extension.lower().strip('.')
        for engine_class in cls.supported_engines():
            engine = cls.get_latest_engine_instance(engine_class)
            if extension in engine.supported_extensions():
                return engine
        undefined_renderer_support = [x for x in cls.supported_engines() if not cls.get_latest_engine_instance(x).supported_extensions()]
        return undefined_renderer_support[0]
    @classmethod
    def engine_with_name(cls, engine_name):
        for obj in cls.supported_engines():
            if obj.name().lower() == engine_name.lower():
                return obj
        return None
    @classmethod
-    def get_engines(cls, filter_name=None):
+    def get_latest_engine_instance(cls, engine_class):
        newest = cls.newest_installed_engine_data(engine_class.name())
        engine = engine_class(newest["path"])
        return engine
    @classmethod
    def get_installed_engine_data(cls, filter_name=None, include_corrupt=False, ignore_system=False):
        if not cls.engines_path:
            raise FileNotFoundError("Engine path is not set")
@@ -49,10 +75,8 @@ class EngineManager:
                # Initialize binary_name with engine name
                binary_name = result_dict['engine'].lower()
                # Determine the correct binary name based on the engine and system_os
-                for eng in cls.supported_engines():
+                eng = cls.engine_with_name(result_dict['engine'])
-                    if eng.name().lower() == result_dict['engine']:
+                binary_name = eng.binary_names.get(result_dict['system_os'], binary_name)
                        binary_name = eng.binary_names.get(result_dict['system_os'], binary_name)
                        break
                # Find the path to the binary file
                path = next(
@@ -60,8 +84,16 @@ class EngineManager:
                     os.walk(system_safe_path(os.path.join(cls.engines_path, directory))) if binary_name in files),
                    None
                )
                result_dict['path'] = path
                # fetch version number from binary - helps detect corrupted downloads - disabled due to perf issues
                # binary_version = eng(path).version()
                # if not binary_version:
                #     logger.warning(f"Possible corrupt {eng.name()} {result_dict['version']} install detected: {path}")
                #     if not include_corrupt:
                #         continue
                # result_dict['version'] = binary_version or 'error'
                # Add the result dictionary to results if it matches the filter_name or if no filter is applied
                if not filter_name or filter_name == result_dict['engine']:
                    results.append(result_dict)
@@ -69,56 +101,71 @@ class EngineManager:
            logger.warning(f"Cannot find local engines download directory: {e}")
        # add system installs to this list - use bg thread because it can be slow
-        def fetch_engine_details(eng):
+        def fetch_engine_details(eng, include_corrupt=False):
            version = eng().version()
            if not version and not include_corrupt:
                return
            return {
                'engine': eng.name(),
-                'version': eng().version(),
+                'version': version or 'error',
                'system_os': current_system_os(),
                'cpu': current_system_cpu(),
-                'path': eng.default_renderer_path(),
+                'path': eng.default_engine_path(),
                'type': 'system'
            }
-        with concurrent.futures.ThreadPoolExecutor() as executor:
+        if not ignore_system:
-            futures = {
+            with concurrent.futures.ThreadPoolExecutor() as executor:
-                executor.submit(fetch_engine_details, eng): eng.name()
+                futures = {
-                for eng in cls.supported_engines()
+                    executor.submit(fetch_engine_details, eng, include_corrupt): eng.name()
-                if eng.default_renderer_path() and (not filter_name or filter_name == eng.name())
+                    for eng in cls.supported_engines()
-            }
+                    if eng.default_engine_path() and (not filter_name or filter_name == eng.name())
                }
-            for future in concurrent.futures.as_completed(futures):
+                for future in concurrent.futures.as_completed(futures):
-                result = future.result()
+                    result = future.result()
-                if result:
+                    if result:
-                    results.append(result)
+                        results.append(result)
        return results
    # --- Check for Updates ---
    @classmethod
-    def all_versions_for_engine(cls, engine_name):
+    def update_all_engines(cls):
-        versions = cls.get_engines(filter_name=engine_name)
+        for engine in cls.downloadable_engines():
            update_available = cls.is_engine_update_available(engine)
            if update_available:
                update_available['name'] = engine.name()
                cls.download_engine(engine.name(), update_available['version'], background=True)
    @classmethod
    def all_version_data_for_engine(cls, engine_name, include_corrupt=False, ignore_system=False):
        versions = cls.get_installed_engine_data(filter_name=engine_name, include_corrupt=include_corrupt, ignore_system=ignore_system)
        sorted_versions = sorted(versions, key=lambda x: x['version'], reverse=True)
        return sorted_versions
    @classmethod
-    def newest_engine_version(cls, engine, system_os=None, cpu=None):
+    def newest_installed_engine_data(cls, engine_name, system_os=None, cpu=None, ignore_system=None):
        system_os = system_os or current_system_os()
        cpu = cpu or current_system_cpu()
        try:
-            filtered = [x for x in cls.all_versions_for_engine(engine) if x['system_os'] == system_os and
+            filtered = [x for x in cls.all_version_data_for_engine(engine_name, ignore_system=ignore_system)
-                        x['cpu'] == cpu]
+                        if x['system_os'] == system_os and x['cpu'] == cpu]
            return filtered[0]
        except IndexError:
-            logger.error(f"Cannot find newest engine version for {engine}-{system_os}-{cpu}")
+            logger.error(f"Cannot find newest engine version for {engine_name}-{system_os}-{cpu}")
-            return None
+        return None
    @classmethod
-    def is_version_downloaded(cls, engine, version, system_os=None, cpu=None):
+    def is_version_installed(cls, engine, version, system_os=None, cpu=None, ignore_system=False):
        system_os = system_os or current_system_os()
        cpu = cpu or current_system_cpu()
-        filtered = [x for x in cls.get_engines(filter_name=engine) if x['system_os'] == system_os and
+        filtered = [x for x in cls.get_installed_engine_data(filter_name=engine, ignore_system=ignore_system) if
-                    x['cpu'] == cpu and x['version'] == version]
+                    x['system_os'] == system_os and x['cpu'] == cpu and x['version'] == version]
        return filtered[0] if filtered else False
    @classmethod
@@ -139,6 +186,28 @@ class EngineManager:
            logger.debug(f"Exception in find_most_recent_version: {e}")
            return None
    @classmethod
    def is_engine_update_available(cls, engine_class, ignore_system_installs=False):
        logger.debug(f"Checking for updates to {engine_class.name()}")
        latest_version = engine_class.downloader().find_most_recent_version()
        if not latest_version:
            logger.warning(f"Could not find most recent version of {engine_class.name()} to download")
            return None
        version_num = latest_version.get('version')
        if cls.is_version_installed(engine_class.name(), version_num, ignore_system=ignore_system_installs):
            logger.debug(f"Latest version of {engine_class.name()} ({version_num}) already downloaded")
            return None
        return latest_version
    # --- Downloads ---
    @classmethod
    def downloadable_engines(cls):
        return [engine for engine in cls.supported_engines() if hasattr(engine, "downloader") and engine.downloader()]
    @classmethod
    def get_existing_download_task(cls, engine, version, system_os=None, cpu=None):
        for task in cls.download_tasks:
@@ -151,7 +220,7 @@ class EngineManager:
        return None
    @classmethod
-    def download_engine(cls, engine, version, system_os=None, cpu=None, background=False):
+    def download_engine(cls, engine, version, system_os=None, cpu=None, background=False, ignore_system=False):
        engine_to_download = cls.engine_with_name(engine)
        existing_task = cls.get_existing_download_task(engine, version, system_os, cpu)
@@ -159,10 +228,10 @@ class EngineManager:
            logger.debug(f"Already downloading {engine} {version}")
            if not background:
                existing_task.join()  # If download task exists, wait until it's done downloading
-            return
+            return None
        elif not engine_to_download.downloader():
            logger.warning("No valid downloader for this engine. Please update this software manually.")
-            return
+            return None
        elif not cls.engines_path:
            raise FileNotFoundError("Engines path must be set before requesting downloads")
@@ -172,18 +241,18 @@ class EngineManager:
        if background:
            return thread
-        else:
+
-            thread.join()
+        thread.join()
-            found_engine = cls.is_version_downloaded(engine, version, system_os, cpu)  # Check that engine downloaded
+        found_engine = cls.is_version_installed(engine, version, system_os, cpu, ignore_system)  # Check that engine downloaded
-            if not found_engine:
+        if not found_engine:
-                logger.error(f"Error downloading {engine}")
+            logger.error(f"Error downloading {engine}")
-            return found_engine
+        return found_engine
    @classmethod
    def delete_engine_download(cls, engine, version, system_os=None, cpu=None):
        logger.info(f"Requested deletion of engine: {engine}-{version}")
-        found = cls.is_version_downloaded(engine, version, system_os, cpu)
+        found = cls.is_version_installed(engine, version, system_os, cpu)
        if found and found['type'] == 'managed':  # don't delete system installs
            # find the root directory of the engine executable
            root_dir_name = '-'.join([engine, version, found['system_os'], found['cpu']])
@@ -199,36 +268,21 @@ class EngineManager:
            logger.error(f"Cannot find engine: {engine}-{version}")
        return False
-    @classmethod
+    # --- Background Tasks ---
    def update_all_engines(cls):
        def engine_update_task(engine_class):
            logger.debug(f"Checking for updates to {engine_class.name()}")
            latest_version = engine_class.downloader().find_most_recent_version()
            if latest_version:
                logger.debug(f"Latest version of {engine_class.name()} available: {latest_version.get('version')}")
                if not cls.is_version_downloaded(engine_class.name(), latest_version.get('version')):
                    logger.info(f"Downloading latest version of {engine_class.name()}...")
                    cls.download_engine(engine=engine_class.name(), version=latest_version['version'], background=True)
            else:
                logger.warning(f"Unable to get check for updates for {engine.name()}")
        logger.info(f"Checking for updates for render engines...")
        threads = []
        for engine in cls.supported_engines():
            if engine.downloader():
                thread = threading.Thread(target=engine_update_task, args=(engine,))
                threads.append(thread)
                thread.start()
    @classmethod
-    def create_worker(cls, renderer, input_path, output_path, engine_version=None, args=None, parent=None, name=None):
+    def active_downloads(cls) -> list:
        return [x for x in cls.download_tasks if x.is_alive()]
-        worker_class = cls.engine_with_name(renderer).worker_class()
+    @classmethod
    def create_worker(cls, engine_name, input_path, output_path, engine_version=None, args=None, parent=None, name=None):
        worker_class = cls.engine_with_name(engine_name).worker_class()
        # check to make sure we have versions installed
-        all_versions = cls.all_versions_for_engine(renderer)
+        all_versions = cls.all_version_data_for_engine(engine_name)
        if not all_versions:
-            raise FileNotFoundError(f"Cannot find any installed {renderer} engines")
+            raise FileNotFoundError(f"Cannot find any installed '{engine_name}' engines")
        # Find the path to the requested engine version or use default
        engine_path = None
@@ -240,9 +294,9 @@ class EngineManager:
            # Download the required engine if not found locally
            if not engine_path:
-                download_result = cls.download_engine(renderer, engine_version)
+                download_result = cls.download_engine(engine_name, engine_version)
                if not download_result:
-                    raise FileNotFoundError(f"Cannot download requested version: {renderer} {engine_version}")
+                    raise FileNotFoundError(f"Cannot download requested version: {engine_name} {engine_version}")
                engine_path = download_result['path']
                logger.info("Engine downloaded. Creating worker.")
        else:
@@ -255,38 +309,47 @@ class EngineManager:
        return worker_class(input_path=input_path, output_path=output_path, engine_path=engine_path, args=args,
                            parent=parent, name=name)
    @classmethod
    def engine_for_project_path(cls, path):
        _, extension = os.path.splitext(path)
        extension = extension.lower().strip('.')
        for engine in cls.supported_engines():
            if extension in engine.supported_extensions():
                return engine
        undefined_renderer_support = [x for x in cls.supported_engines() if not x.supported_extensions()]
        return undefined_renderer_support[0]
 class EngineDownloadWorker(threading.Thread):
    """A thread worker for downloading a specific version of a rendering engine.
    This class handles the process of downloading a rendering engine in a separate thread,
    ensuring that the download process does not block the main application.
    Attributes:
        engine (str): The name of the rendering engine to download.
        version (str): The version of the rendering engine to download.
        system_os (str, optional): The operating system for which to download the engine. Defaults to current OS type.
        cpu (str, optional): Requested CPU architecture. Defaults to system CPU type.
    """
    def __init__(self, engine, version, system_os=None, cpu=None):
        super().__init__()
        self.engine = engine
        self.version = version
        self.system_os = system_os
        self.cpu = cpu
        self.percent_complete = 0
    def _update_progress(self, current_progress):
        self.percent_complete = current_progress
    def run(self):
-        existing_download = EngineManager.is_version_downloaded(self.engine, self.version, self.system_os, self.cpu)
+        try:
-        if existing_download:
+            existing_download = EngineManager.is_version_installed(self.engine, self.version, self.system_os, self.cpu,
-            logger.info(f"Requested download of {self.engine} {self.version}, but local copy already exists")
+                                                                   ignore_system=True)
-            return existing_download
+            if existing_download:
                logger.info(f"Requested download of {self.engine} {self.version}, but local copy already exists")
                return existing_download
-        # Get the appropriate downloader class based on the engine type
+            # Get the appropriate downloader class based on the engine type
-        EngineManager.engine_with_name(self.engine).downloader().download_engine(
+            downloader = EngineManager.engine_with_name(self.engine).downloader()
-            self.version, download_location=EngineManager.engines_path, system_os=self.system_os, cpu=self.cpu,
+            downloader.download_engine( self.version, download_location=EngineManager.engines_path,
-            timeout=300)
+                                        system_os=self.system_os, cpu=self.cpu, timeout=300, progress_callback=self._update_progress)
-
+        except Exception as e:
-        # remove itself from the downloader list
+            logger.error(f"Error in download worker: {e}")
-        EngineManager.download_tasks.remove(self)
+        finally:
            # remove itself from the downloader list
            EngineManager.download_tasks.remove(self)
 if __name__ == '__main__':
@@ -296,4 +359,4 @@ if __name__ == '__main__':
    # EngineManager.delete_engine_download('blender', '3.2.1', 'macos', 'a')
    EngineManager.engines_path = "/Users/brettwilliams/zordon-uploads/engines"
    # print(EngineManager.is_version_downloaded("ffmpeg", "6.0"))
-    print(EngineManager.get_engines())
+    print(EngineManager.get_installed_engine_data())
@@ -97,7 +97,7 @@ class FFMPEGDownloader(EngineDownloader):
                           'windows': cls.__get_windows_versions}
        if not versions_per_os.get(system_os):
            logger.error(f"Cannot find version list for {system_os}")
-            return
+            return None
        results = []
        all_versions = versions_per_os[system_os]()
@@ -132,8 +132,8 @@ class FFMPEGDownloader(EngineDownloader):
            system_os = system_os or current_system_os()
            cpu = cpu or current_system_cpu()
            return cls.all_versions(system_os, cpu)[0]
-        except (IndexError, requests.exceptions.RequestException):
+        except (IndexError, requests.exceptions.RequestException) as e:
-            logger.error(f"Cannot get most recent version of ffmpeg")
+            logger.error(f"Cannot get most recent version of ffmpeg: {e}")
        return {}
    @classmethod
@@ -144,7 +144,7 @@ class FFMPEGDownloader(EngineDownloader):
        return None
    @classmethod
-    def download_engine(cls, version, download_location, system_os=None, cpu=None, timeout=120):
+    def download_engine(cls, version, download_location, system_os=None, cpu=None, timeout=120, progress_callback=None):
        system_os = system_os or current_system_os()
        cpu = cpu or current_system_cpu()
@@ -152,7 +152,7 @@ class FFMPEGDownloader(EngineDownloader):
        found_version = [item for item in cls.all_versions(system_os, cpu) if item['version'] == version]
        if not found_version:
            logger.error(f"Cannot find FFMPEG version {version} for {system_os} and {cpu}")
-            return
+            return None
        # Platform specific naming cleanup
        remote_url = cls.__get_remote_url_for_version(version=version, system_os=system_os, cpu=cpu)
@@ -162,7 +162,8 @@ class FFMPEGDownloader(EngineDownloader):
        # Download and extract
        try:
            logger.info(f"Requesting download of ffmpeg-{version}-{system_os}-{cpu}")
-            cls.download_and_extract_app(remote_url=remote_url, download_location=download_location, timeout=timeout)
+            cls.download_and_extract_app(remote_url=remote_url, download_location=download_location, timeout=timeout,
                                         progress_callback=progress_callback)
            # naming cleanup to match existing naming convention
            output_path = os.path.join(download_location, f'ffmpeg-{version}-{system_os}-{cpu}')
@@ -1,8 +1,11 @@
 import json
 import os
 import re
 from src.engines.core.base_engine import *
 _creationflags = subprocess.CREATE_NO_WINDOW if platform.system() == 'Windows' else 0
 class FFMPEG(BaseRenderEngine):
    binary_names = {'linux': 'ffmpeg', 'windows': 'ffmpeg.exe', 'macos': 'ffmpeg'}
@@ -17,14 +20,14 @@ class FFMPEG(BaseRenderEngine):
        from src.engines.ffmpeg.ffmpeg_worker import FFMPEGRenderWorker
        return FFMPEGRenderWorker
-    def ui_options(self):
+    @staticmethod
    def ui_options(system_info):
        from src.engines.ffmpeg.ffmpeg_ui import FFMPEGUI
-        return FFMPEGUI.get_options(self)
+        return FFMPEGUI.get_options(system_info)
-    @classmethod
+    def supported_extensions(self):
-    def supported_extensions(cls):
+        help_text = (subprocess.check_output([self.engine_path(), '-h', 'full'], stderr=subprocess.STDOUT,
-        help_text = (subprocess.check_output([cls().renderer_path(), '-h', 'full'], stderr=subprocess.STDOUT)
+                                             creationflags=_creationflags).decode('utf-8'))
                     .decode('utf-8'))
        found = re.findall(r'extensions that .* is allowed to access \(default "(.*)"', help_text)
        found_extensions = set()
        for match in found:
@@ -34,8 +37,8 @@ class FFMPEG(BaseRenderEngine):
    def version(self):
        version = None
        try:
-            ver_out = subprocess.check_output([self.renderer_path(), '-version'],
+            ver_out = subprocess.check_output([self.engine_path(), '-version'], timeout=SUBPROCESS_TIMEOUT,
-                                              timeout=SUBPROCESS_TIMEOUT).decode('utf-8')
+                                              creationflags=_creationflags).decode('utf-8')
            match = re.match(r".*version\s*([\w.*]+)\W*", ver_out)
            if match:
                version = match.groups()[0]
@@ -44,13 +47,23 @@ class FFMPEG(BaseRenderEngine):
        return version
    def get_project_info(self, project_path, timeout=10):
        """Run ffprobe and parse the output as JSON"""
        try:
-            # Run ffprobe and parse the output as JSON
+            # resolve ffprobe path
            engine_dir = os.path.dirname(self.engine_path())
            ffprobe_path = os.path.join(engine_dir, 'ffprobe')
            if self.engine_path().endswith('.exe'):
                ffprobe_path += '.exe'
            if not os.path.exists(ffprobe_path):  # fallback to system install (if available)
                ffprobe_path = 'ffprobe'
            # run ffprobe
            cmd = [
-                'ffprobe', '-v', 'quiet', '-print_format', 'json',
+                ffprobe_path, '-v', 'quiet', '-print_format', 'json',
                '-show_streams', '-select_streams', 'v', project_path
            ]
-            output = subprocess.check_output(cmd, stderr=subprocess.STDOUT, text=True)
+            output = subprocess.check_output(cmd, stderr=subprocess.STDOUT, text=True,
                                             creationflags=_creationflags)
            video_info = json.loads(output)
            # Extract the necessary information
@@ -76,12 +89,12 @@ class FFMPEG(BaseRenderEngine):
            }
        except Exception as e:
-            print(f"An error occurred: {e}")
+            print(f"Failed to get FFMPEG project info: {e}")
            return None
    def get_encoders(self):
-        raw_stdout = subprocess.check_output([self.renderer_path(), '-encoders'], stderr=subprocess.DEVNULL,
+        raw_stdout = subprocess.check_output([self.engine_path(), '-encoders'], stderr=subprocess.DEVNULL,
-                                             timeout=SUBPROCESS_TIMEOUT).decode('utf-8')
+                                             timeout=SUBPROCESS_TIMEOUT, creationflags=_creationflags).decode('utf-8')
        pattern = r'(?P<type>[VASFXBD.]{6})\s+(?P<name>\S{2,})\s+(?P<description>.*)'
        encoders = [m.groupdict() for m in re.finditer(pattern, raw_stdout)]
        return encoders
@@ -92,8 +105,9 @@ class FFMPEG(BaseRenderEngine):
    def get_all_formats(self):
        try:
-            formats_raw = subprocess.check_output([self.renderer_path(), '-formats'], stderr=subprocess.DEVNULL,
+            formats_raw = subprocess.check_output([self.engine_path(), '-formats'], stderr=subprocess.DEVNULL,
-                                                  timeout=SUBPROCESS_TIMEOUT).decode('utf-8')
+                                                  timeout=SUBPROCESS_TIMEOUT,
                                                  creationflags=_creationflags).decode('utf-8')
            pattern = r'(?P<type>[DE]{1,2})\s+(?P<id>\S{2,})\s+(?P<name>.*)'
            all_formats = [m.groupdict() for m in re.finditer(pattern, formats_raw)]
            return all_formats
@@ -105,7 +119,8 @@ class FFMPEG(BaseRenderEngine):
        # Extract the common extension using regex
        muxer_flag = 'muxer' if 'E' in ffmpeg_format['type'] else 'demuxer'
        format_detail_raw = subprocess.check_output(
-            [self.renderer_path(), '-hide_banner', '-h', f"{muxer_flag}={ffmpeg_format['id']}"]).decode('utf-8')
+            [self.engine_path(), '-hide_banner', '-h', f"{muxer_flag}={ffmpeg_format['id']}"],
            creationflags=_creationflags).decode('utf-8')
        pattern = r"Common extensions: (\w+)"
        common_extensions = re.findall(pattern, format_detail_raw)
        found_extensions = []
@@ -117,9 +132,9 @@ class FFMPEG(BaseRenderEngine):
        return [x['id'] for x in self.get_all_formats() if 'E' in x['type'].upper()]
    def get_frame_count(self, path_to_file):
-        raw_stdout = subprocess.check_output([self.renderer_path(), '-i', path_to_file, '-map', '0:v:0', '-c', 'copy',
+        raw_stdout = subprocess.check_output([self.engine_path(), '-i', path_to_file, '-map', '0:v:0', '-c', 'copy',
                                              '-f', 'null', '-'], stderr=subprocess.STDOUT,
-                                             timeout=SUBPROCESS_TIMEOUT).decode('utf-8')
+                                             timeout=SUBPROCESS_TIMEOUT, creationflags=_creationflags).decode('utf-8')
        match = re.findall(r'frame=\s*(\d+)', raw_stdout)
        if match:
            frame_number = int(match[-1])
@@ -127,8 +142,8 @@ class FFMPEG(BaseRenderEngine):
        return -1
    def get_arguments(self):
-        help_text = (subprocess.check_output([self.renderer_path(), '-h', 'long'], stderr=subprocess.STDOUT)
+        help_text = (subprocess.check_output([self.engine_path(), '-h', 'long'], stderr=subprocess.STDOUT,
-                     .decode('utf-8'))
+                                             creationflags=_creationflags).decode('utf-8'))
        lines = help_text.splitlines()
        options = {}
@@ -1,5 +1,5 @@
 class FFMPEGUI:
    @staticmethod
-    def get_options(instance):
+    def get_options(system_info):
        options = []
        return options
@@ -16,11 +16,11 @@ class FFMPEGRenderWorker(BaseRenderWorker):
    def generate_worker_subprocess(self):
-        cmd = [self.renderer_path, '-y', '-stats', '-i', self.input_path]
+        cmd = [self.engine_path, '-y', '-stats', '-i', self.input_path]
        # Resize frame
-        if self.args.get('x_resolution', None) and self.args.get('y_resolution', None):
+        if self.args.get('resolution', None):
-            cmd.extend(['-vf', f"scale={self.args['x_resolution']}:{self.args['y_resolution']}"])
+            cmd.extend(['-vf', f"scale={self.args['resolution'][0]}:{self.args['resolution'][1]}"])
        # Convert raw args from string if available
        raw_args = self.args.get('raw', None)
@@ -1,78 +0,0 @@
 ''' app/init.py '''
 import logging
 import os
 import sys
 import threading
 from collections import deque
 from PyQt6.QtCore import QObject, pyqtSignal
 from PyQt6.QtWidgets import QApplication
 from src.api.api_server import start_server
 from src.engines.engine_manager import EngineManager
 from src.render_queue import RenderQueue
 from src.ui.main_window import MainWindow
 from src.utilities.config import Config
 from src.utilities.misc_helper import system_safe_path
 def run() -> int:
    """
    Initializes the application and runs it.
