1219 lines
61 KiB
Python
1219 lines
61 KiB
Python
# gui/config_editor_dialog.py
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import json
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from PySide6.QtWidgets import (
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QDialog, QVBoxLayout, QHBoxLayout, QTabWidget, QWidget,
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QLineEdit, QSpinBox, QDoubleSpinBox, QComboBox, QCheckBox,
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QPushButton, QFileDialog, QLabel, QTableWidget,
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QTableWidgetItem, QDialogButtonBox, QMessageBox, QListWidget,
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QListWidgetItem, QFormLayout, QGroupBox, QStackedWidget,
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QHeaderView, QSizePolicy # Added QHeaderView and QSizePolicy
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)
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from PySide6.QtGui import QColor, QPainter
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from PySide6.QtCore import Qt, QEvent
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from PySide6.QtWidgets import QColorDialog, QStyledItemDelegate, QApplication
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# Assuming configuration.py is in the parent directory or accessible
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# Adjust import path if necessary
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try:
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from configuration import load_base_config, save_base_config
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except ImportError:
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# Fallback import for testing or different project structure
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from ..configuration import load_base_config, save_base_config
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# --- Custom Delegate for Color Editing ---
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class ColorDelegate(QStyledItemDelegate):
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def paint(self, painter: QPainter, option, index):
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# Get color string from model data (EditRole is where we store it)
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color_str = index.model().data(index, Qt.EditRole)
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if isinstance(color_str, str) and color_str.startswith('#'):
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color = QColor(color_str)
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if color.isValid():
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# Fill the background with the color
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painter.fillRect(option.rect, color)
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# Optionally draw text (e.g., the hex code) centered
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# painter.drawText(option.rect, Qt.AlignCenter, color_str)
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return # Prevent default painting
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# Fallback to default painting if no valid color
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super().paint(painter, option, index)
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def createEditor(self, parent, option, index):
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# No editor needed, handled by editorEvent
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return None
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def editorEvent(self, event, model, option, index):
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if event.type() == QEvent.MouseButtonPress and event.button() == Qt.LeftButton:
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current_color_str = model.data(index, Qt.EditRole)
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initial_color = QColor(current_color_str) if isinstance(current_color_str, str) else Qt.white
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color = QColorDialog.getColor(initial_color, None, "Select Color")
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if color.isValid():
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new_color_str = color.name() # Get #RRGGBB format
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model.setData(index, new_color_str, Qt.EditRole)
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# Trigger update for the background role as well, although paint should handle it
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# model.setData(index, QColor(new_color_str), Qt.BackgroundRole)
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return True # Event handled
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return False # Event not handled
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def setModelData(self, editor, model, index):
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# Not strictly needed as setData is called in editorEvent
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pass
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class ConfigEditorDialog(QDialog):
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def __init__(self, parent=None):
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super().__init__(parent)
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self.setWindowTitle("Configuration Editor")
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self.setGeometry(100, 100, 800, 600)
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self.settings = {}
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self.widgets = {} # Dictionary to hold references to created widgets
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self.main_layout = QVBoxLayout(self)
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self.tab_widget = QTabWidget()
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self.main_layout.addWidget(self.tab_widget)
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self.button_box = QDialogButtonBox(QDialogButtonBox.Save | QDialogButtonBox.Cancel)
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self.button_box.accepted.connect(self.save_settings)
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self.button_box.rejected.connect(self.reject)
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self.main_layout.addWidget(self.button_box)
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self.load_settings() # Load settings FIRST
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self.create_tabs() # THEN create widgets based on settings
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self.populate_widgets_from_settings() # Populate widgets after creation
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def load_settings(self):
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"""Loads settings from the configuration file."""
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try:
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self.settings = load_base_config()
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print("Configuration loaded successfully.") # Debug print
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except Exception as e:
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QMessageBox.critical(self, "Loading Error", f"Failed to load configuration: {e}")
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self.settings = {} # Use empty settings on failure
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# Optionally disable save button or widgets if loading fails
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self.button_box.button(QDialogButtonBox.Save).setEnabled(False)
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def create_tabs(self):
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"""Creates tabs based on the redesigned UI plan."""
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if not self.settings:
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return
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# --- Create Tabs ---
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self.tabs = {
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"general": QWidget(),
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"output_naming": QWidget(),
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"image_processing": QWidget(),
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"definitions": QWidget(),
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"map_merging": QWidget(),
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"postprocess_scripts": QWidget()
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}
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self.tab_widget.addTab(self.tabs["general"], "General")
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self.tab_widget.addTab(self.tabs["output_naming"], "Output & Naming")
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self.tab_widget.addTab(self.tabs["image_processing"], "Image Processing")
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self.tab_widget.addTab(self.tabs["definitions"], "Definitions")
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self.tab_widget.addTab(self.tabs["map_merging"], "Map Merging")
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self.tab_widget.addTab(self.tabs["postprocess_scripts"], "Postprocess Scripts")
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# --- Setup Layouts for Tabs ---
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self.tab_layouts = {name: QVBoxLayout(tab) for name, tab in self.tabs.items()}
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# --- Populate Tabs ---
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self.populate_general_tab(self.tab_layouts["general"])
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self.populate_output_naming_tab(self.tab_layouts["output_naming"])
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self.populate_image_processing_tab(self.tab_layouts["image_processing"])
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self.populate_definitions_tab(self.tab_layouts["definitions"])
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self.populate_map_merging_tab(self.tab_layouts["map_merging"])
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self.populate_postprocess_scripts_tab(self.tab_layouts["postprocess_scripts"])
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def create_widget_for_setting(self, parent_layout, key, value, setting_key_prefix=""):
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"""Creates an appropriate widget for a single setting key-value pair."""
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full_key = f"{setting_key_prefix}{key}" if setting_key_prefix else key
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label_text = key.replace('_', ' ').title()
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label = QLabel(label_text + ":")
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widget = None
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layout_to_add = None # Use this for widgets needing extra controls (like browse button)
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if isinstance(value, str):
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widget = QLineEdit(value)
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elif isinstance(value, int):
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widget = QSpinBox()
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widget.setRange(-2147483648, 2147483647)
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widget.setValue(value)
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elif isinstance(value, float):
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widget = QDoubleSpinBox()
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widget.setRange(-1.7976931348623157e+308, 1.7976931348623157e+308)
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widget.setValue(value)
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elif isinstance(value, bool):
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widget = QCheckBox()
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widget.setChecked(value)
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elif isinstance(value, list): # Handle simple lists as comma-separated strings
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widget = QLineEdit(", ".join(map(str, value)))
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# Complex dicts/lists like ASSET_TYPE_DEFINITIONS, MAP_MERGE_RULES etc. are handled in dedicated methods
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if widget:
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parent_layout.addRow(label, widget)
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self.widgets[full_key] = widget
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else:
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# Optionally handle unsupported types or log a warning
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# print(f"Skipping widget creation for key '{full_key}' with unsupported type: {type(value)}")
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pass
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def populate_general_tab(self, layout):
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"""Populates the General tab according to the plan."""
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# Clear existing widgets in the layout first
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while layout.count():
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item = layout.takeAt(0)
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widget = item.widget()
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if widget:
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widget.deleteLater()
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sub_layout = item.layout()
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if sub_layout:
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# Basic clearing for sub-layouts like QHBoxLayout used below
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while sub_layout.count():
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sub_item = sub_layout.takeAt(0)
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sub_widget = sub_item.widget()
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if sub_widget:
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sub_widget.deleteLater()
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# Clear any potentially lingering widget references for this tab
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self.widgets.pop("OUTPUT_BASE_DIR", None)
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self.widgets.pop("EXTRA_FILES_SUBDIR", None)
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self.widgets.pop("METADATA_FILENAME", None)
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form_layout = QFormLayout()
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# 1. OUTPUT_BASE_DIR: QLineEdit + QPushButton
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output_dir_label = QLabel("Output Base Directory:")
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output_dir_edit = QLineEdit()
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output_dir_button = QPushButton("Browse...")