    Returns:
        int: The exit status code.
    """
    try:
        # Load Config YAML
        Config.setup_config_dir()
        Config.load_config(system_safe_path(os.path.join(Config.config_dir(), 'config.yaml')))
        EngineManager.engines_path = system_safe_path(
            os.path.join(os.path.join(os.path.expanduser(Config.upload_folder),
                                      'engines')))
        logging.basicConfig(format='%(asctime)s: %(levelname)s: %(module)s: %(message)s', datefmt='%d-%b-%y %H:%M:%S',
                            level=Config.server_log_level.upper())
        app: QApplication = QApplication(sys.argv)
        # Start server in background
        background_server = threading.Thread(target=start_server)
        background_server.daemon = True
        background_server.start()
        # Setup logging for console ui
        buffer_handler = BufferingHandler()
        buffer_handler.setFormatter(logging.getLogger().handlers[0].formatter)
        logger = logging.getLogger()
        logger.addHandler(buffer_handler)
        window: MainWindow = MainWindow()
        window.buffer_handler = buffer_handler
        window.show()
        return_code = app.exec()
    except Exception as e:
        logging.error(f"Unhandled exception: {e}")
        return_code = 1
    finally:
        RenderQueue.prepare_for_shutdown()
        return sys.exit(return_code)
 class BufferingHandler(logging.Handler, QObject):
    new_record = pyqtSignal(str)
    def __init__(self, capacity=100):
        logging.Handler.__init__(self)
        QObject.__init__(self)
        self.buffer = deque(maxlen=capacity)  # Define a buffer with a fixed capacity
    def emit(self, record):
        msg = self.format(record)
        self.buffer.append(msg)  # Add message to the buffer
        self.new_record.emit(msg)  # Emit signal
    def get_buffer(self):
        return list(self.buffer)  # Return a copy of the buffer
@@ -2,12 +2,13 @@ import logging
 import os
 from datetime import datetime
 from pubsub import pub
 from sqlalchemy import create_engine
 from sqlalchemy.orm import sessionmaker
 from sqlalchemy.orm.exc import DetachedInstanceError
 from src.utilities.status_utils import RenderStatus
 from src.engines.engine_manager import EngineManager
 from src.engines.core.base_worker import Base
 from src.utilities.status_utils import RenderStatus
 logger = logging.getLogger()
@@ -17,6 +18,9 @@ class JobNotFoundError(Exception):
        super().__init__(args)
        self.job_id = job_id
    def __str__(self):
        return f"Cannot find job with ID: {self.job_id}"
 class RenderQueue:
    engine = None
@@ -24,18 +28,53 @@ class RenderQueue:
    job_queue = []
    maximum_renderer_instances = {'blender': 1, 'aerender': 1, 'ffmpeg': 4}
    last_saved_counts = {}
    is_running = False
-    def __init__(self):
+    # --------------------------------------------
-        pass
+    # Render Queue Evaluation:
    # --------------------------------------------
    @classmethod
-    def add_to_render_queue(cls, render_job, force_start=False):
+    def start(cls):
-        logger.debug('Adding priority {} job to render queue: {}'.format(render_job.priority, render_job))
+        """Start evaluating the render queue"""
-        cls.job_queue.append(render_job)
+        logger.debug("Starting render queue updates")
-        if force_start and render_job.status in (RenderStatus.NOT_STARTED, RenderStatus.SCHEDULED):
+        cls.is_running = True
-            cls.start_job(render_job)
+        cls.evaluate_queue()
-        cls.session.add(render_job)
+
-        cls.save_state()
+    @classmethod
    def evaluate_queue(cls):
        try:
            not_started = cls.jobs_with_status(RenderStatus.NOT_STARTED, priority_sorted=True)
            for job in not_started:
                if cls.is_available_for_job(job.engine_name, job.priority):
                    cls.start_job(job)
            scheduled = cls.jobs_with_status(RenderStatus.SCHEDULED, priority_sorted=True)
            for job in scheduled:
                if job.scheduled_start <= datetime.now():
                    logger.debug(f"Starting scheduled job: {job}")
                    cls.start_job(job)
            if cls.last_saved_counts != cls.job_counts():
                cls.save_state()
        except DetachedInstanceError:
            pass
    @classmethod
    def __local_job_status_changed(cls, job_id, old_status, new_status):
        render_job = RenderQueue.job_with_id(job_id, none_ok=True)
        if render_job and cls.is_running:  # ignore changes from render jobs not in the queue yet
            logger.debug(f"RenderQueue detected job {job_id} has changed from {old_status} -> {new_status}")
            RenderQueue.evaluate_queue()
    @classmethod
    def stop(cls):
        logger.debug("Stopping render queue updates")
        cls.is_running = False
    # --------------------------------------------
    # Fetch Jobs:
    # --------------------------------------------
    @classmethod
    def all_jobs(cls):
@@ -66,12 +105,15 @@ class RenderQueue:
        return found_job
    @classmethod
-    def clear_history(cls):
+    def job_counts(cls):
-        to_remove = [x for x in cls.all_jobs() if x.status in [RenderStatus.CANCELLED,
+        job_counts = {}
-                                                               RenderStatus.COMPLETED, RenderStatus.ERROR]]
+        for job_status in RenderStatus:
-        for job_to_remove in to_remove:
+            job_counts[job_status.value] = len(cls.jobs_with_status(job_status))
-            cls.delete_job(job_to_remove)
+        return job_counts
-        cls.save_state()
+
    # --------------------------------------------
    # Startup / Shutdown:
    # --------------------------------------------
    @classmethod
    def load_state(cls, database_directory):
@@ -81,6 +123,7 @@ class RenderQueue:
            cls.session = sessionmaker(bind=cls.engine)()
        from src.engines.core.base_worker import BaseRenderWorker
        cls.job_queue = cls.session.query(BaseRenderWorker).all()
        pub.subscribe(cls.__local_job_status_changed, 'status_change')
    @classmethod
    def save_state(cls):
@@ -89,11 +132,22 @@ class RenderQueue:
    @classmethod
    def prepare_for_shutdown(cls):
        logger.debug("Closing session")
        cls.stop()
        running_jobs = cls.jobs_with_status(RenderStatus.RUNNING)  # cancel all running jobs
        [cls.cancel_job(job) for job in running_jobs]
        cls.save_state()
        cls.session.close()
    # --------------------------------------------
    # Renderer Availability:
    # --------------------------------------------
    @classmethod
    def renderer_instances(cls):
        from collections import Counter
        all_instances = [x.engine_name for x in cls.running_jobs()]
        return Counter(all_instances)
    @classmethod
    def is_available_for_job(cls, renderer, priority=2):
@@ -103,52 +157,50 @@ class RenderQueue:
        maxed_out_instances = renderer in instances.keys() and instances[renderer] >= max_allowed_instances
        return not maxed_out_instances and not higher_priority_jobs
    # --------------------------------------------
    # Job Lifecycle Management:
    # --------------------------------------------
    @classmethod
-    def evaluate_queue(cls):
+    def add_to_render_queue(cls, render_job, force_start=False):
-        not_started = cls.jobs_with_status(RenderStatus.NOT_STARTED, priority_sorted=True)
+        logger.info(f"Adding job to render queue: {render_job}")
-        for job in not_started:
+        cls.job_queue.append(render_job)
-            if cls.is_available_for_job(job.renderer, job.priority):
+        if cls.is_running and force_start and render_job.status in (RenderStatus.NOT_STARTED, RenderStatus.SCHEDULED):
-                cls.start_job(job)
+            cls.start_job(render_job)
-
+        cls.session.add(render_job)
-        scheduled = cls.jobs_with_status(RenderStatus.SCHEDULED, priority_sorted=True)
+        cls.save_state()
-        for job in scheduled:
+        if cls.is_running:
-            if job.scheduled_start <= datetime.now():
+            cls.evaluate_queue()
                logger.debug(f"Starting scheduled job: {job}")
                cls.start_job(job)
        if cls.last_saved_counts != cls.job_counts():
            cls.save_state()
    @classmethod
    def start_job(cls, job):
-        logger.info(f'Starting render: {job.name} - Priority {job.priority}')
+        logger.info(f'Starting job: {job}')
        job.start()
        cls.save_state()
    @classmethod
    def cancel_job(cls, job):
-        logger.info(f'Cancelling job ID: {job.id}')
+        logger.info(f'Cancelling job: {job}')
        job.stop()
        return job.status == RenderStatus.CANCELLED
    @classmethod
    def delete_job(cls, job):
-        logger.info(f"Deleting job ID: {job.id}")
+        logger.info(f"Deleting job: {job}")
        job.stop()
        cls.job_queue.remove(job)
        cls.session.delete(job)
        cls.save_state()
        return True
-    @classmethod
+    # --------------------------------------------
-    def renderer_instances(cls):
+    # Miscellaneous:
-        from collections import Counter
+    # --------------------------------------------
        all_instances = [x.renderer for x in cls.running_jobs()]
        return Counter(all_instances)
    @classmethod
-    def job_counts(cls):
+    def clear_history(cls):
-        job_counts = {}
+        to_remove = [x for x in cls.all_jobs() if x.status in [RenderStatus.CANCELLED,
-        for job_status in RenderStatus:
+                                                               RenderStatus.COMPLETED, RenderStatus.ERROR]]
-            job_counts[job_status.value] = len(cls.jobs_with_status(job_status))
+        for job_to_remove in to_remove:
-        return job_counts
+            cls.delete_job(job_to_remove)
        cls.save_state()
@@ -0,0 +1,74 @@
 import os
 import sys
 from PyQt6.QtCore import Qt
 from PyQt6.QtGui import QPixmap
 from PyQt6.QtWidgets import QDialog, QVBoxLayout, QLabel, QDialogButtonBox, QHBoxLayout
 from src.version import *
 class AboutDialog(QDialog):
    def __init__(self):
        super().__init__()
        self.setWindowTitle(f"About {APP_NAME}")
        # Create the layout
        layout = QVBoxLayout()
        # App Icon
        icon_name = 'Server.png'  # todo: temp icon - replace with final later
        icon_path = os.path.join(os.path.dirname(os.path.dirname(os.path.dirname(os.path.abspath(__file__)))),
                                 'resources', icon_name)
        icon_label = QLabel(self)
        icon_pixmap = QPixmap(icon_path)
        icon_label.setPixmap(icon_pixmap)
        icon_layout = QHBoxLayout()
        icon_layout.addStretch()
        icon_layout.addWidget(icon_label)
        icon_layout.addStretch()
        layout.addLayout(icon_layout)
        # Application name
        name_label = QLabel(f"<h2>{APP_NAME}</h2>")
        layout.addWidget(name_label)
        # Description
        description_label = QLabel(APP_DESCRIPTION)
        layout.addWidget(description_label)
        # Version
        version_label = QLabel(f"<strong>Version:</strong> {APP_VERSION}")
        layout.addWidget(version_label)
        # Contributors
        contributors_label = QLabel(f"Copyright © {APP_COPYRIGHT_YEAR} {APP_AUTHOR}")
        layout.addWidget(contributors_label)
        # License
        license_label = QLabel(f"Released under {APP_LICENSE}")
        layout.addWidget(license_label)
        # Add an "OK" button to close the dialog
        button_box = QDialogButtonBox(QDialogButtonBox.StandardButton.Ok)
        button_box.accepted.connect(self.accept)
        layout.addWidget(button_box)
        # Set the layout for the dialog
        self.setLayout(layout)
        # Make the dialog non-resizable
        self.setWindowFlags(self.windowFlags() & ~Qt.WindowType.WindowContextHelpButtonHint)
        self.setFixedSize(self.sizeHint())
 if __name__ == '__main__':
    # lazy load GUI frameworks
    from PyQt6.QtWidgets import QApplication
    # load application
    app: QApplication = QApplication(sys.argv)
    window: AboutDialog = AboutDialog()
    window.show()
    app.exec()
@@ -1,543 +0,0 @@
 import copy
 import os.path
 import pathlib
 import socket
 import threading
 import psutil
 from PyQt6.QtCore import QThread, pyqtSignal, Qt, pyqtSlot
 from PyQt6.QtWidgets import (
    QApplication, QWidget, QVBoxLayout, QHBoxLayout, QLabel, QLineEdit, QPushButton, QFileDialog, QSpinBox, QComboBox,
    QGroupBox, QCheckBox, QProgressBar, QPlainTextEdit, QDoubleSpinBox, QMessageBox, QListWidget, QListWidgetItem
 )
 from requests import Response
 from src.api.server_proxy import RenderServerProxy
 from src.engines.engine_manager import EngineManager
 from src.ui.engine_help_viewer import EngineHelpViewer
 from src.utilities.zeroconf_server import ZeroconfServer
 class NewRenderJobForm(QWidget):
    def __init__(self, project_path=None):
        super().__init__()
        self.notes_group = None
        self.frame_rate_input = None
        self.resolution_x_input = None
        self.renderer_group = None
        self.output_settings_group = None
        self.resolution_y_input = None
        self.project_path = project_path
        # UI
        self.project_group = None
        self.load_file_group = None
        self.current_engine_options = None
        self.file_format_combo = None
        self.renderer_options_layout = None
        self.cameras_list = None
        self.cameras_group = None
        self.renderer_version_combo = None
        self.worker_thread = None
        self.msg_box = None
        self.engine_help_viewer = None
        self.raw_args = None
        self.submit_progress_label = None
        self.submit_progress = None
        self.renderer_type = None
        self.process_label = None
        self.process_progress_bar = None
        self.splitjobs_same_os = None
        self.enable_splitjobs = None
        self.server_input = None
        self.submit_button = None
        self.notes_input = None
        self.priority_input = None
        self.end_frame_input = None
        self.start_frame_input = None
        self.output_path_input = None
        self.scene_file_input = None
        self.scene_file_browse_button = None
        self.job_name_input = None
        # Job / Server Data
        self.server_proxy = RenderServerProxy(socket.gethostname())
        self.renderer_info = None
        self.project_info = None
        # Setup
        self.setWindowTitle("New Job")
        self.setup_ui()
        self.setup_project()
        # get renderer info in bg thread
        t = threading.Thread(target=self.update_renderer_info)
        t.start()
        self.show()
    def setup_ui(self):
        # Main Layout
        main_layout = QVBoxLayout(self)
        # Loading File Group
        self.load_file_group = QGroupBox("Loading")
        load_file_layout = QVBoxLayout(self.load_file_group)
        # progress bar
        progress_layout = QHBoxLayout()
        self.process_progress_bar = QProgressBar()
        self.process_progress_bar.setMinimum(0)
        self.process_progress_bar.setMaximum(0)
        self.process_label = QLabel("Processing")
        progress_layout.addWidget(self.process_label)
        progress_layout.addWidget(self.process_progress_bar)
        load_file_layout.addLayout(progress_layout)
        main_layout.addWidget(self.load_file_group)
        # Project Group
        self.project_group = QGroupBox("Project")
        server_layout = QVBoxLayout(self.project_group)
        # File Path
        scene_file_picker_layout = QHBoxLayout()
        self.scene_file_input = QLineEdit()
        self.scene_file_input.setText(self.project_path)
        self.scene_file_browse_button = QPushButton("Browse...")