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# Ensure lambda captures the correct widget reference
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output_dir_button.clicked.connect(
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lambda checked=False, w=output_dir_edit: self.browse_path(w, "OUTPUT_BASE_DIR", is_dir=True)
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)
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output_dir_layout = QHBoxLayout()
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output_dir_layout.addWidget(output_dir_edit)
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output_dir_layout.addWidget(output_dir_button)
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form_layout.addRow(output_dir_label, output_dir_layout)
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self.widgets["OUTPUT_BASE_DIR"] = output_dir_edit # Store reference
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# 2. EXTRA_FILES_SUBDIR: QLineEdit
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extra_subdir_label = QLabel("Subdirectory for Extra Files:")
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extra_subdir_edit = QLineEdit()
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form_layout.addRow(extra_subdir_label, extra_subdir_edit)
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self.widgets["EXTRA_FILES_SUBDIR"] = extra_subdir_edit # Store reference
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# 3. METADATA_FILENAME: QLineEdit
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metadata_label = QLabel("Metadata Filename:")
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metadata_edit = QLineEdit()
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form_layout.addRow(metadata_label, metadata_edit)
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self.widgets["METADATA_FILENAME"] = metadata_edit # Store reference
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layout.addLayout(form_layout)
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layout.addStretch() # Keep stretch at the end
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def populate_output_naming_tab(self, layout):
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"""Populates the Output & Naming tab according to the plan."""
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# Clear existing widgets in the layout first
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while layout.count():
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item = layout.takeAt(0)
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widget = item.widget()
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if widget:
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widget.deleteLater()
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sub_layout = item.layout()
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if sub_layout:
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# Basic clearing for sub-layouts
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while sub_layout.count():
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sub_item = sub_layout.takeAt(0)
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sub_widget = sub_item.widget()
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if sub_widget:
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sub_widget.deleteLater()
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sub_sub_layout = sub_item.layout()
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if sub_sub_layout: # Clear nested layouts (like the button HBox)
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while sub_sub_layout.count():
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ss_item = sub_sub_layout.takeAt(0)
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ss_widget = ss_item.widget()
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if ss_widget:
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ss_widget.deleteLater()
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# Clear potentially lingering widget references for this tab
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self.widgets.pop("TARGET_FILENAME_PATTERN", None)
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self.widgets.pop("STANDARD_MAP_TYPES_LIST", None)
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self.widgets.pop("RESPECT_VARIANT_MAP_TYPES", None)
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self.widgets.pop("ASPECT_RATIO_DECIMALS", None)
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# Main layout for this tab
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main_tab_layout = QVBoxLayout()
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# Form layout for simple input fields
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form_layout = QFormLayout()
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# 1. TARGET_FILENAME_PATTERN: QLineEdit
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target_filename_label = QLabel("Output Filename Pattern:")
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target_filename_edit = QLineEdit()
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target_filename_edit.setToolTip(
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"Define the output filename structure.\n"
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"Placeholders: {asset_name}, {map_type}, {resolution}, {variant}, {udim}"
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)
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form_layout.addRow(target_filename_label, target_filename_edit)
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self.widgets["TARGET_FILENAME_PATTERN"] = target_filename_edit
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# 2. RESPECT_VARIANT_MAP_TYPES: QLineEdit
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respect_variant_label = QLabel("Map Types Respecting Variants (comma-separated):")
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respect_variant_edit = QLineEdit()
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form_layout.addRow(respect_variant_label, respect_variant_edit)
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self.widgets["RESPECT_VARIANT_MAP_TYPES"] = respect_variant_edit
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# 3. ASPECT_RATIO_DECIMALS: QSpinBox
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aspect_ratio_label = QLabel("Aspect Ratio Precision (Decimals):")
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aspect_ratio_spinbox = QSpinBox()
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aspect_ratio_spinbox.setRange(0, 6) # Min: 0, Max: ~6
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form_layout.addRow(aspect_ratio_label, aspect_ratio_spinbox)
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self.widgets["ASPECT_RATIO_DECIMALS"] = aspect_ratio_spinbox
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main_tab_layout.addLayout(form_layout)
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# 4. STANDARD_MAP_TYPES: QListWidget + Add/Remove Buttons
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standard_maps_layout = QVBoxLayout()
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standard_maps_label = QLabel("Standard Map Types:")
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standard_maps_layout.addWidget(standard_maps_label)
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standard_maps_button_layout = QHBoxLayout()
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add_button = QPushButton("Add")
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remove_button = QPushButton("Remove")
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# TODO: Connect add/remove buttons signals
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standard_maps_button_layout.addWidget(add_button)
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standard_maps_button_layout.addWidget(remove_button)
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standard_maps_button_layout.addStretch() # Push buttons left
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standard_maps_layout.addLayout(standard_maps_button_layout)
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main_tab_layout.addLayout(standard_maps_layout)
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# Add the main layout to the tab's provided layout
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layout.addLayout(main_tab_layout)
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layout.addStretch() # Keep stretch at the end of the tab's main layout
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def populate_image_processing_tab(self, layout):
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"""Populates the Image Processing tab according to the plan."""