        self.scene_file_browse_button.clicked.connect(self.browse_scene_file)
        scene_file_picker_layout.addWidget(QLabel("File:"))
        scene_file_picker_layout.addWidget(self.scene_file_input)
        scene_file_picker_layout.addWidget(self.scene_file_browse_button)
        server_layout.addLayout(scene_file_picker_layout)
        # Server List
        server_list_layout = QHBoxLayout()
        server_list_layout.setSpacing(0)
        self.server_input = QComboBox()
        server_list_layout.addWidget(QLabel("Hostname:"), 1)
        server_list_layout.addWidget(self.server_input, 3)
        server_layout.addLayout(server_list_layout)
        main_layout.addWidget(self.project_group)
        self.update_server_list()
        # Priority
        priority_layout = QHBoxLayout()
        priority_layout.addWidget(QLabel("Priority:"), 1)
        self.priority_input = QComboBox()
        self.priority_input.addItems(["High", "Medium", "Low"])
        self.priority_input.setCurrentIndex(1)
        priority_layout.addWidget(self.priority_input, 3)
        server_layout.addLayout(priority_layout)
        # Splitjobs
        self.enable_splitjobs = QCheckBox("Automatically split render across multiple servers")
        self.enable_splitjobs.setEnabled(True)
        server_layout.addWidget(self.enable_splitjobs)
        self.splitjobs_same_os = QCheckBox("Only render on same OS")
        self.splitjobs_same_os.setEnabled(True)
        server_layout.addWidget(self.splitjobs_same_os)
        # Output Settings Group
        self.output_settings_group = QGroupBox("Output Settings")
        output_settings_layout = QVBoxLayout(self.output_settings_group)
        # output path
        output_path_layout = QHBoxLayout()
        output_path_layout.addWidget(QLabel("Render name:"))
        self.output_path_input = QLineEdit()
        output_path_layout.addWidget(self.output_path_input)
        output_settings_layout.addLayout(output_path_layout)
        # file format
        file_format_layout = QHBoxLayout()
        file_format_layout.addWidget(QLabel("Format:"))
        self.file_format_combo = QComboBox()
        file_format_layout.addWidget(self.file_format_combo)
        output_settings_layout.addLayout(file_format_layout)
        # frame range
        frame_range_layout = QHBoxLayout(self.output_settings_group)
        self.start_frame_input = QSpinBox()
        self.start_frame_input.setRange(1, 99999)
        self.end_frame_input = QSpinBox()
        self.end_frame_input.setRange(1, 99999)
        frame_range_layout.addWidget(QLabel("Frames:"))
        frame_range_layout.addWidget(self.start_frame_input)
        frame_range_layout.addWidget(QLabel("to"))
        frame_range_layout.addWidget(self.end_frame_input)
        output_settings_layout.addLayout(frame_range_layout)
        # resolution
        resolution_layout = QHBoxLayout(self.output_settings_group)
        self.resolution_x_input = QSpinBox()
        self.resolution_x_input.setRange(1, 9999)  # Assuming max resolution width 9999
        self.resolution_x_input.setValue(1920)
        self.resolution_y_input = QSpinBox()
        self.resolution_y_input.setRange(1, 9999)  # Assuming max resolution height 9999
        self.resolution_y_input.setValue(1080)
        self.frame_rate_input = QDoubleSpinBox()
        self.frame_rate_input.setRange(1, 9999)  # Assuming max resolution width 9999
        self.frame_rate_input.setDecimals(3)
        self.frame_rate_input.setValue(23.976)
        resolution_layout.addWidget(QLabel("Resolution:"))
        resolution_layout.addWidget(self.resolution_x_input)
        resolution_layout.addWidget(QLabel("x"))
        resolution_layout.addWidget(self.resolution_y_input)
        resolution_layout.addWidget(QLabel("@"))
        resolution_layout.addWidget(self.frame_rate_input)
        resolution_layout.addWidget(QLabel("fps"))
        output_settings_layout.addLayout(resolution_layout)
        # add group to layout
        main_layout.addWidget(self.output_settings_group)
        # Renderer Group
        self.renderer_group = QGroupBox("Renderer Settings")
        renderer_group_layout = QVBoxLayout(self.renderer_group)
        renderer_layout = QHBoxLayout()
        renderer_layout.addWidget(QLabel("Renderer:"))
        self.renderer_type = QComboBox()
        self.renderer_type.currentIndexChanged.connect(self.renderer_changed)
        renderer_layout.addWidget(self.renderer_type)
        # Version
        renderer_layout.addWidget(QLabel("Version:"))
        self.renderer_version_combo = QComboBox()
        self.renderer_version_combo.addItem('latest')
        renderer_layout.addWidget(self.renderer_version_combo)
        renderer_group_layout.addLayout(renderer_layout)
        # dynamic options
        self.renderer_options_layout = QVBoxLayout()
        renderer_group_layout.addLayout(self.renderer_options_layout)
        # Raw Args
        raw_args_layout = QHBoxLayout(self.renderer_group)
        raw_args_layout.addWidget(QLabel("Raw Args:"))
        self.raw_args = QLineEdit()
        raw_args_layout.addWidget(self.raw_args)
        args_help_button = QPushButton("?")
        args_help_button.clicked.connect(self.args_help_button_clicked)
        raw_args_layout.addWidget(args_help_button)
        renderer_group_layout.addLayout(raw_args_layout)
        main_layout.addWidget(self.renderer_group)
        # Cameras Group
        self.cameras_group = QGroupBox("Cameras")
        cameras_layout = QVBoxLayout(self.cameras_group)
        self.cameras_list = QListWidget()
        self.cameras_group.setHidden(True)
        cameras_layout.addWidget(self.cameras_list)
        main_layout.addWidget(self.cameras_group)
        # Notes Group
        self.notes_group = QGroupBox("Additional Notes")
        notes_layout = QVBoxLayout(self.notes_group)
        self.notes_input = QPlainTextEdit()
        notes_layout.addWidget(self.notes_input)
        main_layout.addWidget(self.notes_group)
        # Submit Button
        self.submit_button = QPushButton("Submit Job")
        self.submit_button.clicked.connect(self.submit_job)
        main_layout.addWidget(self.submit_button)
        self.submit_progress = QProgressBar()
        self.submit_progress.setMinimum(0)
        self.submit_progress.setMaximum(0)
        self.submit_progress.setHidden(True)
        main_layout.addWidget(self.submit_progress)
        self.submit_progress_label = QLabel("Submitting...")
        self.submit_progress_label.setHidden(True)
        main_layout.addWidget(self.submit_progress_label)
        self.toggle_renderer_enablement(False)
    def update_renderer_info(self):
        # get the renderer info and add them all to the ui
        self.renderer_info = self.server_proxy.get_renderer_info(response_type='full')
        self.renderer_type.addItems(self.renderer_info.keys())
        # select the best renderer for the file type
        engine = EngineManager.engine_for_project_path(self.project_path)
        self.renderer_type.setCurrentText(engine.name().lower())
        # refresh ui
        self.renderer_changed()
    def renderer_changed(self):
        # load the version numbers
        current_renderer = self.renderer_type.currentText().lower() or self.renderer_type.itemText(0)
        self.renderer_version_combo.clear()
        self.renderer_version_combo.addItem('latest')
        self.file_format_combo.clear()
        if current_renderer:
            renderer_vers = [version_info['version'] for version_info in self.renderer_info[current_renderer]['versions']]
            self.renderer_version_combo.addItems(renderer_vers)
            self.file_format_combo.addItems(self.renderer_info[current_renderer]['supported_export_formats'])
    def update_server_list(self):
        clients = ZeroconfServer.found_hostnames()
        self.server_input.clear()
        self.server_input.addItems(clients)
    def browse_scene_file(self):
        file_name, _ = QFileDialog.getOpenFileName(self, "Select Scene File")
        if file_name:
            self.scene_file_input.setText(file_name)
            self.setup_project()
    def setup_project(self):
        # UI stuff on main thread
        self.process_progress_bar.setHidden(False)
        self.process_label.setHidden(False)
        self.toggle_renderer_enablement(False)
        output_name, _ = os.path.splitext(os.path.basename(self.scene_file_input.text()))
        output_name = output_name.replace(' ', '_')
        self.output_path_input.setText(output_name)
        file_name = self.scene_file_input.text()
        # setup bg worker
        self.worker_thread = GetProjectInfoWorker(window=self, project_path=file_name)
        self.worker_thread.message_signal.connect(self.post_get_project_info_update)
        self.worker_thread.start()
    def browse_output_path(self):
        directory = QFileDialog.getExistingDirectory(self, "Select Output Directory")
        if directory:
            self.output_path_input.setText(directory)
    def args_help_button_clicked(self):
        url = (f'http://{self.server_proxy.hostname}:{self.server_proxy.port}/api/renderer/'
               f'{self.renderer_type.currentText()}/help')
        self.engine_help_viewer = EngineHelpViewer(url)
        self.engine_help_viewer.show()
 # -------- Update --------
    def post_get_project_info_update(self):
        """Called by the GetProjectInfoWorker - Do not call directly."""
        try:
            # Set the best renderer we can find
            input_path = self.scene_file_input.text()
            engine = EngineManager.engine_for_project_path(input_path)
            engine_index = self.renderer_type.findText(engine.name().lower())
            if engine_index >= 0:
                self.renderer_type.setCurrentIndex(engine_index)
            else:
                self.renderer_type.setCurrentIndex(0)  #todo: find out why we don't have renderer info yet
                # not ideal but if we don't have the renderer info we have to pick something
            self.output_path_input.setText(os.path.basename(input_path))
            # cleanup progress UI
            self.load_file_group.setHidden(True)
            self.toggle_renderer_enablement(True)
            # Load scene data
            self.start_frame_input.setValue(self.project_info.get('frame_start'))
            self.end_frame_input.setValue(self.project_info.get('frame_end'))
            self.resolution_x_input.setValue(self.project_info.get('resolution_x'))
            self.resolution_y_input.setValue(self.project_info.get('resolution_y'))
            self.frame_rate_input.setValue(self.project_info.get('fps'))
            # Cameras
            self.cameras_list.clear()
            if self.project_info.get('cameras'):
                self.cameras_group.setHidden(False)
                found_active = False
                for camera in self.project_info['cameras']:
                    # create the list items and make them checkable
                    item = QListWidgetItem(f"{camera['name']} - {camera['lens']}mm")
                    item.setFlags(item.flags() | Qt.ItemFlag.ItemIsUserCheckable)
                    is_checked = camera['is_active'] or len(self.project_info['cameras']) == 1
                    found_active = found_active or is_checked
                    item.setCheckState(Qt.CheckState.Checked if is_checked else Qt.CheckState.Unchecked)
                    self.cameras_list.addItem(item)
                if not found_active:
                    self.cameras_list.item(0).setCheckState(Qt.CheckState.Checked)
            else:
                self.cameras_group.setHidden(True)
            # Dynamic Engine Options
            clear_layout(self.renderer_options_layout)  # clear old options
            # dynamically populate option list
            self.current_engine_options = engine().ui_options()
            for option in self.current_engine_options:
                h_layout = QHBoxLayout()
                label = QLabel(option['name'].replace('_', ' ').capitalize() + ':')
                h_layout.addWidget(label)
                if option.get('options'):
                    combo_box = QComboBox()
                    for opt in option['options']:
                        combo_box.addItem(opt)
                    h_layout.addWidget(combo_box)
                else:
                    text_box = QLineEdit()
                    h_layout.addWidget(text_box)
                self.renderer_options_layout.addLayout(h_layout)
        except AttributeError:
            pass
    def toggle_renderer_enablement(self, enabled=False):
        """Toggle on/off all the render settings"""
        self.project_group.setHidden(not enabled)
        self.output_settings_group.setHidden(not enabled)
        self.renderer_group.setHidden(not enabled)
        self.notes_group.setHidden(not enabled)
        if not enabled:
            self.cameras_group.setHidden(True)
        self.submit_button.setEnabled(enabled)
    def after_job_submission(self, result):
        # UI cleanup
        self.submit_progress.setMaximum(0)
        self.submit_button.setHidden(False)
        self.submit_progress.setHidden(True)
        self.submit_progress_label.setHidden(True)
        self.process_progress_bar.setHidden(True)
        self.process_label.setHidden(True)
        self.toggle_renderer_enablement(True)
        self.msg_box = QMessageBox()
        if result.ok:
            self.msg_box.setStandardButtons(QMessageBox.StandardButton.Yes | QMessageBox.StandardButton.No)
            self.msg_box.setIcon(QMessageBox.Icon.Information)
            self.msg_box.setText("Job successfully submitted to server. Submit another?")
            self.msg_box.setWindowTitle("Success")
            x = self.msg_box.exec()
            if x == QMessageBox.StandardButton.No:
                self.close()
        else:
            self.msg_box.setStandardButtons(QMessageBox.StandardButton.Ok)
            self.msg_box.setIcon(QMessageBox.Icon.Critical)
            self.msg_box.setText(result.text or "Unknown error")
            self.msg_box.setWindowTitle("Error")
            self.msg_box.exec()
 # -------- Submit Job Calls --------
    def submit_job(self):
        # Pre-worker UI
        self.submit_progress.setHidden(False)
        self.submit_progress_label.setHidden(False)
        self.submit_button.setHidden(True)
        self.submit_progress.setMaximum(0)
        # submit job in background thread
        self.worker_thread = SubmitWorker(window=self)
        self.worker_thread.update_ui_signal.connect(self.update_submit_progress)
        self.worker_thread.message_signal.connect(self.after_job_submission)
        self.worker_thread.start()
    @pyqtSlot(str, str)
    def update_submit_progress(self, hostname, percent):
        # Update the UI here. This slot will be executed in the main thread
        self.submit_progress_label.setText(f"Transferring to {hostname} - {percent}%")
        self.submit_progress.setMaximum(100)
        self.submit_progress.setValue(int(percent))
 class SubmitWorker(QThread):
    """Worker class called to submit all the jobs to the server and update the UI accordingly"""
    message_signal = pyqtSignal(Response)
    update_ui_signal = pyqtSignal(str, str)
    def __init__(self, window):
        super().__init__()
        self.window = window
    def run(self):
        def create_callback(encoder):
            encoder_len = encoder.len
            def callback(monitor):
                percent = f"{monitor.bytes_read / encoder_len * 100:.0f}"
                self.update_ui_signal.emit(hostname, percent)
            return callback
        hostname = self.window.server_input.currentText()
        job_json = {'owner': psutil.Process().username() + '@' + socket.gethostname(),
                    'renderer': self.window.renderer_type.currentText().lower(),
                    'engine_version': self.window.renderer_version_combo.currentText(),
                    'args': {'raw': self.window.raw_args.text()},
                    'output_path': self.window.output_path_input.text(),
                    'start_frame': self.window.start_frame_input.value(),
                    'end_frame': self.window.end_frame_input.value(),
                    'priority': self.window.priority_input.currentIndex() + 1,
                    'notes': self.window.notes_input.toPlainText(),
                    'enable_split_jobs': self.window.enable_splitjobs.isChecked(),
                    'split_jobs_same_os': self.window.splitjobs_same_os.isChecked()}
        # get the dynamic args
        for i in range(self.window.renderer_options_layout.count()):
            item = self.window.renderer_options_layout.itemAt(i)
            layout = item.layout()  # get the layout
            for x in range(layout.count()):
                z = layout.itemAt(x)
                widget = z.widget()
                if isinstance(widget, QComboBox):
                    job_json['args'][self.window.current_engine_options[i]['name']] = widget.currentText()
                elif isinstance(widget, QLineEdit):
                    job_json['args'][self.window.current_engine_options[i]['name']] = widget.text()
        # determine if any cameras are checked
        selected_cameras = []
        if self.window.cameras_list.count() and not self.window.cameras_group.isHidden():
            for index in range(self.window.cameras_list.count()):
                item = self.window.cameras_list.item(index)
                if item.checkState() == Qt.CheckState.Checked:
                    selected_cameras.append(item.text().rsplit('-', 1)[0].strip())  # cleanup to just camera name
        # process cameras into nested format
        input_path = self.window.scene_file_input.text()
        if selected_cameras:
            job_list = []
            for cam in selected_cameras:
                job_copy = copy.deepcopy(job_json)
                job_copy['args']['camera'] = cam
                job_copy['name'] = pathlib.Path(input_path).stem.replace(' ', '_') + "-" + cam.replace(' ', '')
                job_list.append(job_copy)
        else:
            job_list = [job_json]
        # presubmission tasks
        engine = EngineManager.engine_with_name(self.window.renderer_type.currentText().lower())
        input_path = engine().perform_presubmission_tasks(input_path)
        # submit
        result = self.window.server_proxy.post_job_to_server(file_path=input_path, job_list=job_list,
                                                      callback=create_callback)
        self.message_signal.emit(result)
 class GetProjectInfoWorker(QThread):
    """Worker class called to retrieve information about a project file on a background thread and update the UI"""
    message_signal = pyqtSignal()
    def __init__(self, window, project_path):
        super().__init__()
        self.window = window
        self.project_path = project_path
    def run(self):
        engine = EngineManager.engine_for_project_path(self.project_path)
        self.window.project_info = engine().get_project_info(self.project_path)
        self.message_signal.emit()
 def clear_layout(layout):
    if layout is not None:
        # Go through the layout's items in reverse order
        for i in reversed(range(layout.count())):
            # Take the item at the current position
            item = layout.takeAt(i)
            # Check if the item is a widget
            if item.widget():
                # Remove the widget and delete it
                widget_to_remove = item.widget()
                widget_to_remove.setParent(None)
                widget_to_remove.deleteLater()
            elif item.layout():
                # If the item is a sub-layout, clear its contents recursively
                clear_layout(item.layout())
                # Then delete the layout
                item.layout().deleteLater()
 # Run the application
 if __name__ == '__main__':
    app = QApplication([])
    window = NewRenderJobForm()
    app.exec()
@@ -0,0 +1,643 @@
 import os.path
 import socket
 import psutil
 from PyQt6.QtCore import QThread, pyqtSignal, Qt, pyqtSlot
 from PyQt6.QtWidgets import (
    QApplication, QWidget, QVBoxLayout, QHBoxLayout, QLabel, QLineEdit, QPushButton, QFileDialog, QSpinBox, QComboBox,
    QGroupBox, QCheckBox, QProgressBar, QPlainTextEdit, QDoubleSpinBox, QMessageBox, QListWidget, QListWidgetItem,
    QTabWidget
 )
 from src.api.server_proxy import RenderServerProxy
 from src.engines.engine_manager import EngineManager
 from src.ui.engine_help_window import EngineHelpViewer
 from src.utilities.zeroconf_server import ZeroconfServer
 from src.utilities.misc_helper import COMMON_RESOLUTIONS
 from utilities.misc_helper import COMMON_FRAME_RATES
 class NewRenderJobForm(QWidget):
    def __init__(self, project_path=None):
        super().__init__()
        self.resolution_options_list = None
        self.resolution_x_input = None
        self.resolution_y_input = None
        self.fps_options_list = None
        self.fps_input = None
        self.engine_group = None
        self.notes_group = None
        self.output_settings_group = None
        self.project_path = project_path
        # UI
        self.project_group = None
        self.load_file_group = None
        self.current_engine_options = None
        self.file_format_combo = None
        self.engine_options_layout = None
        self.cameras_list = None
        self.cameras_group = None
        self.engine_version_combo = None
        self.worker_thread = None
        self.msg_box = None
        self.engine_help_viewer = None
        self.raw_args = None
        self.submit_progress_label = None
        self.submit_progress = None
        self.engine_type = None
        self.process_label = None
        self.process_progress_bar = None
        self.splitjobs_same_os = None
        self.enable_splitjobs = None
        self.server_input = None
        self.submit_button = None
        self.notes_input = None
        self.priority_input = None
        self.end_frame_input = None
        self.start_frame_input = None
        self.job_name_input = None
        self.scene_file_input = None
        self.scene_file_browse_button = None
        self.tabs = None
        # Job / Server Data
        self.server_proxy = RenderServerProxy(socket.gethostname())
        self.engine_info = None
        self.project_info = None
        # Setup
        self.setWindowTitle("New Job")
        self.setup_ui()
        self.update_engine_info()
        self.setup_project()
        # get renderer info in bg thread
        # t = threading.Thread(target=self.update_renderer_info)
        # t.start()
        self.show()
    def setup_ui(self):
        # Main widget layout
        main_layout = QVBoxLayout(self)
        # Tabs
        self.tabs = QTabWidget()
        # ==================== Loading Section (outside tabs) ====================
        self.load_file_group = QGroupBox("Loading")
        load_file_layout = QVBoxLayout(self.load_file_group)
        progress_layout = QHBoxLayout()
        self.process_label = QLabel("Processing")
        self.process_progress_bar = QProgressBar()
        self.process_progress_bar.setMinimum(0)
        self.process_progress_bar.setMaximum(0)  # Indeterminate
        progress_layout.addWidget(self.process_label)
        progress_layout.addWidget(self.process_progress_bar)
        load_file_layout.addLayout(progress_layout)
        # Scene File
        job_overview_group = QGroupBox("Project File")
        file_group_layout = QVBoxLayout(job_overview_group)
        # Job Name
        job_name_layout = QHBoxLayout()
        job_name_layout.addWidget(QLabel("Job name:"))
        self.job_name_input = QLineEdit()
        job_name_layout.addWidget(self.job_name_input)
        file_group_layout.addLayout(job_name_layout)
        # Job File
        scene_file_picker_layout = QHBoxLayout()
        scene_file_picker_layout.addWidget(QLabel("File:"))
        self.scene_file_input = QLineEdit()
        self.scene_file_input.setText(self.project_path)
        self.scene_file_browse_button = QPushButton("Browse...")
        self.scene_file_browse_button.clicked.connect(self.browse_scene_file)
        scene_file_picker_layout.addWidget(self.scene_file_input)
        scene_file_picker_layout.addWidget(self.scene_file_browse_button)
        file_group_layout.addLayout(scene_file_picker_layout)
        main_layout.addWidget(job_overview_group)
        main_layout.addWidget(self.load_file_group)
        main_layout.addWidget(self.tabs)
        # ==================== Tab 1: Job Settings ====================
        self.project_group = QWidget()
        project_layout = QVBoxLayout(self.project_group)  # Fixed: proper parent
        # Server / Hostname
        server_list_layout = QHBoxLayout()
        server_list_layout.addWidget(QLabel("Render Target:"))
        self.server_input = QComboBox()
        server_list_layout.addWidget(self.server_input)
        project_layout.addLayout(server_list_layout)
        # Priority
        priority_layout = QHBoxLayout()
        priority_layout.addWidget(QLabel("Priority:"))
        self.priority_input = QComboBox()
        self.priority_input.addItems(["High", "Medium", "Low"])
        self.priority_input.setCurrentIndex(1)
        priority_layout.addWidget(self.priority_input)
        project_layout.addLayout(priority_layout)
        # Split Jobs Options
        self.enable_splitjobs = QCheckBox("Automatically split render across multiple servers")
        project_layout.addWidget(self.enable_splitjobs)
        self.splitjobs_same_os = QCheckBox("Only render on same OS")
        project_layout.addWidget(self.splitjobs_same_os)
        project_layout.addStretch()  # Push everything up
        # ==================== Tab 2: Output Settings ====================
        self.output_settings_group = QWidget()
        output_settings_layout = QVBoxLayout(self.output_settings_group)
        # File Format
        format_group = QGroupBox("Format / Range")
        output_settings_layout.addWidget(format_group)
        format_group_layout = QVBoxLayout()
        format_group.setLayout(format_group_layout)
        file_format_layout = QHBoxLayout()
        file_format_layout.addWidget(QLabel("Format:"))
        self.file_format_combo = QComboBox()
        self.file_format_combo.setFixedWidth(200)
        file_format_layout.addWidget(self.file_format_combo)
        file_format_layout.addStretch()
        format_group_layout.addLayout(file_format_layout)
        # Frame Range
        frame_range_layout = QHBoxLayout()
        frame_range_layout.addWidget(QLabel("Frames:"))
        self.start_frame_input = QSpinBox()
        self.start_frame_input.setRange(1, 99999)
        self.start_frame_input.setFixedWidth(80)
        self.end_frame_input = QSpinBox()
        self.end_frame_input.setRange(1, 99999)
        self.end_frame_input.setFixedWidth(80)
        frame_range_layout.addWidget(self.start_frame_input)
        frame_range_layout.addWidget(QLabel("to"))
        frame_range_layout.addWidget(self.end_frame_input)
        frame_range_layout.addStretch()
        format_group_layout.addLayout(frame_range_layout)
        # --- Resolution & FPS Group ---
        resolution_group = QGroupBox("Resolution / Frame Rate")
        output_settings_layout.addWidget(resolution_group)
        resolution_group_layout = QVBoxLayout()
        resolution_group.setLayout(resolution_group_layout)
        # Resolution
        resolution_layout = QHBoxLayout(resolution_group)
        self.resolution_options_list = QComboBox()
        self.resolution_options_list.setFixedWidth(200)
        self.resolution_options_list.addItem("Original Size")
        for res in COMMON_RESOLUTIONS:
            self.resolution_options_list.addItem(res)
        self.resolution_options_list.currentIndexChanged.connect(self._resolution_preset_changed)
        resolution_layout.addWidget(self.resolution_options_list)
        resolution_group_layout.addLayout(resolution_layout)
        self.resolution_x_input = QSpinBox()
        self.resolution_x_input.setRange(1, 9999)
        self.resolution_x_input.setValue(1920)
        self.resolution_x_input.setFixedWidth(80)
        resolution_layout.addWidget(self.resolution_x_input)
        self.resolution_y_input = QSpinBox()
        self.resolution_y_input.setRange(1, 9999)
        self.resolution_y_input.setValue(1080)
        self.resolution_y_input.setFixedWidth(80)
        resolution_layout.addWidget(QLabel("x"))
        resolution_layout.addWidget(self.resolution_y_input)
        resolution_layout.addStretch()
        fps_layout = QHBoxLayout(resolution_group)
        self.fps_options_list = QComboBox()
        self.fps_options_list.setFixedWidth(200)
        self.fps_options_list.addItem("Original FPS")
        for fps_option in COMMON_FRAME_RATES:
            self.fps_options_list.addItem(fps_option)
        self.fps_options_list.currentIndexChanged.connect(self._fps_preset_changed)
        fps_layout.addWidget(self.fps_options_list)
        self.fps_input = QDoubleSpinBox()
        self.fps_input.setDecimals(3)
        self.fps_input.setRange(1.0, 999.0)
        self.fps_input.setValue(23.976)
        self.fps_input.setFixedWidth(80)
        fps_layout.addWidget(self.fps_input)
        fps_layout.addWidget(QLabel("fps"))
        fps_layout.addStretch()
        resolution_group_layout.addLayout(fps_layout)
        output_settings_layout.addStretch()
        # ==================== Tab 3: Engine Settings ====================
        self.engine_group = QWidget()
        engine_group_layout = QVBoxLayout(self.engine_group)
        engine_layout = QHBoxLayout()
        engine_layout.addWidget(QLabel("Engine:"))
        self.engine_type = QComboBox()
        self.engine_type.currentIndexChanged.connect(self.engine_changed)
        engine_layout.addWidget(self.engine_type)
        engine_layout.addWidget(QLabel("Version:"))
        self.engine_version_combo = QComboBox()
        self.engine_version_combo.addItem('latest')
        engine_layout.addWidget(self.engine_version_combo)
        engine_group_layout.addLayout(engine_layout)
        # Dynamic engine options
        self.engine_options_layout = QVBoxLayout()
        engine_group_layout.addLayout(self.engine_options_layout)
        # Raw Args
        raw_args_layout = QHBoxLayout()
        raw_args_layout.addWidget(QLabel("Raw Args:"))
        self.raw_args = QLineEdit()
        raw_args_layout.addWidget(self.raw_args)
        args_help_button = QPushButton("?")
        args_help_button.clicked.connect(self.args_help_button_clicked)
        raw_args_layout.addWidget(args_help_button)
        engine_group_layout.addLayout(raw_args_layout)
        engine_group_layout.addStretch()
        # ==================== Tab 4: Cameras ====================
        self.cameras_group = QWidget()
        cameras_layout = QVBoxLayout(self.cameras_group)
        self.cameras_list = QListWidget()
        cameras_layout.addWidget(self.cameras_list)
        # ==================== Tab 5: Misc / Notes ====================
        self.notes_group = QWidget()
        notes_layout = QVBoxLayout(self.notes_group)
        self.notes_input = QPlainTextEdit()
        notes_layout.addWidget(self.notes_input)
        # == Create Tabs
        self.tabs.addTab(self.project_group, "Job Settings")
        self.tabs.addTab(self.output_settings_group, "Output Settings")
        self.tabs.addTab(self.engine_group, "Engine Settings")
        self.tabs.addTab(self.cameras_group, "Cameras")
        self.tabs.addTab(self.notes_group, "Notes")
        self.update_server_list()
        index = self.tabs.indexOf(self.cameras_group)
        if index != -1:
            self.tabs.setTabEnabled(index, False)
        # ==================== Submit Section (outside tabs) ====================
        self.submit_button = QPushButton("Submit Job")
        self.submit_button.clicked.connect(self.submit_job)
        main_layout.addWidget(self.submit_button)
        self.submit_progress = QProgressBar()
        self.submit_progress.setMinimum(0)
        self.submit_progress.setMaximum(0)
        self.submit_progress.setHidden(True)
        main_layout.addWidget(self.submit_progress)
        self.submit_progress_label = QLabel("Submitting...")
        self.submit_progress_label.setHidden(True)
        main_layout.addWidget(self.submit_progress_label)
        # Initial engine state
        self.toggle_engine_enablement(False)
        self.tabs.setCurrentIndex(0)
    def _resolution_preset_changed(self, index):
        selected_res = COMMON_RESOLUTIONS.get(self.resolution_options_list.currentText())
        if selected_res:
            self.resolution_x_input.setValue(selected_res[0])
            self.resolution_y_input.setValue(selected_res[1])
        elif index == 0:
            self.resolution_x_input.setValue(self.project_info.get('resolution_x'))
            self.resolution_y_input.setValue(self.project_info.get('resolution_y'))
    def _fps_preset_changed(self, index):
        selected_fps = COMMON_FRAME_RATES.get(self.fps_options_list.currentText())
        if selected_fps:
            self.fps_input.setValue(selected_fps)
        elif index == 0:
            self.fps_input.setValue(self.project_info.get('fps'))
    def update_engine_info(self):
        # get the engine info and add them all to the ui
        self.engine_info = self.server_proxy.get_engine_info(response_type='full')
        self.engine_type.addItems(self.engine_info.keys())
        # select the best engine for the file type
        engine = EngineManager.engine_for_project_path(self.project_path)
        self.engine_type.setCurrentText(engine.name().lower())
        # refresh ui
        self.engine_changed()
    def engine_changed(self):
        # load the version numbers
        current_engine = self.engine_type.currentText().lower() or self.engine_type.itemText(0)
        self.engine_version_combo.clear()
        self.engine_version_combo.addItem('latest')
        self.file_format_combo.clear()
        if current_engine:
            engine_vers = [version_info['version'] for version_info in self.engine_info[current_engine]['versions']]
            self.engine_version_combo.addItems(engine_vers)
            self.file_format_combo.addItems(self.engine_info[current_engine]['supported_export_formats'])
    def update_server_list(self):
        clients = ZeroconfServer.found_hostnames()
        self.server_input.clear()
        self.server_input.addItems(clients)
    def browse_scene_file(self):
        file_name, _ = QFileDialog.getOpenFileName(self, "Select Scene File")
        if file_name:
            self.scene_file_input.setText(file_name)
            self.setup_project()
    def setup_project(self):
        # UI stuff on main thread
        self.process_progress_bar.setHidden(False)
        self.process_label.setHidden(False)
        self.toggle_engine_enablement(False)
        output_name, _ = os.path.splitext(os.path.basename(self.scene_file_input.text()))
        output_name = output_name.replace(' ', '_')
        self.job_name_input.setText(output_name)
        file_name = self.scene_file_input.text()
        # setup bg worker
        self.worker_thread = GetProjectInfoWorker(window=self, project_path=file_name)
        self.worker_thread.message_signal.connect(self.post_get_project_info_update)
        self.worker_thread.start()
    def browse_output_path(self):
        directory = QFileDialog.getExistingDirectory(self, "Select Output Directory")
        if directory:
            self.job_name_input.setText(directory)
    def args_help_button_clicked(self):
        url = (f'http://{self.server_proxy.hostname}:{self.server_proxy.port}/api/engine/'
               f'{self.engine_type.currentText()}/help')
        self.engine_help_viewer = EngineHelpViewer(url)
        self.engine_help_viewer.show()
 # -------- Update --------
    def post_get_project_info_update(self):
        """Called by the GetProjectInfoWorker - Do not call directly."""
        try:
            # Set the best engine we can find
            input_path = self.scene_file_input.text()
            engine = EngineManager.engine_for_project_path(input_path)
            engine_index = self.engine_type.findText(engine.name().lower())
            if engine_index >= 0:
                self.engine_type.setCurrentIndex(engine_index)
            else:
                self.engine_type.setCurrentIndex(0)  #todo: find out why we don't have engine info yet
                # not ideal but if we don't have the engine info we have to pick something
            # cleanup progress UI
            self.load_file_group.setHidden(True)
            self.toggle_engine_enablement(True)
            # Load scene data
            self.start_frame_input.setValue(self.project_info.get('frame_start'))
            self.end_frame_input.setValue(self.project_info.get('frame_end'))
            self.resolution_x_input.setValue(self.project_info.get('resolution_x'))
            self.resolution_y_input.setValue(self.project_info.get('resolution_y'))
            self.fps_input.setValue(self.project_info.get('fps'))
            # Cameras
            self.cameras_list.clear()
            index = self.tabs.indexOf(self.cameras_group)
            if self.project_info.get('cameras'):
                self.tabs.setTabEnabled(index, True)
                found_active = False
                for camera in self.project_info['cameras']:
                    # create the list items and make them checkable
                    item = QListWidgetItem(f"{camera['name']} - {camera['lens']}mm")
                    item.setFlags(item.flags() | Qt.ItemFlag.ItemIsUserCheckable)
                    is_checked = camera['is_active'] or len(self.project_info['cameras']) == 1
                    found_active = found_active or is_checked
                    item.setCheckState(Qt.CheckState.Checked if is_checked else Qt.CheckState.Unchecked)
                    self.cameras_list.addItem(item)
                if not found_active:
                    self.cameras_list.item(0).setCheckState(Qt.CheckState.Checked)
            else:
                self.tabs.setTabEnabled(index, False)
            # Dynamic Engine Options
            clear_layout(self.engine_options_layout)  # clear old options
            # dynamically populate option list
            self.current_engine_options = engine().ui_options()
            for option in self.current_engine_options:
                h_layout = QHBoxLayout()
                label = QLabel(option['name'].replace('_', ' ').capitalize() + ':')
                h_layout.addWidget(label)
                if option.get('options'):
                    combo_box = QComboBox()
                    for opt in option['options']:
                        combo_box.addItem(opt)
                    h_layout.addWidget(combo_box)
                else:
                    text_box = QLineEdit()
                    h_layout.addWidget(text_box)
                self.engine_options_layout.addLayout(h_layout)
        except AttributeError:
            pass
    def toggle_engine_enablement(self, enabled=False):
        """Toggle on/off all the render settings"""
        indexes = [self.tabs.indexOf(self.project_group),
                   self.tabs.indexOf(self.output_settings_group),
                   self.tabs.indexOf(self.engine_group),
                   self.tabs.indexOf(self.cameras_group),
                   self.tabs.indexOf(self.notes_group)]
        for idx in indexes:
            self.tabs.setTabEnabled(idx, enabled)
        self.submit_button.setEnabled(enabled)
    def after_job_submission(self, error_string):
        # UI cleanup
        self.submit_progress.setMaximum(0)
        self.submit_button.setHidden(False)
        self.submit_progress.setHidden(True)
        self.submit_progress_label.setHidden(True)
        self.process_progress_bar.setHidden(True)
        self.process_label.setHidden(True)
        self.toggle_engine_enablement(True)
        self.msg_box = QMessageBox()
        if not error_string:
            self.msg_box.setStandardButtons(QMessageBox.StandardButton.Yes | QMessageBox.StandardButton.No)
            self.msg_box.setIcon(QMessageBox.Icon.Information)
            self.msg_box.setText("Job successfully submitted to server. Submit another?")
            self.msg_box.setWindowTitle("Success")
            x = self.msg_box.exec()
            if x == QMessageBox.StandardButton.No:
                self.close()
        else:
            self.msg_box.setStandardButtons(QMessageBox.StandardButton.Ok)
            self.msg_box.setIcon(QMessageBox.Icon.Critical)
            self.msg_box.setText(error_string)
            self.msg_box.setWindowTitle("Error")
            self.msg_box.exec()
 # -------- Submit Job Calls --------
    def submit_job(self):
        # Pre-worker UI
        self.submit_progress.setHidden(False)
        self.submit_progress_label.setHidden(False)
        self.submit_button.setHidden(True)
        self.submit_progress.setMaximum(0)
        # submit job in background thread
        self.worker_thread = SubmitWorker(window=self)
        self.worker_thread.update_ui_signal.connect(self.update_submit_progress)
        self.worker_thread.message_signal.connect(self.after_job_submission)
        self.worker_thread.start()
    @pyqtSlot(str, str)
    def update_submit_progress(self, hostname, percent):
        # Update the UI here. This slot will be executed in the main thread
        self.submit_progress_label.setText(f"Transferring to {hostname} - {percent}%")
        self.submit_progress.setMaximum(100)
        self.submit_progress.setValue(int(percent))
 class SubmitWorker(QThread):
    """Worker class called to submit all the jobs to the server and update the UI accordingly"""
    message_signal = pyqtSignal(str)
    update_ui_signal = pyqtSignal(str, str)
    def __init__(self, window):
        super().__init__()
        self.window = window
    def run(self):
        def create_callback(encoder):
            encoder_len = encoder.len
            def callback(monitor):
                percent = f"{monitor.bytes_read / encoder_len * 100:.0f}"
                self.update_ui_signal.emit(hostname, percent)
            return callback
        try:
            hostname = self.window.server_input.currentText()
            resolution = (self.window.resolution_x_input.text(), self.window.resolution_y_input.text())
            job_json = {'owner': psutil.Process().username() + '@' + socket.gethostname(),
                        'engine_name': self.window.engine_type.currentText().lower(),
                        'engine_version': self.window.engine_version_combo.currentText(),
                        'args': {'raw': self.window.raw_args.text(),
                                 'export_format': self.window.file_format_combo.currentText(),
                                 'resolution': resolution,
                                 'fps': self.window.fps_input.text(),},
                        'output_path': self.window.job_name_input.text(),
                        'start_frame': self.window.start_frame_input.value(),
                        'end_frame': self.window.end_frame_input.value(),
                        'priority': self.window.priority_input.currentIndex() + 1,
                        'notes': self.window.notes_input.toPlainText(),
                        'enable_split_jobs': self.window.enable_splitjobs.isChecked(),
                        'split_jobs_same_os': self.window.splitjobs_same_os.isChecked(),
                        'name': self.window.job_name_input.text()}
            # get the dynamic args
            for i in range(self.window.engine_options_layout.count()):
                item = self.window.engine_options_layout.itemAt(i)
                layout = item.layout()  # get the layout
                for x in range(layout.count()):
                    z = layout.itemAt(x)
                    widget = z.widget()
                    if isinstance(widget, QComboBox):
                        job_json['args'][self.window.current_engine_options[i]['name']] = widget.currentText()
                    elif isinstance(widget, QLineEdit):
                        job_json['args'][self.window.current_engine_options[i]['name']] = widget.text()
            # determine if any cameras are checked
            selected_cameras = []
            if self.window.cameras_list.count() and not self.window.cameras_group.isHidden():
                for index in range(self.window.cameras_list.count()):
                    item = self.window.cameras_list.item(index)
                    if item.checkState() == Qt.CheckState.Checked:
                        selected_cameras.append(item.text().rsplit('-', 1)[0].strip())  # cleanup to just camera name
            # process cameras into nested format
            input_path = self.window.scene_file_input.text()
            if selected_cameras and self.window.cameras_list.count() > 1:
                children_jobs = []
                for cam in selected_cameras:
                    child_job_data = dict()
                    child_job_data['args'] = {}
                    child_job_data['args']['camera'] = cam
                    child_job_data['name'] = job_json['name'].replace(' ', '-') + "_" + cam.replace(' ', '')
                    child_job_data['output_path'] = child_job_data['name']
                    children_jobs.append(child_job_data)
                job_json['child_jobs'] = children_jobs
            # presubmission tasks
            engine = EngineManager.engine_with_name(self.window.engine_type.currentText().lower())
            input_path = engine().perform_presubmission_tasks(input_path)
            # submit
            err_msg = ""
            result = self.window.server_proxy.post_job_to_server(file_path=input_path, job_data=job_json,
                                                          callback=create_callback)
            if not (result and result.ok):
                err_msg = f"Error posting job to server: {result.message}"
            self.message_signal.emit(err_msg)
        except Exception as e:
            self.message_signal.emit(str(e))
 class GetProjectInfoWorker(QThread):
    """Worker class called to retrieve information about a project file on a background thread and update the UI"""
    message_signal = pyqtSignal()
    def __init__(self, window, project_path):
        super().__init__()
        self.window = window
        self.project_path = project_path
    def run(self):
        engine = EngineManager.engine_for_project_path(self.project_path)
        self.window.project_info = engine().get_project_info(self.project_path)
        self.message_signal.emit()
 def clear_layout(layout):
    if layout is not None:
        # Go through the layout's items in reverse order
        for i in reversed(range(layout.count())):
            # Take the item at the current position
            item = layout.takeAt(i)
            # Check if the item is a widget
            if item.widget():
                # Remove the widget and delete it
                widget_to_remove = item.widget()
                widget_to_remove.setParent(None)
                widget_to_remove.deleteLater()
            elif item.layout():
                # If the item is a sub-layout, clear its contents recursively
                clear_layout(item.layout())
                # Then delete the layout
                item.layout().deleteLater()
 # Run the application
 if __name__ == '__main__':
    app = QApplication([])
    window = NewRenderJobForm()
    app.exec()
@@ -1,4 +1,3 @@
 import sys
 import logging
 from PyQt6.QtGui import QFont
@@ -16,7 +15,10 @@ class QSignalHandler(logging.Handler, QObject):
    def emit(self, record):
        msg = self.format(record)
-        self.new_record.emit(msg)  # Emit signal
+        try:
            self.new_record.emit(msg)  # Emit signal
        except RuntimeError:
            pass
 class ConsoleWindow(QMainWindow):
@@ -93,7 +93,7 @@ class EngineBrowserWindow(QMainWindow):
    def update_table(self):
        def update_table_worker():
-            raw_server_data = RenderServerProxy(self.hostname).get_renderer_info()
+            raw_server_data = RenderServerProxy(self.hostname).get_engine_info()
            if not raw_server_data:
                return
@@ -128,18 +128,18 @@ class EngineBrowserWindow(QMainWindow):
        self.launch_button.setEnabled(is_localhost(self.hostname))
    def update_download_status(self):
-        running_tasks = [x for x in EngineManager.download_tasks if x.is_alive()]
+        running_tasks = EngineManager.active_downloads()
        hide_progress = not bool(running_tasks)
        self.progress_bar.setHidden(hide_progress)
        self.progress_label.setHidden(hide_progress)
        # Update the status labels
-        if len(EngineManager.download_tasks) == 0:
+        if len(running_tasks) == 0:
            new_status = ""
-        elif len(EngineManager.download_tasks) == 1:
+        elif len(running_tasks) == 1:
-            task = EngineManager.download_tasks[0]
+            task = running_tasks[0]
            new_status = f"Downloading {task.engine.capitalize()} {task.version}..."
        else:
-            new_status = f"Downloading {len(EngineManager.download_tasks)} engines..."