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# Clear existing widgets in the layout first
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while layout.count():
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item = layout.takeAt(0)
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widget = item.widget()
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if widget:
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widget.deleteLater()
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sub_layout = item.layout()
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if sub_layout:
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# Basic clearing for sub-layouts
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while sub_layout.count():
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sub_item = sub_layout.takeAt(0)
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sub_widget = sub_item.widget()
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if sub_widget:
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sub_widget.deleteLater()
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sub_sub_layout = sub_item.layout()
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if sub_sub_layout: # Clear nested layouts (like button HBox)
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while sub_sub_layout.count():
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ss_item = sub_sub_layout.takeAt(0)
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ss_widget = ss_item.widget()
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if ss_widget:
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ss_widget.deleteLater()
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# Clear potentially lingering widget references for this tab
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keys_to_clear = [
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"IMAGE_RESOLUTIONS_TABLE", "CALCULATE_STATS_RESOLUTION",
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"PNG_COMPRESSION_LEVEL", "JPG_QUALITY",
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"RESOLUTION_THRESHOLD_FOR_JPG", "OUTPUT_FORMAT_8BIT",
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"OUTPUT_FORMAT_16BIT_PRIMARY", "OUTPUT_FORMAT_16BIT_FALLBACK"
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]
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for key in keys_to_clear:
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self.widgets.pop(key, None)
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# Main layout for this tab
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main_tab_layout = QVBoxLayout()
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# --- IMAGE_RESOLUTIONS Section ---
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resolutions_layout = QVBoxLayout()
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resolutions_label = QLabel("Defined Image Resolutions")
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resolutions_layout.addWidget(resolutions_label)
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resolutions_table = QTableWidget()
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resolutions_table.setColumnCount(2)
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resolutions_table.setHorizontalHeaderLabels(["Name", "Resolution (px)"])
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resolutions_table.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding) # Allow table to expand vertically
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resolutions_table.horizontalHeader().setSectionResizeMode(0, QHeaderView.Stretch) # Stretch Name column
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resolutions_table.horizontalHeader().setSectionResizeMode(1, QHeaderView.ResizeToContents) # Resize Resolution column to contents
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# TODO: Implement custom delegate for "Resolution (px)" column
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# TODO: Connect add/remove buttons signals
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resolutions_layout.addWidget(resolutions_table)
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self.widgets["IMAGE_RESOLUTIONS_TABLE"] = resolutions_table # Store table reference
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resolutions_button_layout = QHBoxLayout()
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add_res_button = QPushButton("Add Row")
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remove_res_button = QPushButton("Remove Row")
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resolutions_button_layout.addWidget(add_res_button)
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resolutions_button_layout.addWidget(remove_res_button)
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resolutions_button_layout.addStretch() # Push buttons left
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resolutions_layout.addLayout(resolutions_button_layout)
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main_tab_layout.addLayout(resolutions_layout)
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# --- Form Layout for other settings ---
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form_layout = QFormLayout()
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# CALCULATE_STATS_RESOLUTION: QComboBox
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stats_res_label = QLabel("Resolution for Stats Calculation:")
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stats_res_combo = QComboBox()
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# Population deferred - will be populated from IMAGE_RESOLUTIONS_TABLE
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form_layout.addRow(stats_res_label, stats_res_combo)
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self.widgets["CALCULATE_STATS_RESOLUTION"] = stats_res_combo
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# PNG_COMPRESSION_LEVEL: QSpinBox
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png_level_label = QLabel("PNG Compression Level:")
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png_level_spinbox = QSpinBox()
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png_level_spinbox.setRange(0, 9)
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form_layout.addRow(png_level_label, png_level_spinbox)
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self.widgets["PNG_COMPRESSION_LEVEL"] = png_level_spinbox
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# JPG_QUALITY: QSpinBox
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jpg_quality_label = QLabel("JPG Quality:")
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jpg_quality_spinbox = QSpinBox()
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jpg_quality_spinbox.setRange(1, 100)
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form_layout.addRow(jpg_quality_label, jpg_quality_spinbox)
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self.widgets["JPG_QUALITY"] = jpg_quality_spinbox
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# RESOLUTION_THRESHOLD_FOR_JPG: QComboBox
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jpg_threshold_label = QLabel("Use JPG Above Resolution:")
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jpg_threshold_combo = QComboBox()
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# Population deferred - will be populated from IMAGE_RESOLUTIONS_TABLE + "Never"/"Always"
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form_layout.addRow(jpg_threshold_label, jpg_threshold_combo)
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self.widgets["RESOLUTION_THRESHOLD_FOR_JPG"] = jpg_threshold_combo
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# OUTPUT_FORMAT_8BIT: QComboBox
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format_8bit_label = QLabel("Output Format (8-bit):")
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format_8bit_combo = QComboBox()
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format_8bit_combo.addItems(["png", "jpg"])
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form_layout.addRow(format_8bit_label, format_8bit_combo)
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self.widgets["OUTPUT_FORMAT_8BIT"] = format_8bit_combo
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# OUTPUT_FORMAT_16BIT_PRIMARY: QComboBox
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format_16bit_primary_label = QLabel("Primary Output Format (16-bit+):")
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format_16bit_primary_combo = QComboBox()
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format_16bit_primary_combo.addItems(["png", "exr", "tif"])
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form_layout.addRow(format_16bit_primary_label, format_16bit_primary_combo)
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self.widgets["OUTPUT_FORMAT_16BIT_PRIMARY"] = format_16bit_primary_combo
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# OUTPUT_FORMAT_16BIT_FALLBACK: QComboBox
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format_16bit_fallback_label = QLabel("Fallback Output Format (16-bit+):")
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format_16bit_fallback_combo = QComboBox()
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format_16bit_fallback_combo.addItems(["png", "exr", "tif"])
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form_layout.addRow(format_16bit_fallback_label, format_16bit_fallback_combo)
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self.widgets["OUTPUT_FORMAT_16BIT_FALLBACK"] = format_16bit_fallback_combo
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main_tab_layout.addLayout(form_layout)
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# Add the main layout to the tab's provided layout
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layout.addLayout(main_tab_layout)
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layout.addStretch() # Keep stretch at the end of the tab's main layout
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def populate_definitions_tab(self, layout):
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"""Populates the Definitions tab according to the plan."""
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# Clear existing widgets in the layout first
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while layout.count():
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item = layout.takeAt(0)
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widget = item.widget()
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if widget:
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widget.deleteLater()
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sub_layout = item.layout()
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if sub_layout:
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# Recursively clear sub-layouts
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while sub_layout.count():
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sub_item = sub_layout.takeAt(0)
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sub_widget = sub_item.widget()
|
|
if sub_widget:
|
|
sub_widget.deleteLater()
|
|
sub_sub_layout = sub_item.layout()
|
|
if sub_sub_layout:
|
|
# Clear nested layouts (like button HBox or inner tabs)
|
|
while sub_sub_layout.count():
|
|
ss_item = sub_sub_layout.takeAt(0)
|
|
ss_widget = ss_item.widget()
|
|
if ss_widget:
|
|
ss_widget.deleteLater()
|
|
# Add more levels if necessary, but this covers the planned structure
|
|
|
|
# Clear potentially lingering widget references for this tab
|
|
self.widgets.pop("DEFAULT_ASSET_CATEGORY", None)
|
|
self.widgets.pop("ASSET_TYPE_DEFINITIONS_TABLE", None)
|
|
self.widgets.pop("FILE_TYPE_DEFINITIONS_TABLE", None)
|
|
# Remove references to widgets no longer used in this tab's structure
|
|
self.widgets.pop("MAP_BIT_DEPTH_RULES_TABLE", None)
|
|
|
|
|
|
# Overall QVBoxLayout for the "Definitions" tab
|
|
overall_layout = QVBoxLayout()
|
|
|
|
# --- Top Widget: DEFAULT_ASSET_CATEGORY ---
|
|
default_category_layout = QHBoxLayout() # Use QHBox for label + combo
|
|
default_category_label = QLabel("Default Asset Category:")
|
|
default_category_combo = QComboBox()
|
|
# Population is deferred, will happen in populate_widgets_from_settings
|
|
default_category_layout.addWidget(default_category_label)
|
|
default_category_layout.addWidget(default_category_combo)
|
|
default_category_layout.addStretch() # Push label/combo left
|
|
overall_layout.addLayout(default_category_layout)
|
|
self.widgets["DEFAULT_ASSET_CATEGORY"] = default_category_combo
|
|
|
|
# --- Bottom Widget: Inner QTabWidget ---
|
|
inner_tab_widget = QTabWidget()
|
|
inner_tab_widget.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding) # Allow inner tabs to expand
|
|
overall_layout.addWidget(inner_tab_widget)
|
|
|
|
# --- Inner Tab 1: Asset Types ---
|
|
asset_types_tab = QWidget()
|
|
asset_types_layout = QVBoxLayout(asset_types_tab)
|
|
inner_tab_widget.addTab(asset_types_tab, "Asset Types")
|
|
|
|
# Asset Types Table
|
|
asset_types_table = QTableWidget()
|
|
asset_types_table.setColumnCount(4)
|
|
asset_types_table.setHorizontalHeaderLabels(["Type Name", "Description", "Color", "Examples (comma-sep.)"])