+            new_status = f"Downloading {len(running_tasks)} engines..."
        self.progress_label.setText(new_status)
    def launch_button_click(self):
@@ -1,14 +1,15 @@
 ''' app/ui/main_window.py '''
 import ast
 import datetime
 import io
 import logging
 import os
 import subprocess
 import sys
 import threading
 import time
 import PIL
 import humanize
 from PIL import Image
 from PyQt6.QtCore import Qt, QByteArray, QBuffer, QIODevice, QThread
 from PyQt6.QtGui import QPixmap, QImage, QFont, QIcon
@@ -16,20 +17,22 @@ from PyQt6.QtWidgets import QMainWindow, QWidget, QHBoxLayout, QListWidget, QTab
    QTableWidgetItem, QLabel, QVBoxLayout, QHeaderView, QMessageBox, QGroupBox, QPushButton, QListWidgetItem, \
    QFileDialog
 from src.api.api_server import API_VERSION
 from src.api.serverproxy_manager import ServerProxyManager
 from src.render_queue import RenderQueue
 from src.ui.add_job_window import NewRenderJobForm
 from src.ui.console_window import ConsoleWindow
 from src.ui.engine_browser import EngineBrowserWindow
 from src.ui.log_window import LogViewer
 from src.ui.widgets.menubar import MenuBar
 from src.ui.widgets.proportional_image_label import ProportionalImageLabel
 from src.ui.widgets.statusbar import StatusBar
 from src.ui.widgets.toolbar import ToolBar
 from src.utilities.misc_helper import get_time_elapsed, resources_dir, is_localhost
 from src.utilities.misc_helper import launch_url
 from src.utilities.status_utils import RenderStatus
 from src.utilities.zeroconf_server import ZeroconfServer
-from .add_job import NewRenderJobForm
+from src.version import APP_NAME
 from .console import ConsoleWindow
 from .engine_browser import EngineBrowserWindow
 from .log_viewer import LogViewer
 from .widgets.menubar import MenuBar
 from .widgets.proportional_image_label import ProportionalImageLabel
 from .widgets.statusbar import StatusBar
 from .widgets.toolbar import ToolBar
 from src.api.serverproxy_manager import ServerProxyManager
 from src.utilities.misc_helper import launch_url
 logger = logging.getLogger()
@@ -53,6 +56,7 @@ class MainWindow(QMainWindow):
        self.server_info_ram = None
        self.server_info_cpu = None
        self.server_info_os = None
        self.server_info_gpu = None
        self.server_info_hostname = None
        self.engine_browser_window = None
        self.server_info_group = None
@@ -63,7 +67,7 @@ class MainWindow(QMainWindow):
        self.buffer_handler = None
        # Window-Settings
-        self.setWindowTitle("Zordon")
+        self.setWindowTitle(APP_NAME)
        self.setGeometry(100, 100, 900, 800)
        central_widget = QWidget(self)
        self.setCentralWidget(central_widget)
@@ -87,12 +91,13 @@ class MainWindow(QMainWindow):
        self.setup_ui(main_layout)
        self.create_toolbars()
        # Add Widgets to Window
        # self.custom_menu_bar =
        self.setMenuBar(MenuBar(self))
        self.setStatusBar(StatusBar(self))
        self.create_toolbars()
        # start background update
        self.bg_update_thread = QThread()
        self.bg_update_thread.run = self.__background_update
@@ -121,6 +126,7 @@ class MainWindow(QMainWindow):
        self.server_info_os = QLabel()
        self.server_info_cpu = QLabel()
        self.server_info_ram = QLabel()
        self.server_info_gpu = QLabel()
        server_info_engines_button = QPushButton("Render Engines")
        server_info_engines_button.clicked.connect(self.engine_browser)
        server_info_layout = QVBoxLayout()
@@ -128,6 +134,7 @@ class MainWindow(QMainWindow):
        server_info_layout.addWidget(self.server_info_os)
        server_info_layout.addWidget(self.server_info_cpu)
        server_info_layout.addWidget(self.server_info_ram)
        server_info_layout.addWidget(self.server_info_gpu)
        server_info_layout.addWidget(server_info_engines_button)
        server_info_group.setLayout(server_info_layout)
@@ -183,8 +190,13 @@ class MainWindow(QMainWindow):
    def __background_update(self):
        while True:
-            self.update_servers()
+            try:
-            self.fetch_jobs()
+                self.update_servers()
                self.fetch_jobs()
            except RuntimeError:
                pass
            except Exception as e:
                logger.error(f"Uncaught exception in background update: {e}")
            time.sleep(0.5)
    def closeEvent(self, event):
@@ -232,15 +244,42 @@ class MainWindow(QMainWindow):
    def update_server_info_display(self, hostname):
        """Updates the server information section of the UI."""
-        self.server_info_hostname.setText(hostname or "unknown")
+        self.server_info_hostname.setText(f"Name: {hostname}")
        server_info = ZeroconfServer.get_hostname_properties(hostname)
        # Use the get method with defaults to avoid KeyError
        os_info = f"OS: {server_info.get('system_os', 'Unknown')} {server_info.get('system_os_version', '')}"
-        cpu_info = f"CPU: {server_info.get('system_cpu', 'Unknown')} - {server_info.get('system_cpu_cores', 'Unknown')} cores"
+        cleaned_cpu_name = server_info.get('system_cpu_brand', 'Unknown').replace(' CPU','').replace('(TM)','').replace('(R)', '')
        cpu_info = f"CPU: {cleaned_cpu_name} ({server_info.get('system_cpu_cores', 'Unknown')} cores)"
        memory_info = f"RAM: {server_info.get('system_memory', 'Unknown')} GB"
        # Get and format GPU info
        try:
            gpu_list = ast.literal_eval(server_info.get('gpu_info', []))
            # Format all GPUs
            gpu_info_parts = []
            for gpu in gpu_list:
                gpu_name = gpu.get('name', 'Unknown').replace('(TM)','').replace('(R)', '')
                gpu_memory = gpu.get('memory', 'Unknown')
                # Add " GB" suffix if memory is a number
                if isinstance(gpu_memory, (int, float)) or (isinstance(gpu_memory, str) and gpu_memory.isdigit()):
                    gpu_memory_str = f"{gpu_memory} GB"
                else:
                    gpu_memory_str = str(gpu_memory)
                gpu_info_parts.append(f"{gpu_name} ({gpu_memory_str})")
            gpu_info = f"GPU: {', '.join(gpu_info_parts)}" if gpu_info_parts else "GPU: Unknown"
        except Exception as e:
            logger.error(f"Error parsing GPU info: {e}")
            gpu_info = "GPU: Unknown"
        self.server_info_os.setText(os_info.strip())
        self.server_info_cpu.setText(cpu_info)
        self.server_info_ram.setText(memory_info)
        self.server_info_gpu.setText(gpu_info)
    def fetch_jobs(self, clear_table=False):
@@ -251,7 +290,7 @@ class MainWindow(QMainWindow):
            self.job_list_view.clear()
            self.refresh_job_headers()
-        job_fetch = self.current_server_proxy.get_all_jobs(ignore_token=clear_table)
+        job_fetch = self.current_server_proxy.get_all_jobs(ignore_token=False)
        if job_fetch:
            num_jobs = len(job_fetch)
            self.job_list_view.setRowCount(num_jobs)
@@ -268,13 +307,15 @@ class MainWindow(QMainWindow):
                    get_time_elapsed(start_time, end_time)
                name = job.get('name') or os.path.basename(job.get('input_path', ''))
-                renderer = f"{job.get('renderer', '')}-{job.get('renderer_version')}"
+                engine_name = f"{job.get('engine', '')}-{job.get('engine_version')}"
                priority = str(job.get('priority', ''))
                total_frames = str(job.get('total_frames', ''))
                converted_time = datetime.datetime.fromisoformat(job['date_created'])
                humanized_time = humanize.naturaltime(converted_time)
-                items = [QTableWidgetItem(job['id']), QTableWidgetItem(name), QTableWidgetItem(renderer),
+                items = [QTableWidgetItem(job['id']), QTableWidgetItem(name), QTableWidgetItem(engine_name),
                         QTableWidgetItem(priority), QTableWidgetItem(display_status), QTableWidgetItem(time_elapsed),
-                         QTableWidgetItem(total_frames), QTableWidgetItem(job['date_created'])]
+                         QTableWidgetItem(total_frames), QTableWidgetItem(humanized_time)]
                for col, item in enumerate(items):
                    self.job_list_view.setItem(row, col, item)
@@ -320,7 +361,7 @@ class MainWindow(QMainWindow):
            current_status = self.job_list_view.item(selected_row.row(), 4).text()
            # show / hide the stop button
-            show_stop_button = current_status.lower() == 'running'
+            show_stop_button = "%" in current_status
            self.topbar.actions_call['Stop Job'].setEnabled(show_stop_button)
            self.topbar.actions_call['Stop Job'].setVisible(show_stop_button)
            self.topbar.actions_call['Delete Job'].setEnabled(not show_stop_button)
@@ -356,7 +397,7 @@ class MainWindow(QMainWindow):
            return []
    def refresh_job_headers(self):
-        self.job_list_view.setHorizontalHeaderLabels(["ID", "Name", "Renderer", "Priority", "Status",
+        self.job_list_view.setHorizontalHeaderLabels(["ID", "Name", "Engine", "Priority", "Status",
                                                      "Time Elapsed", "Frames", "Date Created"])
        self.job_list_view.setColumnHidden(0, True)
@@ -372,33 +413,41 @@ class MainWindow(QMainWindow):
    def load_image_path(self, image_path):
        # Load and set the image using QPixmap
-        pixmap = QPixmap(image_path)
+        try:
-        if not pixmap:
+            pixmap = QPixmap(image_path)
-            logger.error("Error loading image")
+            if not pixmap:
-            return
+                logger.error("Error loading image")
-        self.image_label.setPixmap(pixmap)
+                return
            self.image_label.setPixmap(pixmap)
        except Exception as e:
            logger.error(f"Error loading image path: {e}")
    def load_image_data(self, pillow_image):
-        # Convert the Pillow Image to a QByteArray (byte buffer)
+        try:
-        byte_array = QByteArray()
+            # Convert the Pillow Image to a QByteArray (byte buffer)
-        buffer = QBuffer(byte_array)
+            byte_array = QByteArray()
-        buffer.open(QIODevice.OpenModeFlag.WriteOnly)
+            buffer = QBuffer(byte_array)
-        pillow_image.save(buffer, "PNG")
+            buffer.open(QIODevice.OpenModeFlag.WriteOnly)
-        buffer.close()
+            pillow_image.save(buffer, "PNG")
            buffer.close()
-        # Create a QImage from the QByteArray
+            # Create a QImage from the QByteArray
-        image = QImage.fromData(byte_array)
+            image = QImage.fromData(byte_array)
-        # Create a QPixmap from the QImage
+            # Create a QPixmap from the QImage
-        pixmap = QPixmap.fromImage(image)
+            pixmap = QPixmap.fromImage(image)
-        if not pixmap:
+            if not pixmap:
-            logger.error("Error loading image")
+                logger.error("Error loading image")
-            return
+                return
-        self.image_label.setPixmap(pixmap)
+            self.image_label.setPixmap(pixmap)
        except Exception as e:
            logger.error(f"Error loading image data: {e}")
    def update_servers(self):
        found_servers = list(set(ZeroconfServer.found_hostnames() + self.added_hostnames))
        found_servers = [x for x in found_servers if ZeroconfServer.get_hostname_properties(x)['api_version'] == API_VERSION]
        # Always make sure local hostname is first
        if found_servers and not is_localhost(found_servers[0]):
            for hostname in found_servers:
@@ -457,9 +506,9 @@ class MainWindow(QMainWindow):
        # Top Toolbar Buttons
        self.topbar.add_button(
-            "Console", f"{resources_directory}/Console.png", self.open_console_window)
+            "Settings", f"{resources_directory}/Gear.png", self.menuBar().show_settings)
        self.topbar.add_button(
-            "Engines", f"{resources_directory}/SoftwareInstaller.png", self.engine_browser)
+            "Console", f"{resources_directory}/Console.png", self.open_console_window)
        self.topbar.add_separator()
        self.topbar.add_button(
            "Stop Job", f"{resources_directory}/StopSign.png", self.stop_job)
@@ -501,7 +550,7 @@ class MainWindow(QMainWindow):
    def stop_job(self, event):
        """
-        Event handler for the "Exit" button. Closes the application.
+        Event handler for the Stop Job button
        """
        job_ids = self.selected_job_ids()
        if not job_ids:
@@ -511,14 +560,14 @@ class MainWindow(QMainWindow):
            job = next((job for job in self.current_server_proxy.get_all_jobs() if job.get('id') == job_ids[0]), None)
            if job:
                display_name = job.get('name', os.path.basename(job.get('input_path', '')))
-                message = f"Are you sure you want to delete the job:\n{display_name}?"
+                message = f"Are you sure you want to stop the job:\n{display_name}?"
            else:
                return  # Job not found, handle this case as needed
        else:
-            message = f"Are you sure you want to delete these {len(job_ids)} jobs?"
+            message = f"Are you sure you want to stop these {len(job_ids)} jobs?"
        # Display the message box and check the response in one go
-        msg_box = QMessageBox(QMessageBox.Icon.Warning, "Delete Job", message,
+        msg_box = QMessageBox(QMessageBox.Icon.Warning, "Stop Job", message,
                              QMessageBox.StandardButton.Yes | QMessageBox.StandardButton.No, self)
        if msg_box.exec() == QMessageBox.StandardButton.Yes:
@@ -554,7 +603,15 @@ class MainWindow(QMainWindow):
            self.fetch_jobs(clear_table=True)
    def download_files(self, event):
-        pass
+
        job_ids = self.selected_job_ids()
        if not job_ids:
            return
        import webbrowser
        download_url = (f"http://{self.current_server_proxy.hostname}:{self.current_server_proxy.port}"
                        f"/api/job/{job_ids[0]}/download_all")
        webbrowser.open(download_url)
    def open_files(self, event):
        job_ids = self.selected_job_ids()
@@ -572,3 +629,21 @@ class MainWindow(QMainWindow):
        if file_name:
            self.new_job_window = NewRenderJobForm(file_name)
            self.new_job_window.show()
 if __name__ == "__main__":
    # lazy load GUI frameworks
    from PyQt6.QtWidgets import QApplication
    # load application
    # QtCore.QCoreApplication.setAttribute(QtCore.Qt.ApplicationAttribute.AA_MacDontSwapCtrlAndMeta)
    app: QApplication = QApplication(sys.argv)
    # configure main main_window
    main_window = MainWindow()
    # main_window.buffer_handler = buffer_handler
    app.setActiveWindow(main_window)
    main_window.show()
    sys.exit(app.exec())
@@ -0,0 +1,554 @@
 import os
 import socket
 from datetime import datetime
 from pathlib import Path
 import humanize
 from PyQt6 import QtCore
 from PyQt6.QtCore import Qt, QSettings, pyqtSignal as Signal, QThread, pyqtSignal, QTimer
 from PyQt6.QtGui import QIcon
 from PyQt6.QtWidgets import QApplication, QMainWindow, QListWidget, QListWidgetItem, QStackedWidget, QVBoxLayout, \
    QWidget, QLabel, QCheckBox, QLineEdit, \
    QPushButton, QHBoxLayout, QGroupBox, QTableWidget, QAbstractItemView, QTableWidgetItem, QHeaderView, \
    QMessageBox, QProgressBar
 from src.api.server_proxy import RenderServerProxy
 from src.engines.engine_manager import EngineManager
 from src.utilities.config import Config
 from src.utilities.misc_helper import launch_url, system_safe_path
 from src.version import APP_AUTHOR, APP_NAME
 settings = QSettings(APP_AUTHOR, APP_NAME)
 class GetEngineInfoWorker(QThread):
    """
    The GetEngineInfoWorker class fetches engine information from a server in a background thread.
    Attributes:
        done: A signal emitted when the engine information is retrieved.
    Methods:
        run(self): Fetches engine information from the server.
    """
    done = pyqtSignal(object)  # emits the result when finished
    def __init__(self, parent=None):
        super().__init__(parent)
        self.parent = parent
    def run(self):
        data = RenderServerProxy(socket.gethostname()).get_engine_info()
        self.done.emit(data)
 class SettingsWindow(QMainWindow):
    """
    The SettingsWindow class provides a user interface for managing engine settings.