|
|
asset_types_table.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding) # Allow table to expand
|
|
# Set column resize modes
|
|
header = asset_types_table.horizontalHeader()
|
|
header.setSectionResizeMode(0, QHeaderView.ResizeToContents) # Type Name
|
|
header.setSectionResizeMode(1, QHeaderView.Stretch) # Description - Stretch
|
|
header.setSectionResizeMode(2, QHeaderView.ResizeToContents) # Color
|
|
header.setSectionResizeMode(3, QHeaderView.Stretch) # Examples - Stretch
|
|
|
|
# Apply Color Delegate
|
|
color_delegate = ColorDelegate(self)
|
|
asset_types_table.setItemDelegateForColumn(2, color_delegate) # Column 2 is "Color"
|
|
|
|
# TODO: Implement custom delegate for "Examples" later
|
|
asset_types_layout.addWidget(asset_types_table)
|
|
self.widgets["ASSET_TYPE_DEFINITIONS_TABLE"] = asset_types_table
|
|
|
|
# Asset Types Add/Remove Buttons
|
|
asset_types_button_layout = QHBoxLayout()
|
|
add_asset_type_button = QPushButton("Add Row")
|
|
remove_asset_type_button = QPushButton("Remove Row")
|
|
# TODO: Connect button signals later
|
|
asset_types_button_layout.addWidget(add_asset_type_button)
|
|
asset_types_button_layout.addWidget(remove_asset_type_button)
|
|
asset_types_button_layout.addStretch()
|
|
asset_types_layout.addLayout(asset_types_button_layout)
|
|
|
|
# --- Inner Tab 2: File Types ---
|
|
file_types_tab = QWidget()
|
|
file_types_layout = QVBoxLayout(file_types_tab)
|
|
inner_tab_widget.addTab(file_types_tab, "File Types")
|
|
|
|
# File Types Table
|
|
file_types_table = QTableWidget()
|
|
file_types_table.setColumnCount(6)
|
|
file_types_table.setHorizontalHeaderLabels(["Type ID", "Description", "Color", "Examples (comma-sep.)", "Standard Type", "Bit Depth Rule"])
|
|
file_types_table.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding) # Allow table to expand
|
|
# Set column resize modes
|
|
header = file_types_table.horizontalHeader()
|
|
header.setSectionResizeMode(0, QHeaderView.ResizeToContents) # Type ID
|
|
header.setSectionResizeMode(1, QHeaderView.Stretch) # Description - Stretch
|
|
header.setSectionResizeMode(2, QHeaderView.ResizeToContents) # Color
|
|
header.setSectionResizeMode(3, QHeaderView.Stretch) # Examples - Stretch
|
|
header.setSectionResizeMode(4, QHeaderView.ResizeToContents) # Standard Type
|
|
header.setSectionResizeMode(5, QHeaderView.ResizeToContents) # Bit Depth Rule
|
|
|
|
# Apply Color Delegate (reuse instance or create new)
|
|
# color_delegate = ColorDelegate(self) # Reuse if appropriate
|
|
file_types_table.setItemDelegateForColumn(2, color_delegate) # Column 2 is "Color"
|
|
|
|
# TODO: Implement custom delegates for "Examples", "Standard Type", "Bit Depth Rule" later
|
|
file_types_layout.addWidget(file_types_table)
|
|
self.widgets["FILE_TYPE_DEFINITIONS_TABLE"] = file_types_table
|
|
|
|
# File Types Add/Remove Buttons
|
|
file_types_button_layout = QHBoxLayout()
|
|
add_file_type_button = QPushButton("Add Row")
|
|
remove_file_type_button = QPushButton("Remove Row")
|
|
# TODO: Connect button signals later
|
|
file_types_button_layout.addWidget(add_file_type_button)
|
|
file_types_button_layout.addWidget(remove_file_type_button)
|
|
file_types_button_layout.addStretch()
|
|
file_types_layout.addLayout(file_types_button_layout)
|
|
|
|
# Add the overall layout to the main tab layout provided
|
|
layout.addLayout(overall_layout)
|
|
layout.addStretch() # Keep stretch at the end of the tab's main layout
|
|
|
|
|
|
def populate_map_merging_tab(self, layout):
|
|
"""Populates the Map Merging tab according to the plan."""