    """
    def __init__(self):
        super().__init__()
        self.engine_download_progress_bar = None
        self.engines_last_update_label = None
        self.check_for_engine_updates_checkbox = None
        self.delete_engine_button = None
        self.launch_engine_button = None
        self.show_password_button = None
        self.network_password_line = None
        self.enable_network_password_checkbox = None
        self.check_for_new_engines_button = None
        if not EngineManager.engines_path:  # fix issue where sometimes path was not set
            EngineManager.engines_path = system_safe_path(
            os.path.join(os.path.join(os.path.expanduser(Config.upload_folder),
                                      'engines')))
        self.installed_engines_table = None
        self.setWindowTitle("Settings")
        # Create the main layout
        main_layout = QVBoxLayout()
        # Create the sidebar (QListWidget) for navigation
        self.sidebar = QListWidget()
        self.sidebar.setFixedWidth(150)
        # Set the icon size
        self.sidebar.setIconSize(QtCore.QSize(32, 32))  # Increase the icon size to 32x32 pixels
        # Adjust the font size for the sidebar items
        font = self.sidebar.font()
        font.setPointSize(12)  # Increase the font size
        self.sidebar.setFont(font)
        # Add items with icons to the sidebar
        resources_dir = os.path.join(Path(__file__).resolve().parent.parent.parent, 'resources')
        self.add_sidebar_item("General", os.path.join(resources_dir, "Gear.png"))
        self.add_sidebar_item("Server", os.path.join(resources_dir, "Server.png"))
        self.add_sidebar_item("Engines", os.path.join(resources_dir, "Blender.png"))
        self.sidebar.setCurrentRow(0)
        # Create the stacked widget to hold different settings pages
        self.stacked_widget = QStackedWidget()
        # Create pages for each section
        general_page = self.create_general_page()
        network_page = self.create_network_page()
        engines_page = self.create_engines_page()
        # Add pages to the stacked widget
        self.stacked_widget.addWidget(general_page)
        self.stacked_widget.addWidget(network_page)
        self.stacked_widget.addWidget(engines_page)
        # Connect the sidebar to the stacked widget
        self.sidebar.currentRowChanged.connect(self.stacked_widget.setCurrentIndex)
        # Create a horizontal layout to hold the sidebar and stacked widget
        content_layout = QHBoxLayout()
        content_layout.addWidget(self.sidebar)
        content_layout.addWidget(self.stacked_widget)
        # Add the content layout to the main layout
        main_layout.addLayout(content_layout)
        # Add the "OK" button at the bottom
        ok_button = QPushButton("OK")
        ok_button.clicked.connect(self.close)
        ok_button.setFixedWidth(80)
        ok_button.setDefault(True)
        main_layout.addWidget(ok_button, alignment=Qt.AlignmentFlag.AlignRight)
        # Create a central widget and set the layout
        central_widget = QWidget()
        central_widget.setLayout(main_layout)
        self.setCentralWidget(central_widget)
        self.setMinimumSize(700, 400)
        # timers for background download UI updates
        self.timer = QTimer(self)
        self.timer.timeout.connect(self.update_engine_download_status)
    def add_sidebar_item(self, name, icon_path):
        """Add an item with an icon to the sidebar."""
        item = QListWidgetItem(QIcon(icon_path), name)
        self.sidebar.addItem(item)
    def create_general_page(self):
        """Create the General settings page."""
        page = QWidget()
        layout = QVBoxLayout()
        # Startup Settings Group
        startup_group = QGroupBox("Startup Settings")
        startup_layout = QVBoxLayout()
        # startup_layout.addWidget(QCheckBox("Start application on system startup"))
        check_for_updates_checkbox = QCheckBox("Check for updates automatically")
        check_for_updates_checkbox.setChecked(settings.value("auto_check_for_updates", True, type=bool))
        check_for_updates_checkbox.stateChanged.connect(lambda state: settings.setValue("auto_check_for_updates", bool(state)))
        startup_layout.addWidget(check_for_updates_checkbox)
        startup_group.setLayout(startup_layout)
        # Local Files Group
        data_path = Path(Config.upload_folder).expanduser()
        path_size = sum(f.stat().st_size for f in Path(data_path).rglob('*') if f.is_file())
        database_group = QGroupBox("Local Files")
        database_layout = QVBoxLayout()
        database_layout.addWidget(QLabel(f"Local Directory: {data_path}"))
        database_layout.addWidget(QLabel(f"Size: {humanize.naturalsize(path_size, binary=True)}"))
        open_database_path_button = QPushButton("Open Directory")
        open_database_path_button.clicked.connect(lambda: launch_url(data_path))
        open_database_path_button.setFixedWidth(200)
        database_layout.addWidget(open_database_path_button)
        database_group.setLayout(database_layout)
        # Render Settings Group
        render_settings_group = QGroupBox("Render Engine Settings")
        render_settings_layout = QVBoxLayout()
        render_settings_layout.addWidget(QLabel("Restrict to render nodes with same:"))
        require_same_engine_checkbox = QCheckBox("Renderer Version")
        require_same_engine_checkbox.setChecked(settings.value("render_require_same_engine_version", False, type=bool))
        require_same_engine_checkbox.stateChanged.connect(lambda state: settings.setValue("render_require_same_engine_version", bool(state)))
        render_settings_layout.addWidget(require_same_engine_checkbox)
        require_same_cpu_checkbox = QCheckBox("CPU Architecture")
        require_same_cpu_checkbox.setChecked(settings.value("render_require_same_cpu_type", False, type=bool))
        require_same_cpu_checkbox.stateChanged.connect(lambda state: settings.setValue("render_require_same_cpu_type", bool(state)))
        render_settings_layout.addWidget(require_same_cpu_checkbox)
        require_same_os_checkbox = QCheckBox("Operating System")
        require_same_os_checkbox.setChecked(settings.value("render_require_same_os", False, type=bool))
        require_same_os_checkbox.stateChanged.connect(lambda state: settings.setValue("render_require_same_os", bool(state)))
        render_settings_layout.addWidget(require_same_os_checkbox)
        render_settings_group.setLayout(render_settings_layout)
        layout.addWidget(startup_group)
        layout.addWidget(database_group)
        layout.addWidget(render_settings_group)
        layout.addStretch()  # Add a stretch to push content to the top
        page.setLayout(layout)
        return page
    def create_network_page(self):
        """Create the Network settings page."""
        page = QWidget()
        layout = QVBoxLayout()
        # Sharing Settings Group
        sharing_group = QGroupBox("Sharing Settings")
        sharing_layout = QVBoxLayout()
        enable_sharing_checkbox = QCheckBox("Enable other computers on the network to render to this machine")
        enable_sharing_checkbox.setChecked(settings.value("enable_network_sharing", False, type=bool))
        enable_sharing_checkbox.stateChanged.connect(self.toggle_render_sharing)
        sharing_layout.addWidget(enable_sharing_checkbox)
        password_enabled = (settings.value("enable_network_sharing", False, type=bool) and
                            settings.value("enable_network_password", False, type=bool))
        password_layout = QHBoxLayout()
        password_layout.setContentsMargins(0, 0, 0, 0)
        self.enable_network_password_checkbox = QCheckBox("Enable network password:")
        self.enable_network_password_checkbox.setChecked(settings.value("enable_network_password", False, type=bool))
        self.enable_network_password_checkbox.stateChanged.connect(self.enable_network_password_changed)
        self.enable_network_password_checkbox.setEnabled(settings.value("enable_network_sharing", False, type=bool))
        sharing_layout.addWidget(self.enable_network_password_checkbox)
        self.network_password_line = QLineEdit()
        self.network_password_line.setPlaceholderText("Enter a password")
        self.network_password_line.setEchoMode(QLineEdit.EchoMode.Password)
        self.network_password_line.setEnabled(password_enabled)
        password_layout.addWidget(self.network_password_line)
        self.show_password_button = QPushButton("Show")
        self.show_password_button.setEnabled(password_enabled)
        self.show_password_button.clicked.connect(self.show_password_button_pressed)
        password_layout.addWidget(self.show_password_button)
        sharing_layout.addLayout(password_layout)
        sharing_group.setLayout(sharing_layout)
        layout.addWidget(sharing_group)
        layout.addStretch()  # Add a stretch to push content to the top
        page.setLayout(layout)
        return page
    def toggle_render_sharing(self, enable_sharing):
        settings.setValue("enable_network_sharing", enable_sharing)
        self.enable_network_password_checkbox.setEnabled(enable_sharing)
        enable_password = enable_sharing and settings.value("enable_network_password", False, type=bool)
        self.network_password_line.setEnabled(enable_password)
        self.show_password_button.setEnabled(enable_password)
    def enable_network_password_changed(self, new_value):
        settings.setValue("enable_network_password", new_value)
        self.network_password_line.setEnabled(new_value)
        self.show_password_button.setEnabled(new_value)
    def show_password_button_pressed(self):
        # toggle showing / hiding the password
        show_pass = self.show_password_button.text() == "Show"
        self.show_password_button.setText("Hide" if show_pass else "Show")
        self.network_password_line.setEchoMode(QLineEdit.EchoMode.Normal if show_pass else QLineEdit.EchoMode.Password)
    def create_engines_page(self):
        """Create the Engines settings page."""
        page = QWidget()
        layout = QVBoxLayout()
        # Installed Engines Group
        installed_group = QGroupBox("Installed Engines")
        installed_layout = QVBoxLayout()
        # Setup table
        self.installed_engines_table = EngineTableWidget()
        self.installed_engines_table.row_selected.connect(self.engine_table_selected)
        installed_layout.addWidget(self.installed_engines_table)
        # Ignore system installs
        engine_ignore_system_installs_checkbox = QCheckBox("Ignore system installs")
        engine_ignore_system_installs_checkbox.setChecked(settings.value("engines_ignore_system_installs", False, type=bool))
        engine_ignore_system_installs_checkbox.stateChanged.connect(self.change_ignore_system_installs)
        installed_layout.addWidget(engine_ignore_system_installs_checkbox)
        # Engine Launch / Delete buttons
        installed_buttons_layout = QHBoxLayout()
        self.launch_engine_button = QPushButton("Launch")
        self.launch_engine_button.setEnabled(False)
        self.launch_engine_button.clicked.connect(self.launch_selected_engine)
        self.delete_engine_button = QPushButton("Delete")
        self.delete_engine_button.setEnabled(False)
        self.delete_engine_button.clicked.connect(self.delete_selected_engine)
        installed_buttons_layout.addWidget(self.launch_engine_button)
        installed_buttons_layout.addWidget(self.delete_engine_button)
        installed_layout.addLayout(installed_buttons_layout)
        installed_group.setLayout(installed_layout)
        # Engine Updates Group
        engine_updates_group = QGroupBox("Auto-Install")
        engine_updates_layout = QVBoxLayout()
        engine_download_layout = QHBoxLayout()
        engine_download_layout.addWidget(QLabel("Enable Downloads for:"))
        at_least_one_downloadable = False
        for engine in EngineManager.downloadable_engines():
            engine_download_check = QCheckBox(engine.name())
            is_checked = settings.value(f"engine_download-{engine.name()}", False, type=bool)
            at_least_one_downloadable |= is_checked
            engine_download_check.setChecked(is_checked)
            # Capture the checkbox correctly using a default argument in lambda
            engine_download_check.clicked.connect(
                lambda state, checkbox=engine_download_check: self.engine_download_settings_changed(state, checkbox.text())
            )
            engine_download_layout.addWidget(engine_download_check)
        engine_updates_layout.addLayout(engine_download_layout)
        self.check_for_engine_updates_checkbox = QCheckBox("Check for new versions on launch")
        self.check_for_engine_updates_checkbox.setChecked(settings.value('check_for_engine_updates_on_launch', True, type=bool))
        self.check_for_engine_updates_checkbox.setEnabled(at_least_one_downloadable)
        self.check_for_engine_updates_checkbox.stateChanged.connect(
            lambda state: settings.setValue("check_for_engine_updates_on_launch", bool(state)))
        engine_updates_layout.addWidget(self.check_for_engine_updates_checkbox)
        self.engines_last_update_label = QLabel()
        self.update_last_checked_label()
        self.engines_last_update_label.setEnabled(at_least_one_downloadable)
        engine_updates_layout.addWidget(self.engines_last_update_label)
        self.engine_download_progress_bar = QProgressBar()
        engine_updates_layout.addWidget(self.engine_download_progress_bar)
        self.engine_download_progress_bar.setHidden(True)
        self.check_for_new_engines_button = QPushButton("Check for New Versions...")
        self.check_for_new_engines_button.setEnabled(at_least_one_downloadable)
        self.check_for_new_engines_button.clicked.connect(self.check_for_new_engines)
        engine_updates_layout.addWidget(self.check_for_new_engines_button)
        engine_updates_group.setLayout(engine_updates_layout)
        layout.addWidget(installed_group)
        layout.addWidget(engine_updates_group)
        layout.addStretch()  # Add a stretch to push content to the top
        page.setLayout(layout)
        return page
    def change_ignore_system_installs(self, value):
        settings.setValue("engines_ignore_system_installs", bool(value))
        self.installed_engines_table.update_engines_table()
    def update_last_checked_label(self):
        """Retrieve the last check timestamp and return a human-friendly string."""
        last_checked_str = settings.value("engines_last_update_time", None)
        if not last_checked_str:
            time_string = "Never"
        else:
            last_checked_dt = datetime.fromisoformat(last_checked_str)
            now = datetime.now()
            time_string = humanize.naturaltime(now - last_checked_dt)
        self.engines_last_update_label.setText(f"Last Updated: {time_string}")
    def engine_download_settings_changed(self, state, engine_name):
        settings.setValue(f"engine_download-{engine_name}", state)
        at_least_one_downloadable = False
        for engine in EngineManager.downloadable_engines():
            at_least_one_downloadable |= settings.value(f"engine_download-{engine.name()}", False, type=bool)
        self.check_for_new_engines_button.setEnabled(at_least_one_downloadable)
        self.check_for_engine_updates_checkbox.setEnabled(at_least_one_downloadable)
        self.engines_last_update_label.setEnabled(at_least_one_downloadable)
    def delete_selected_engine(self):
        engine_info = self.installed_engines_table.selected_engine_data()
        reply = QMessageBox.question(self, f"Delete {engine_info['engine']} {engine_info['version']}?",
                                     f"Do you want to delete {engine_info['engine']} {engine_info['version']}?",
                                     QMessageBox.StandardButton.Yes | QMessageBox.StandardButton.No)
        if reply is not QMessageBox.StandardButton.Yes:
            return
        delete_result = EngineManager.delete_engine_download(engine_info.get('engine'),
                                                             engine_info.get('version'),
                                                             engine_info.get('system_os'),
                                                             engine_info.get('cpu'))
        self.installed_engines_table.update_engines_table(use_cached=False)
        if delete_result:
            QMessageBox.information(self, f"{engine_info['engine']} {engine_info['version']} Deleted",
                                         f"{engine_info['engine']} {engine_info['version']} deleted successfully",
                                         QMessageBox.StandardButton.Ok)
        else:
            QMessageBox.warning(self, f"Unknown Error",
                                f"Unknown error while deleting {engine_info['engine']} {engine_info['version']}.",
                                QMessageBox.StandardButton.Ok)
    def launch_selected_engine(self):
        engine_info = self.installed_engines_table.selected_engine_data()
        if engine_info:
            launch_url(engine_info['path'])
    def engine_table_selected(self):
        engine_data = self.installed_engines_table.selected_engine_data()
        if engine_data:
            self.launch_engine_button.setEnabled(bool(engine_data.get('path') or True))
            self.delete_engine_button.setEnabled(engine_data.get('type') == 'managed')
        else:
            self.launch_engine_button.setEnabled(False)
            self.delete_engine_button.setEnabled(False)
    def check_for_new_engines(self):
        ignore_system = settings.value("engines_ignore_system_installs", False, type=bool)
        messagebox_shown = False
        for engine in EngineManager.downloadable_engines():
            if settings.value(f'engine_download-{engine.name()}', False, type=bool):
                result = EngineManager.is_engine_update_available(engine, ignore_system_installs=ignore_system)
                if result:
                    result['name'] = engine.name()
                    msg_box = QMessageBox()
                    msg_box.setWindowTitle(f"{result['name']} ({result['version']}) Available")
                    msg_box.setText(f"A new version of {result['name']} is available ({result['version']}).\n\n"
                                    f"Would you like to download it now?")
                    msg_box.setIcon(QMessageBox.Icon.Question)
                    msg_box.setStandardButtons(QMessageBox.StandardButton.Yes | QMessageBox.StandardButton.No)
                    msg_result = msg_box.exec()
                    messagebox_shown = True
                    if msg_result == QMessageBox.StandardButton.Yes:
                        EngineManager.download_engine(engine=engine.name(), version=result['version'], background=True,
                                                      ignore_system=ignore_system)
                        self.engine_download_progress_bar.setHidden(False)
                        self.engine_download_progress_bar.setValue(0)
                        self.engine_download_progress_bar.setMaximum(100)
                        self.check_for_new_engines_button.setEnabled(False)
                        self.timer.start(1000)
        if not messagebox_shown:
            msg_box = QMessageBox()
            msg_box.setWindowTitle("No Updates Available")
            msg_box.setText("No Updates Available.")
            msg_box.setIcon(QMessageBox.Icon.Information)
            msg_box.setStandardButtons(QMessageBox.StandardButton.Ok)
            msg_box.exec()
        settings.setValue("engines_last_update_time", datetime.now().isoformat())
        self.update_engine_download_status()
    def update_engine_download_status(self):
        running_tasks = EngineManager.active_downloads()
        if not running_tasks:
            self.timer.stop()
            self.engine_download_progress_bar.setHidden(True)
            self.installed_engines_table.update_engines_table(use_cached=False)
            self.update_last_checked_label()
            self.check_for_new_engines_button.setEnabled(True)
            return
        percent_complete = int(running_tasks[0].percent_complete * 100)
        self.engine_download_progress_bar.setValue(percent_complete)
        if percent_complete == 100:
            status_update = f"Installing {running_tasks[0].engine.capitalize()} {running_tasks[0].version}..."
        else:
            status_update = f"Downloading {running_tasks[0].engine.capitalize()} {running_tasks[0].version}..."
        self.engines_last_update_label.setText(status_update)
 class EngineTableWidget(QWidget):
    """
    The EngineTableWidget class displays a table of installed engines.
    Attributes:
        table: A table widget displaying engine information.
    Methods:
        on_selection_changed(self): Emits a signal when the user selects a different row in the table.
    """
    row_selected = Signal()
    def __init__(self):
        super().__init__()
        self.__get_engine_info_worker = None
        self.table = QTableWidget(0, 4)
        self.table.setHorizontalHeaderLabels(["Engine", "Version", "Type", "Path"])
        self.table.setSelectionBehavior(QAbstractItemView.SelectionBehavior.SelectRows)
        self.table.verticalHeader().setVisible(False)
        # self.table_widget.itemSelectionChanged.connect(self.engine_picked)
        self.table.setEditTriggers(QAbstractItemView.EditTrigger.NoEditTriggers)
        self.table.selectionModel().selectionChanged.connect(self.on_selection_changed)
        layout = QVBoxLayout(self)
        layout.setContentsMargins(0, 0, 0, 0)
        layout.setSpacing(0)
        layout.addWidget(self.table)
        self.raw_server_data = None
    def showEvent(self, event):
        """Runs when the widget is about to be shown."""
        self.update_engines_table()
        super().showEvent(event)  # Ensure normal event processing
    def engine_data_ready(self, raw_server_data):
        self.raw_server_data = raw_server_data
        self.update_engines_table()
    def update_engines_table(self, use_cached=True):
        if not self.raw_server_data or not use_cached:
            self.__get_engine_info_worker = GetEngineInfoWorker(self)
            self.__get_engine_info_worker.done.connect(self.engine_data_ready)
            self.__get_engine_info_worker.start()
        if not self.raw_server_data:
            return
        table_data = []  # convert the data into a flat list
        for _, engine_data in self.raw_server_data.items():
            table_data.extend(engine_data['versions'])
        if settings.value("engines_ignore_system_installs", False, type=bool):
            table_data = [x for x in table_data if x['type'] != 'system']
        self.table.clear()
        self.table.setRowCount(len(table_data))
        self.table.setColumnCount(4)
        self.table.setHorizontalHeaderLabels(['Engine', 'Version', 'Type', 'Path'])
        self.table.horizontalHeader().setSectionResizeMode(0, QHeaderView.ResizeMode.Fixed)
        self.table.horizontalHeader().setSectionResizeMode(1, QHeaderView.ResizeMode.Fixed)
        self.table.horizontalHeader().setSectionResizeMode(2, QHeaderView.ResizeMode.Fixed)
        self.table.horizontalHeader().setSectionResizeMode(3, QHeaderView.ResizeMode.Stretch)
        for row, engine in enumerate(table_data):
            self.table.setItem(row, 0, QTableWidgetItem(engine['engine']))
            self.table.setItem(row, 1, QTableWidgetItem(engine['version']))
            self.table.setItem(row, 2, QTableWidgetItem(engine['type']))
            self.table.setItem(row, 3, QTableWidgetItem(engine['path']))
        self.table.selectRow(0)
    def selected_engine_data(self):
        """Returns the data from the selected row as a dictionary."""