|
|
# Clear existing widgets in the layout first
|
|
while layout.count():
|
|
item = layout.takeAt(0)
|
|
widget = item.widget()
|
|
if widget:
|
|
widget.deleteLater()
|
|
sub_layout = item.layout()
|
|
if sub_layout:
|
|
# Basic clearing for sub-layouts
|
|
while sub_layout.count():
|
|
sub_item = sub_layout.takeAt(0)
|
|
sub_widget = sub_item.widget()
|
|
if sub_widget:
|
|
sub_widget.deleteLater()
|
|
# Clear nested layouts if needed (e.g., button layout)
|
|
sub_sub_layout = sub_item.layout()
|
|
if sub_sub_layout:
|
|
while sub_sub_layout.count():
|
|
ss_item = sub_sub_layout.takeAt(0)
|
|
ss_widget = ss_item.widget()
|
|
if ss_widget:
|
|
ss_widget.deleteLater()
|
|
|
|
# Clear potentially lingering widget references for this tab
|
|
self.widgets.pop("MAP_MERGE_RULES_DATA", None)
|
|
# Clear references to the list and details group if they exist
|
|
if hasattr(self, 'merge_rules_list'):
|
|
del self.merge_rules_list
|
|
if hasattr(self, 'merge_rule_details_group'):
|
|
del self.merge_rule_details_group
|
|
if hasattr(self, 'merge_rule_details_layout'):
|
|
del self.merge_rule_details_layout
|
|
if hasattr(self, 'merge_rule_widgets'):
|
|
del self.merge_rule_widgets
|
|
|
|
|
|
# Layout: QHBoxLayout.
|
|
h_layout = QHBoxLayout()
|
|
layout.addLayout(h_layout)
|
|
|
|
# Left Side: QListWidget displaying output_map_type for each rule.
|
|
left_layout = QVBoxLayout()
|
|
left_layout.addWidget(QLabel("Merge Rules:"))
|
|
self.merge_rules_list = QListWidget()
|
|
self.merge_rules_list.setSizePolicy(QSizePolicy.Preferred, QSizePolicy.Expanding) # Allow list to expand vertically
|
|
self.merge_rules_list.currentItemChanged.connect(self.display_merge_rule_details)
|
|
left_layout.addWidget(self.merge_rules_list)
|
|
|
|
button_layout = QHBoxLayout()
|
|
add_button = QPushButton("Add Rule")
|
|
remove_button = QPushButton("Remove Rule")
|
|
# TODO: Connect add/remove buttons
|
|
button_layout.addWidget(add_button)
|
|
button_layout.addWidget(remove_button)
|
|
left_layout.addLayout(button_layout)
|
|
|
|
h_layout.addLayout(left_layout, 1) # Give list more space
|
|
|
|
# Right Side: QStackedWidget or dynamically populated QWidget showing details
|
|
self.merge_rule_details_group = QGroupBox("Rule Details")
|
|
self.merge_rule_details_group.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Preferred) # Allow groupbox to expand horizontally
|
|
self.merge_rule_details_layout = QFormLayout(self.merge_rule_details_group)
|
|
h_layout.addWidget(self.merge_rule_details_group, 2) # Give details form more space
|
|
|
|
self.merge_rule_widgets = {} # Widgets for the currently displayed rule
|
|
|
|
if "MAP_MERGE_RULES" in self.settings:
|
|
self.populate_merge_rules_list(self.settings["MAP_MERGE_RULES"])
|
|
self.widgets["MAP_MERGE_RULES_DATA"] = self.settings["MAP_MERGE_RULES"] # Store original data reference
|
|
|
|
layout.addStretch()
|
|
|
|
|
|
def populate_postprocess_scripts_tab(self, layout):
|
|
"""Populates the Postprocess Scripts tab according to the plan."""