        row = self.table.currentRow()  # Get the selected row index
        if row < 0 or not len(self.table.selectedItems()):  # No row selected
            return None
        data = {
            "engine": self.table.item(row, 0).text(),
            "version": self.table.item(row, 1).text(),
            "type": self.table.item(row, 2).text(),
            "path": self.table.item(row, 3).text(),
        }
        return data
    def on_selection_changed(self):
        self.row_selected.emit()
 if __name__ == "__main__":
    app = QApplication([])
    window = SettingsWindow()
    window.show()
    app.exec()
@@ -1,5 +1,6 @@
 ''' app/ui/widgets/menubar.py '''
-from PyQt6.QtWidgets import QMenuBar
+from PyQt6.QtGui import QAction
 from PyQt6.QtWidgets import QMenuBar, QApplication, QMessageBox, QDialog, QVBoxLayout, QLabel, QPushButton
 class MenuBar(QMenuBar):
@@ -12,12 +13,93 @@ class MenuBar(QMenuBar):
    def __init__(self, parent=None) -> None:
        super().__init__(parent)
        self.settings_window = None
        # setup menus
        file_menu = self.addMenu("File")
        # edit_menu = self.addMenu("Edit")
        # view_menu = self.addMenu("View")
-        # help_menu = self.addMenu("Help")
+        help_menu = self.addMenu("Help")
-        # Add actions to the menus
+        # --file menu--
-        # file_menu.addAction(self.parent().topbar.actions_call["Open"]) # type: ignore
+        # new job
-        # file_menu.addAction(self.parent().topbar.actions_call["Save"]) # type: ignore
+        new_job_action = QAction("New Job...", self)
-        # file_menu.addAction(self.parent().topbar.actions_call["Exit"]) # type: ignore
+        new_job_action.setShortcut(f'Ctrl+N')
        new_job_action.triggered.connect(self.new_job)
        file_menu.addAction(new_job_action)
        # settings
        settings_action = QAction("Settings...", self)
        settings_action.triggered.connect(self.show_settings)
        settings_action.setShortcut(f'Ctrl+,')
        file_menu.addAction(settings_action)
        # exit
        exit_action = QAction('&Exit', self)
        exit_action.setShortcut('Ctrl+Q')
        exit_action.triggered.connect(QApplication.instance().quit)
        file_menu.addAction(exit_action)
        # --help menu--
        about_action = QAction("About", self)
        about_action.triggered.connect(self.show_about)
        help_menu.addAction(about_action)
        update_action = QAction("Check for Updates...", self)
        update_action.triggered.connect(self.check_for_updates)
        help_menu.addAction(update_action)
    def new_job(self):
        self.parent().new_job()
    def show_settings(self):
        from src.ui.settings_window import SettingsWindow
        self.settings_window = SettingsWindow()
        self.settings_window.show()
    @staticmethod
    def show_about():
        from src.ui.about_window import AboutDialog
        dialog = AboutDialog()
        dialog.exec()
    @staticmethod
    def check_for_updates():
        from src.utilities.misc_helper import check_for_updates
        from src.version import APP_NAME, APP_VERSION, APP_REPO_NAME, APP_REPO_OWNER
        found_update = check_for_updates(APP_REPO_NAME, APP_REPO_OWNER, APP_NAME, APP_VERSION)
        if found_update:
            dialog = UpdateDialog(found_update, APP_VERSION)
            dialog.exec()
        else:
            QMessageBox.information(None, "No Update", "No updates available.")
 class UpdateDialog(QDialog):
    def __init__(self, release_info, current_version, parent=None):
        super().__init__(parent)
        self.setWindowTitle(f"Update Available ({current_version} -> {release_info['tag_name']})")
        layout = QVBoxLayout()
        label = QLabel(f"A new version ({release_info['tag_name']}) is available! Current version: {current_version}")
        layout.addWidget(label)
        # Label to show the release notes
        description = QLabel(release_info["body"])
        layout.addWidget(description)
        # Button to download the latest version
        download_button = QPushButton(f"Download Latest Version ({release_info['tag_name']})")
        download_button.clicked.connect(lambda: self.open_url(release_info["html_url"]))
        layout.addWidget(download_button)
        # OK button to dismiss the dialog
        ok_button = QPushButton("Dismiss")
        ok_button.clicked.connect(self.accept)  # Close the dialog when clicked
        layout.addWidget(ok_button)
        self.setLayout(layout)
    def open_url(self, url):
        from PyQt6.QtCore import QUrl
        from PyQt6.QtGui import QDesktopServices
        QDesktopServices.openUrl(QUrl(url))
        self.accept()
@@ -32,20 +32,24 @@ class StatusBar(QStatusBar):
            # Check for status change every 1s on background thread
            while True:
-                new_status = proxy.status()
+                try:
-                new_image_name = image_names.get(new_status, 'Synchronize.png')
+                    # update status label - get download status
-                image_path = os.path.join(resources_dir(), new_image_name)
+                    new_status = proxy.status()
-                self.label.setPixmap((QPixmap(image_path).scaled(16, 16, Qt.AspectRatioMode.KeepAspectRatio)))
+                    active_downloads = EngineManager.active_downloads()
                    if active_downloads:
                        if len(active_downloads) == 1:
                            task = active_downloads[0]
                            new_status = f"{new_status} | Downloading {task.engine.capitalize()} {task.version}..."
                        else:
                            new_status = f"{new_status} | Downloading {len(active_downloads)} engines"
                    self.messageLabel.setText(new_status)
-                # add download status
+                    # update status image
-                if EngineManager.download_tasks:
+                    new_image_name = image_names.get(new_status, 'Synchronize.png')
-                    if len(EngineManager.download_tasks) == 1:
+                    new_image_path = os.path.join(resources_dir(), new_image_name)
-                        task = EngineManager.download_tasks[0]
+                    self.label.setPixmap((QPixmap(new_image_path).scaled(16, 16, Qt.AspectRatioMode.KeepAspectRatio)))
-                        new_status = f"{new_status} | Downloading {task.engine.capitalize()} {task.version}..."
+                except RuntimeError:  # ignore runtime errors during shutdown
-                    else:
+                    pass
                        new_status = f"{new_status} | Downloading {len(EngineManager.download_tasks)} engines"
                self.messageLabel.setText(new_status)
                time.sleep(1)
        background_thread = threading.Thread(target=background_update,)
@@ -10,7 +10,7 @@ class Config:
    max_content_path = 100000000
    server_log_level = 'debug'
    log_buffer_length = 250
-    subjob_connection_timeout = 120
+    worker_process_timeout = 120
    flask_log_level = 'error'
    flask_debug_enable = False
    queue_eval_seconds = 1
@@ -28,7 +28,7 @@ class Config:
        cls.max_content_path = cfg.get('max_content_path', cls.max_content_path)
        cls.server_log_level = cfg.get('server_log_level', cls.server_log_level)
        cls.log_buffer_length = cfg.get('log_buffer_length', cls.log_buffer_length)
-        cls.subjob_connection_timeout = cfg.get('subjob_connection_timeout', cls.subjob_connection_timeout)
+        cls.worker_process_timeout = cfg.get('worker_process_timeout', cls.worker_process_timeout)
        cls.flask_log_level = cfg.get('flask_log_level', cls.flask_log_level)
        cls.flask_debug_enable = cfg.get('flask_debug_enable', cls.flask_debug_enable)
        cls.queue_eval_seconds = cfg.get('queue_eval_seconds', cls.queue_eval_seconds)
@@ -4,18 +4,18 @@ from src.engines.ffmpeg.ffmpeg_engine import FFMPEG
 def image_sequence_to_video(source_glob_pattern, output_path, framerate=24, encoder="prores_ks", profile=4,
                            start_frame=1):
-    subprocess.run([FFMPEG.default_renderer_path(), "-framerate", str(framerate), "-start_number",
+    subprocess.run([FFMPEG.default_engine_path(), "-framerate", str(framerate), "-start_number",
                    str(start_frame), "-i", f"{source_glob_pattern}", "-c:v", encoder, "-profile:v", str(profile),
                    '-pix_fmt', 'yuva444p10le', output_path], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL,
                   check=True)
 def save_first_frame(source_path, dest_path, max_width=1280):
-    subprocess.run([FFMPEG.default_renderer_path(), '-i', source_path, '-vf', f'scale={max_width}:-1',
+    subprocess.run([FFMPEG.default_engine_path(), '-i', source_path, '-vf', f'scale={max_width}:-1',
                    '-vframes', '1', dest_path], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, check=True)
 def generate_thumbnail(source_path, dest_path, max_width=240, fps=12):
-    subprocess.run([FFMPEG.default_renderer_path(), '-i', source_path, '-vf',
+    subprocess.run([FFMPEG.default_engine_path(), '-i', source_path, '-vf',
                    f"scale={max_width}:trunc(ow/a/2)*2,format=yuv420p", '-r', str(fps), '-c:v', 'libx264', '-preset',
                    'ultrafast', '-an', dest_path], stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, check=True)
@@ -1,10 +1,13 @@
 import logging
 import json
 import os
 import platform
 import re
 import shutil
 import socket
 import string
 import subprocess
 import sys
 from datetime import datetime
 logger = logging.getLogger()
@@ -137,6 +140,40 @@ def current_system_cpu():
    # convert all x86 64 to "x64"
    return platform.machine().lower().replace('amd64', 'x64').replace('x86_64', 'x64')
 def current_system_cpu_brand():
    """Fast cross-platform CPU brand string"""
    if sys.platform.startswith('darwin'):  # macOS
        try:
            return subprocess.check_output(['sysctl', '-n', 'machdep.cpu.brand_string']).decode().strip()
        except Exception:
            pass
    elif sys.platform.startswith('win'):  # Windows
        from winreg import HKEY_LOCAL_MACHINE, OpenKey, QueryValueEx
        try:
            # Open the registry key where Windows stores the CPU name
            key = OpenKey(HKEY_LOCAL_MACHINE, r"HARDWARE\DESCRIPTION\System\CentralProcessor\0")
            # The value name is "ProcessorNameString"
            value, _ = QueryValueEx(key, "ProcessorNameString")
            return value.strip()  # Usually perfect, with full marketing name
        except Exception:
            # Fallback: sometimes the key is under a different index, try 1
            try:
                key = OpenKey(HKEY_LOCAL_MACHINE, r"HARDWARE\DESCRIPTION\System\CentralProcessor\1")
                value, _ = QueryValueEx(key, "ProcessorNameString")
                return value.strip()
            except Exception:
                return "Unknown CPU"
    elif sys.platform.startswith('linux'):
        try:
            with open('/proc/cpuinfo') as f:
                for line in f:
                    if line.startswith('model name'):
                        return line.split(':', 1)[1].strip()
        except Exception:
            pass
    # Ultimate fallback
    return platform.processor() or 'Unknown CPU'
 def resources_dir():
    resource_environment_path = os.environ.get('RESOURCEPATH', None)
@@ -159,6 +196,33 @@ def copy_directory_contents(src_dir, dst_dir):
            shutil.copy2(src_path, dst_path)
 def check_for_updates(repo_name, repo_owner, app_name, current_version):
    def get_github_releases(owner, repo):
        import requests
        url = f"https://api.github.com/repos/{owner}/{repo}/releases"
        try:
            response = requests.get(url, timeout=3)
            response.raise_for_status()
            releases = response.json()
            return releases
        except Exception as e:
            logger.error(f"Error checking for updates: {e}")
            return []
    releases = get_github_releases(repo_owner, repo_name)
    if not releases:
        return None
    latest_version = releases[0]
    latest_version_tag = latest_version['tag_name']
    from packaging import version
    if version.parse(latest_version_tag) > version.parse(current_version):
        logger.info(f"Newer version of {app_name} available. "
                    f"Latest: {latest_version_tag}, Current: {current_version}")
        return latest_version
    return None
 def is_localhost(comparison_hostname):
    # this is necessary because socket.gethostname() does not always include '.local' - This is a sanitized comparison
    try:
@@ -183,3 +247,179 @@ def num_to_alphanumeric(num):
        result += characters[remainder]
    return result[::-1]  # Reverse the result to get the correct alphanumeric string
 def get_gpu_info():
    """Cross-platform GPU information retrieval"""
    def get_windows_gpu_info():
        """Get GPU info on Windows"""
        try:
            result = subprocess.run(
                ['wmic', 'path', 'win32_videocontroller', 'get', 'name,AdapterRAM', '/format:list'], 
                capture_output=True, text=True, timeout=5
            )
            # Virtual adapters to exclude
            virtual_adapters = [
                'virtual', 'rdp', 'hyper-v', 'microsoft basic', 'basic display',
                'vga compatible', 'dummy', 'nvfbc', 'nvencode'
            ]
            gpus = []
            current_gpu = None
            for line in result.stdout.strip().split('\n'):
                line = line.strip()
                if not line:
                    continue
                if line.startswith('Name='):
                    if current_gpu and current_gpu.get('name'):
                        gpus.append(current_gpu)
                    gpu_name = line.replace('Name=', '').strip()
                    # Skip virtual adapters
                    if any(virtual in gpu_name.lower() for virtual in virtual_adapters):
                        current_gpu = None
                    else:
                        current_gpu = {'name': gpu_name, 'memory': 'Integrated'}
                elif line.startswith('AdapterRAM=') and current_gpu:
                    vram_bytes_str = line.replace('AdapterRAM=', '').strip()
                    if vram_bytes_str and vram_bytes_str != '0':
                        try:
                            vram_gb = int(vram_bytes_str) / (1024**3)
                            current_gpu['memory'] = round(vram_gb, 2)
                        except:
                            pass
            if current_gpu and current_gpu.get('name'):
                gpus.append(current_gpu)
            return gpus if gpus else [{'name': 'Unknown GPU', 'memory': 'Unknown'}]
        except Exception as e:
            logger.error(f"Failed to get Windows GPU info: {e}")
            return [{'name': 'Unknown GPU', 'memory': 'Unknown'}]
    def get_macos_gpu_info():
        """Get GPU info on macOS (works with Apple Silicon)"""
        try:
            if current_system_cpu() == "arm64":
                # don't bother with system_profiler with Apple ARM - we know its integrated
                return [{'name': current_system_cpu_brand(), 'memory': 'Integrated'}]
            result = subprocess.run(['system_profiler', 'SPDisplaysDataType', '-detailLevel', 'mini', '-json'],
                                capture_output=True, text=True, timeout=5)
            data = json.loads(result.stdout)
            gpus = []
            displays = data.get('SPDisplaysDataType', [])
            for display in displays:
                if 'sppci_model' in display:
                    gpus.append({
                        'name': display.get('sppci_model', 'Unknown GPU'),
                        'memory': display.get('sppci_vram', 'Integrated'),
                    })
            return gpus if gpus else [{'name': 'Apple GPU', 'memory': 'Integrated'}]
        except Exception as e:
            print(f"Failed to get macOS GPU info: {e}")
            return [{'name': 'Unknown GPU', 'memory': 'Unknown'}]
    def get_linux_gpu_info():
        gpus = []
        try:
            # Run plain lspci and filter for GPU-related lines
            output = subprocess.check_output(
                ["lspci"], universal_newlines=True, stderr=subprocess.DEVNULL
            )
            for line in output.splitlines():
                if any(keyword in line.lower() for keyword in ["vga", "3d", "display"]):
                    # Extract the part after the colon (vendor + model)
                    if ":" in line:
                        name_part = line.split(":", 1)[1].strip()
                        # Clean up common extras like (rev xx) or (prog-if ...)
                        name = name_part.split("(")[0].split("controller:")[-1].strip()
                        vendor = "Unknown"
                        if "nvidia" in name.lower():
                            vendor = "NVIDIA"
                        elif "amd" in name.lower() or "ati" in name.lower():
                            vendor = "AMD"
                        elif "intel" in name.lower():
                            vendor = "Intel"
                        gpus.append({
                            "name": name,
                            "vendor": vendor,
                            "memory": "Unknown"
                        })
        except FileNotFoundError:
            print("lspci not found. Install pciutils: sudo apt install pciutils")
            return []
        except Exception as e:
            print(f"Error running lspci: {e}")
            return []
        return gpus
    system = platform.system()
    if system == 'Darwin':  # macOS
        return get_macos_gpu_info()
    elif system == 'Windows':
        return get_windows_gpu_info()
    else:  # Assume Linux or other
        return get_linux_gpu_info()
 COMMON_RESOLUTIONS = {
 	# SD
 	"SD_480p": (640, 480),
 	"NTSC_DVD": (720, 480),
 	"PAL_DVD": (720, 576),
 	# HD
 	"HD_720p": (1280, 720),
 	"HD_900p": (1600, 900),
 	"HD_1080p": (1920, 1080),
 	# Cinema / Film
 	"2K_DCI": (2048, 1080),
 	"4K_DCI": (4096, 2160),
 	# UHD / Consumer
 	"UHD_4K": (3840, 2160),
 	"UHD_5K": (5120, 2880),
 	"UHD_8K": (7680, 4320),
 	# Ultrawide / Aspect Variants
 	"UW_1080p": (2560, 1080),
 	"UW_1440p": (3440, 1440),
 	"UW_5K": (5120, 2160),
 	# Mobile / Social
 	"VERTICAL_1080x1920": (1080, 1920),
 	"SQUARE_1080": (1080, 1080),
 	# Classic / Legacy
 	"VGA": (640, 480),
 	"SVGA": (800, 600),
 	"XGA": (1024, 768),
 	"WXGA": (1280, 800),
 }
 COMMON_FRAME_RATES = {
 	"23.976 (NTSC Film)": 23.976,
 	"24 (Cinema)": 24.0,
 	"25 (PAL)": 25.0,
 	"29.97 (NTSC)": 29.97,
 	"30": 30.0,
 	"48 (HFR Film)": 48.0,
 	"50 (PAL HFR)": 50.0,
 	"59.94": 59.94,
 	"60": 60.0,
 	"72": 72.0,
 	"90 (VR)": 90.0,
 	"120": 120.0,
 	"144 (Gaming)": 144.0,
 	"240 (HFR)": 240.0,
 }
@@ -1,47 +1,200 @@
 import logging
 import os
-import subprocess
+import zipfile
-import threading
+from concurrent.futures import ThreadPoolExecutor
-from src.utilities.ffmpeg_helper import generate_thumbnail, save_first_frame
+import requests
 from src.api.server_proxy import RenderServerProxy
 from src.utilities.misc_helper import get_file_size_human
 from src.utilities.zeroconf_server import ZeroconfServer
 logger = logging.getLogger()
-def generate_thumbnail_for_job(job, thumb_video_path, thumb_image_path, max_width=320):
+def download_missing_frames_from_subjob(local_job, subjob_id, subjob_hostname):
    success = True
    try:
        local_files = [os.path.basename(x) for x in local_job.file_list()]
        subjob_proxy = RenderServerProxy(subjob_hostname)
        subjob_files = subjob_proxy.get_job_files_list(job_id=subjob_id) or []
-    # Simple thread to generate thumbs in background
+        for subjob_filename in subjob_files:
-    def generate_thumb_thread(source):
+            if subjob_filename not in local_files:
-        in_progress_path = thumb_video_path + '_IN-PROGRESS'
+                try:
-        subprocess.run(['touch', in_progress_path])
+                    logger.debug(f"Downloading new file '{subjob_filename}' from {subjob_hostname}")
-        try:
+                    local_save_path = os.path.join(os.path.dirname(local_job.output_path), subjob_filename)
-            logger.debug(f"Generating video thumbnail for {source}")
+                    subjob_proxy.download_job_file(job_id=subjob_id, job_filename=subjob_filename,
-            generate_thumbnail(source_path=source, dest_path=thumb_video_path, max_width=max_width)
+                                                   save_path=local_save_path)
-        except subprocess.CalledProcessError as err:
+                    logger.debug(f'Downloaded successfully - {local_save_path}')
-            logger.error(f"Error generating video thumbnail for {source}: {err}")
+                except Exception as e:
                    logger.error(f"Error downloading file '{subjob_filename}' from {subjob_hostname}: {e}")
                    success = False
    except Exception as e:
        logger.exception(f'Uncaught exception while trying to download from subjob: {e}')
        success = False
    return success
        try:
            os.remove(in_progress_path)
        except FileNotFoundError:
            pass
-    # Determine best source file to use for thumbs
+def download_all_from_subjob(local_job, subjob_id, subjob_hostname):
-    source_files = job.file_list() or [job.input_path]
+    """
-    if source_files:
+    Downloads and extracts files from a completed subjob on a remote server.
        video_formats = ['.mp4', '.mov', '.avi', '.mpg', '.mpeg', '.mxf', '.m4v', 'mkv']
        image_formats = ['.jpg', '.png', '.exr']
-        image_files = [f for f in source_files if os.path.splitext(f)[-1].lower() in image_formats]
+    Parameters:
-        video_files = [f for f in source_files if os.path.splitext(f)[-1].lower() in video_formats]
+    local_job (BaseRenderWorker): The local parent job worker.
    subjob_id (str or int): The ID of the subjob.
    subjob_hostname (str): The hostname of the remote server where the subjob is located.
-        if (video_files or image_files) and not os.path.exists(thumb_image_path):
+    Returns:
    bool: True if the files have been downloaded and extracted successfully, False otherwise.
    """
    child_key = f'{subjob_id}@{subjob_hostname}'
    logname = f"{local_job.id}:{child_key}"
    zip_file_path = local_job.output_path + f'_{subjob_hostname}_{subjob_id}.zip'
    # download zip file from server
    try:
        local_job.children[child_key]['download_status'] = 'working'
        logger.info(f"Downloading completed subjob files from {subjob_hostname} to localhost")
        RenderServerProxy(subjob_hostname).download_all_job_files(subjob_id, zip_file_path)
        logger.info(f"File transfer complete for {logname} - Transferred {get_file_size_human(zip_file_path)}")
    except Exception as e:
        logger.error(f"Error downloading files from remote server: {e}")
        local_job.children[child_key]['download_status'] = 'failed'
        return False
    # extract zip
    try:
        logger.debug(f"Extracting zip file: {zip_file_path}")
        extract_path = os.path.dirname(zip_file_path)
        with zipfile.ZipFile(zip_file_path, 'r') as zip_ref:
            zip_ref.extractall(extract_path)
            logger.info(f"Successfully extracted zip to: {extract_path}")
        os.remove(zip_file_path)
        local_job.children[child_key]['download_status'] = 'complete'
    except Exception as e:
        logger.exception(f"Exception extracting zip file: {e}")
        local_job.children[child_key]['download_status'] = 'failed'
    return local_job.children[child_key].get('download_status', None) == 'complete'
 def distribute_server_work(start_frame, end_frame, available_servers, method='evenly'):
    """
    Splits the frame range among available servers proportionally based on their performance (CPU count).
    Args:
        start_frame (int): The start frame number of the animation to be rendered.
        end_frame (int): The end frame number of the animation to be rendered.
        available_servers (list): A list of available server dictionaries. Each server dictionary should include
        'hostname' and 'cpu_count' keys (see find_available_servers).
        method (str, optional): Specifies the distribution method. Possible values are 'cpu_benchmark', 'cpu_count'
        and 'evenly'.
        Defaults to 'cpu_benchmark'.
    Returns:
        list: A list of server dictionaries where each dictionary includes the frame range and total number of
        frames to be rendered by the server.
    """
    # Calculate respective frames for each server
    def divide_frames_by_cpu_count(frame_start, frame_end, servers):
        total_frames = frame_end - frame_start + 1
        total_cpus = sum(server['cpu_count'] for server in servers)
        frame_ranges = {}
        current_frame = frame_start
        allocated_frames = 0
        for i, server in enumerate(servers):
            if i == len(servers) - 1:  # if it's the last server
                # Give all remaining frames to the last server
                num_frames = total_frames - allocated_frames
            else:
                num_frames = round((server['cpu_count'] / total_cpus) * total_frames)
                allocated_frames += num_frames
            frame_end_for_server = current_frame + num_frames - 1
            if current_frame <= frame_end_for_server:
                frame_ranges[server['hostname']] = (current_frame, frame_end_for_server)
            current_frame = frame_end_for_server + 1
        return frame_ranges
    def divide_frames_by_benchmark(frame_start, frame_end, servers):
        def fetch_benchmark(server):
            try:
-                path_of_source = image_files[0] if image_files else video_files[0]
+                benchmark = requests.get(f'http://{server["hostname"]}:{ZeroconfServer.server_port}'
-                logger.debug(f"Generating image thumbnail for {path_of_source}")
+                                         f'/api/cpu_benchmark').text
-                save_first_frame(source_path=path_of_source, dest_path=thumb_image_path, max_width=max_width)
+                server['cpu_benchmark'] = benchmark
-            except Exception as e:
+                logger.debug(f'Benchmark for {server["hostname"]}: {benchmark}')
-                logger.error(f"Exception saving first frame: {e}")
+            except requests.exceptions.RequestException as e:
                logger.error(f'Error fetching benchmark for {server["hostname"]}: {e}')
-        if video_files and not os.path.exists(thumb_video_path):
+        # Number of threads to use (can adjust based on your needs or number of servers)
-            x = threading.Thread(target=generate_thumb_thread, args=(video_files[0],))
+        threads = len(servers)
-            x.start()
+
        with ThreadPoolExecutor(max_workers=threads) as executor:
            executor.map(fetch_benchmark, servers)
        total_frames = frame_end - frame_start + 1
        total_performance = sum(int(server['cpu_benchmark']) for server in servers)
        frame_ranges = {}
        current_frame = frame_start
        allocated_frames = 0
        for i, server in enumerate(servers):
            if i == len(servers) - 1:  # if it's the last server
                # Give all remaining frames to the last server
                num_frames = total_frames - allocated_frames
            else:
                num_frames = round((int(server['cpu_benchmark']) / total_performance) * total_frames)
                allocated_frames += num_frames
            frame_end_for_server = current_frame + num_frames - 1
            if current_frame <= frame_end_for_server:
                frame_ranges[server['hostname']] = (current_frame, frame_end_for_server)
            current_frame = frame_end_for_server + 1
        return frame_ranges
    def divide_frames_equally(frame_start, frame_end, servers):
        frame_range = frame_end - frame_start + 1
        frames_per_server = frame_range // len(servers)
        leftover_frames = frame_range % len(servers)
        frame_ranges = {}
        current_start = frame_start
        for i, server in enumerate(servers):
            current_end = current_start + frames_per_server - 1
            if leftover_frames > 0:
                current_end += 1
                leftover_frames -= 1
            if current_start <= current_end:
                frame_ranges[server['hostname']] = (current_start, current_end)
            current_start = current_end + 1
        return frame_ranges
    if len(available_servers) == 1:
        breakdown = {available_servers[0]['hostname']: (start_frame, end_frame)}
    else:
        logger.debug(f'Splitting between {len(available_servers)} servers by {method} method')
        if method == 'evenly':
            breakdown = divide_frames_equally(start_frame, end_frame, available_servers)
        elif method == 'cpu_benchmark':
            breakdown = divide_frames_by_benchmark(start_frame, end_frame, available_servers)
        elif method == 'cpu_count':
            breakdown = divide_frames_by_cpu_count(start_frame, end_frame, available_servers)
        else:
            raise ValueError(f"Invalid distribution method: {method}")
    server_breakdown = [server for server in available_servers if breakdown.get(server['hostname']) is not None]
    for server in server_breakdown:
        server['frame_range'] = breakdown[server['hostname']]
        server['total_frames'] = breakdown[server['hostname']][-1] - breakdown[server['hostname']][0] + 1
    return server_breakdown
@@ -2,7 +2,8 @@ import logging
 import socket
 from pubsub import pub
-from zeroconf import Zeroconf, ServiceInfo, ServiceBrowser, ServiceStateChange, NonUniqueNameException
+from zeroconf import Zeroconf, ServiceInfo, ServiceBrowser, ServiceStateChange, NonUniqueNameException, \
    NotRunningException
 logger = logging.getLogger()
@@ -31,12 +32,16 @@ class ZeroconfServer:
    def start(cls, listen_only=False):
        if not cls.service_type:
            raise RuntimeError("The 'configure' method must be run before starting the zeroconf server")
-        if not listen_only:
+        elif not listen_only:
            logger.debug(f"Starting zeroconf service")
            cls._register_service()
        else:
            logger.debug(f"Starting zeroconf service - Listen only mode")
        cls._browse_services()
    @classmethod
    def stop(cls):
        logger.debug("Stopping zeroconf service")
        cls._unregister_service()
        cls.zeroconf.close()
@@ -73,15 +78,18 @@ class ZeroconfServer:
    @classmethod
    def _on_service_discovered(cls, zeroconf, service_type, name, state_change):
-        info = zeroconf.get_service_info(service_type, name)
+        try:
-        hostname = name.split(f'.{cls.service_type}')[0]
+            info = zeroconf.get_service_info(service_type, name)
-        logger.debug(f"Zeroconf: {hostname} {state_change}")
+            hostname = name.split(f'.{cls.service_type}')[0]
-        if service_type == cls.service_type:
+            logger.debug(f"Zeroconf: {hostname} {state_change}")
-            if state_change == ServiceStateChange.Added or state_change == ServiceStateChange.Updated:
+            if service_type == cls.service_type:
-                cls.client_cache[hostname] = info
+                if state_change == ServiceStateChange.Added or state_change == ServiceStateChange.Updated:
-            else:
+                    cls.client_cache[hostname] = info
-                cls.client_cache.pop(hostname)
+                else:
-            pub.sendMessage('zeroconf_state_change', hostname=hostname, state_change=state_change)
+                    cls.client_cache.pop(hostname)
                pub.sendMessage('zeroconf_state_change', hostname=hostname, state_change=state_change)
        except NotRunningException:
            pass
    @classmethod
    def found_hostnames(cls):
@@ -104,9 +112,15 @@ class ZeroconfServer:
 # Example usage:
 if __name__ == "__main__":
    import time
    logging.basicConfig(level=logging.DEBUG)
    ZeroconfServer.configure("_zordon._tcp.local.", "foobar.local", 8080)
    try:
        ZeroconfServer.start()
-        input("Server running - Press enter to end")
+        while True:
            time.sleep(0.1)
    except KeyboardInterrupt:
        pass
    finally:
        ZeroconfServer.stop()
@@ -0,0 +1,8 @@
 APP_NAME = "Zordon"
 APP_VERSION = "0.0.1"
 APP_AUTHOR = "Brett Williams"
 APP_DESCRIPTION = "Distributed Render Farm Tools"
 APP_COPYRIGHT_YEAR = "2024"
 APP_LICENSE = "MIT License"
 APP_REPO_NAME = APP_NAME
 APP_REPO_OWNER = "blw1138"
Author	SHA1	Message	Date
brett	f6ee57fb55	FFMPEG path fixes for ffprobe	2026-01-06 23:49:22 -06:00
brett	2ba99cee31	EngineManager renaming and refactoring	2026-01-06 23:48:49 -06:00
Brett Williams	13a82a540a	More window improvements	2026-01-06 21:50:41 -06:00
Brett Williams	e7cecf6009	Send resolution / fps data in job submission	2026-01-06 19:33:46 -06:00
Brett Williams	2fdabd3a9d	Cleanup Blender job creation	2026-01-06 03:45:19 -06:00
Brett Williams	2691c759ad	Improve time representation in main window	2026-01-04 20:21:37 -06:00
Brett Williams	a036b8244f	Improved project naming and fixed Blender engine issue	2026-01-04 20:05:49 -06:00
Brett Williams	7b0d9a0b9f	Initial refactor of add_job_window	2026-01-04 19:42:47 -06:00
brett	d8af7c878e	Job submission code and API cleanup (#127 ) * Refactor add jobs and make add_job api only be one job (instead of a list) * Renamed to JobImportHandler and misc cleanup * Dont bury exceptions in server proxy post_job * Update code to create child jobs in a cleaner manner	2025-12-31 23:14:28 -06:00
brett	e335328530	Improve server shutdown (#126 ) * Cleaned up server shutdown process * Fix exception on shutdown in Windows	2025-12-30 17:46:53 -06:00
brett	f9b19587ba	Ignore aerender in pytests until ready (#125 ) * Ignore aerender in pytests until ready * Disable pytest step in GitHub Actions workflow	2025-12-28 15:00:01 -06:00
brett	4704806472	Settings Window (#124 ) * Initial commit for settings window * More WIP for the Settings panel * Added Local Files section to Settings * More WIP on Settings * Add ability to ignore system builds * Improvements to Launch and Delete buttons * Fix issue where icons were not loading * Network password settings WIP * Update label * Import and naming fixes * Speed improvements to launch * Update requirements.txt * Update Windows CPU name lookup * Add missing default values to a few settings * More settings fixes * Fix Windows Path issue * Added hard types for getting settings values * More UI cleanup * Correctly refresh Engines list after downloading new engine * Improve downloader with UI progress * More download improvements * Add Settings Button to Toolbar	2025-12-28 12:33:29 -06:00
brett	daf445ee9e	Rename renderers to engines (#123 ) * Bulk rename * Fix build issues	2025-12-27 18:53:09 -06:00
brett	574c6f0755	Job Submission CLI (#122 ) * Initial commit of job submission cli tool, with minor fixes in API code * Refactored and further decoupled server / client code * Clean up ServerProxy to not use hardcoded loopback addresses	2025-12-27 18:36:34 -06:00
brett	6bfa5629d5	GPU Reporting in UI (#120 ) * Add basic GPU info reporting to UI * Update GPU display to showcase multiple GPUs, if available * Add fallback for Windows for fetching GPU info * Improve Windows GPU lookup. Add GPUtil to requirements.txt * Clean up GPU and CPU naming in UI * Update Linux GPU fetching * Update misc_helper.py Fix getting GPU names on Linux * Update .gitignore	2025-12-18 17:47:30 -06:00
Brett Williams	05cd0470dd	Fix build issues using pyinstaller	2025-03-13 14:17:50 -05:00
Brett Williams	7827f73530	Show CPU brand in UI instead of arch. Resolves #110 .	2025-02-28 19:54:58 -06:00
brett	562cb23da3	Feature/112 api version (#119 ) * Add api_version to status api and server_proxy.py * Add api_version to Zeroconf and filter out incompatible versions when finding available servers * Filter incompatible versions from the UI	2025-02-28 19:39:32 -06:00
Brett Williams	6b68d42b93	Misc minor fixes	2025-02-28 18:50:44 -06:00
Brett Williams	cdf4b2bbe1	Update the README.md with an app screenshot	2025-02-28 18:43:40 -06:00
Brett Williams	dc8f4d3e2a	Use Fusion Qt style on non-Mac platforms	2025-02-28 18:40:59 -06:00
brett	2548280dcc	Add check for available software updates (#118 ) * Add feature to check github repo for available updates * Add Check for Updates to Help menu	2024-08-24 12:12:30 -05:00
Brett Williams	98ab837057	Fix issue where API server could fail to start	2024-08-24 03:00:57 -05:00
Brett Williams	3fda87935e	Only prevent launch if we find unrelated processes	2024-08-24 02:22:38 -05:00
Brett Williams	e35a5a689c	Make sure only one instance is running at a time	2024-08-24 01:35:50 -05:00
brett	dea7574888	Rename create_executables.yml to create-executables.yml	2024-08-23 19:52:41 -05:00
brett	a19db9fcf7	Fix issue with create_executables.yml	2024-08-23 19:51:56 -05:00
brett	80b0adb2ad	Create executables for all platforms, not just Windows	2024-08-23 19:46:35 -05:00
brett	18873cec6f	Only generate Windows binaries when releases are created	2024-08-23 19:37:34 -05:00
brett	af6d6e1525	Document all the things! (#117 ) Add lots of docstrings everywhere	2024-08-23 19:26:05 -05:00
brett	8bbf19cb30	Fix accidental readme rename	2024-08-23 19:17:03 -05:00
brett	6bdb488ce1	Add "Create Executable" GitHub action for Windows (#116 )	2024-08-23 18:36:14 -05:00
brett	e792698480	Merge pull request #114 * Better exception handling / error reporting for add job screen * Don't supress exceptions for potentially long running functions in bl… * Increase Blender pack_project_file timeout to 120s	2024-08-20 15:20:24 -05:00
Brett Williams	751d74ced3	Fix issue where Stop Job button would never show	2024-08-15 23:20:04 -05:00
brett	e8a4692e0f	Update README.md	2024-08-15 15:10:37 -05:00
brett	49ae5a55d9	Add About window and basic commands to MenuBar (#113 ) * Initial commit for about_window.py * Add some basic actions to the MenuBar * Fix keyboard shortcuts * Fix path to icon for Windows	2024-08-15 14:27:29 -05:00
Brett Williams	d04d14446b	Update main.spec to include version numbers on Windows	2024-08-15 11:41:36 -05:00
brett	81e79a1996	Prevent subprocesses from constantly opening windows on Windows (#109 ) * Add subprocess.CREATE_NO_WINDOW to blender_engine.py * Convert ffmpeg_engine.py to use CREATE_NO_WINDOW * Cleanup Blender implementation * Cleanup subprocesses in base_worker.py * Cleanup subprocesses in base_engine.py * Fix main.spec for Windows (optimize=2 broke it)	2024-08-13 22:16:03 -05:00
Brett Williams	d30978bef0	Update main.spec for Windows support	2024-08-13 18:02:40 -05:00
brett	e2333c4451	Fix processes not ending when stopped (#98 ) * Fix processes not ending when stopped * Fix error when removing a job * Better error handling * Refactored killprocess code and fixed windows support * Improved error handling * Add try to code that deletes project files * Wait for the thread to finish after killing the process * Don't try to stop process multiple times * Misc cleanup	2024-08-13 11:16:31 -05:00
brett	94a40c46dc	Add output file count validation (#97 ) * Worker file_list ignores hidden files * Add frame-count validation logic	2024-08-11 13:00:54 -05:00
Brett Williams	8104bd4e86	Add logic to download button in main window	2024-08-11 11:59:40 -05:00
Brett Williams	33adcac592	Code refactoring	2024-08-11 11:54:15 -05:00
Brett Williams	d38e10ae9f	Add tga, bmp, webp and webm to PreviewManager support	2024-08-10 21:23:06 -05:00
Brett Williams	19b01446ea	Make renderer_info threaded again	2024-08-10 21:20:47 -05:00
brett	e757506787	Parent creates local subjobs instead of truncating original (#95 ) * Parent worker now creates subjob on local host and waits for it * Improve wait_for_subjobs logic * Fix setting end_time for base_worker * API cleanup * Code refactoring * Cleanup	2024-08-10 21:19:01 -05:00
brett	f9b51886ab	Bugfix: Filter out corrupt engines by default (#94 ) * Add main.spec * Fix issue where fetching supported extensions would crash with no default installation * Engines return version as 'error' if cannot determine version * EngineManager will now filter out corrupted engine installs by default	2024-08-10 15:00:47 -05:00
brett	3b33649f2d	Pyinstaller support (#93 ) * Add main.spec * Fix issue where fetching supported extensions would crash with no default installation	2024-08-10 14:58:41 -05:00
brett	51a5a63944	Use pubsub messages instead of a background thread to process changes (#92 ) * Use pubsub messages instead of a background thread to process changes to the RenderQueue * Misc logging improvements	2024-08-08 23:01:26 -05:00
brett	3600eeb21b	Refactor: Move all initialization logic out of api_server and into init (#91 ) * Zeroconf logging improvements * Ignore RuntimeErrors in background threads - Prevents issues during shutdown * Migrate start up code from api_server.py to init.py * Add error handlers to the API server to handle detached instances * Integrate RenderQueue eval loop into RenderQueue object * Silently catch RuntimeErrors on evaluate_queue * Stop background queue updates in prepare_for_shutdown	2024-08-08 04:47:22 -05:00
brett	6afb6e65a6	Integrate watchdog into render worker (#88 ) * Add a watchdog to base_worker * Logging cleanup * Prevent multiple watchdogs from running if render process restarts * Add process timeout parameter to Config * Refactor * Add error handling to process output parsing * Fix issue where start_time was not getting set consistently	2024-08-06 10:48:24 -05:00
Brett Williams	90d5e9b7af	Misc logging cleanup	2024-08-05 10:57:56 -05:00
brett	4df41a2079	Download frames from subjobs as frames are completed (#87 ) * Add a frame complete notification to BaseWorker and distributed_job_manager.py * Add API to download individual files to API server and ServerProxy * Rename subjob notification API and add download_missing_frames_from_subjob * Subjobs will now notify parent when a frame is complete * Fix missed rename * Add some misc logging * Better error handling * Fix frame download file path issue * Download missing frames at job completion and misc cleanup * Misc cleanup * Code cleanup	2024-08-04 21:30:10 -05:00
brett	1cdb7810bf	New PreviewManager to handle generating previews asynchronously (#86 ) * Add PreviewManager * Refactoring and better error handling * Integrate PreviewManager into api_server.py * Integrate PreviewManager into distributed_job_manager.py * Add method to preview_manager.py to delete previews and integrate it into api_server * Misc logging improvements * Misc code cleanup * Replace existing preview on job completion - Minor code fixes	2024-08-04 16:45:46 -05:00
Brett Williams	21011e47ca	Fix issue where tests would never complete correctly	2024-08-04 11:48:36 -05:00
Brett Williams	86977b9d6d	Fix issue where custom job name was being ignored	2024-08-04 11:47:56 -05:00
		`@@ -0,0 +1,2 @@`
							`[pytest]`
							`norecursedirs = src/engines/aerender .git build dist *.egg venv .venv env .env __pycache__ .pytest_cache`