|
|
# Clear existing widgets in the layout first
|
|
while layout.count():
|
|
item = layout.takeAt(0)
|
|
widget = item.widget()
|
|
if widget:
|
|
widget.deleteLater()
|
|
sub_layout = item.layout()
|
|
if sub_layout:
|
|
# Basic clearing for sub-layouts (like the QHBoxLayouts used below)
|
|
while sub_layout.count():
|
|
sub_item = sub_layout.takeAt(0)
|
|
sub_widget = sub_item.widget()
|
|
if sub_widget:
|
|
sub_widget.deleteLater()
|
|
|
|
# Clear potentially lingering widget references for this tab
|
|
self.widgets.pop("DEFAULT_NODEGROUP_BLEND_PATH", None)
|
|
self.widgets.pop("DEFAULT_MATERIALS_BLEND_PATH", None)
|
|
self.widgets.pop("BLENDER_EXECUTABLE_PATH", None)
|
|
|
|
form_layout = QFormLayout()
|
|
|
|
# 1. DEFAULT_NODEGROUP_BLEND_PATH: QLineEdit + QPushButton
|
|
nodegroup_label = QLabel("Default Node Group Library (.blend):")
|
|
nodegroup_widget = QLineEdit()
|
|
nodegroup_button = QPushButton("Browse...")
|
|
nodegroup_button.clicked.connect(
|
|
lambda checked=False, w=nodegroup_widget: self.browse_path(w, "DEFAULT_NODEGROUP_BLEND_PATH")
|
|
)
|
|
nodegroup_layout = QHBoxLayout()
|
|
nodegroup_layout.addWidget(nodegroup_widget)
|
|
nodegroup_layout.addWidget(nodegroup_button)
|
|
form_layout.addRow(nodegroup_label, nodegroup_layout)
|
|
self.widgets["DEFAULT_NODEGROUP_BLEND_PATH"] = nodegroup_widget # Store reference
|
|
|
|
# 2. DEFAULT_MATERIALS_BLEND_PATH: QLineEdit + QPushButton
|
|
materials_label = QLabel("Default Materials Library (.blend):")
|
|
materials_widget = QLineEdit()
|
|
materials_button = QPushButton("Browse...")
|
|
materials_button.clicked.connect(
|
|
lambda checked=False, w=materials_widget: self.browse_path(w, "DEFAULT_MATERIALS_BLEND_PATH")
|
|
)
|
|
materials_layout = QHBoxLayout()
|
|
materials_layout.addWidget(materials_widget)
|
|
materials_layout.addWidget(materials_button)
|
|
form_layout.addRow(materials_label, materials_layout)
|
|
self.widgets["DEFAULT_MATERIALS_BLEND_PATH"] = materials_widget # Store reference
|
|
|
|
# 3. BLENDER_EXECUTABLE_PATH: QLineEdit + QPushButton
|
|
blender_label = QLabel("Blender Executable Path:")
|
|
blender_widget = QLineEdit()
|
|
blender_button = QPushButton("Browse...")
|
|
blender_button.clicked.connect(
|
|
lambda checked=False, w=blender_widget: self.browse_path(w, "BLENDER_EXECUTABLE_PATH")
|
|
)
|
|
blender_layout = QHBoxLayout()
|
|
blender_layout.addWidget(blender_widget)
|
|
blender_layout.addWidget(blender_button)
|
|
form_layout.addRow(blender_label, blender_layout)
|
|
self.widgets["BLENDER_EXECUTABLE_PATH"] = blender_widget # Store reference
|
|
|
|
layout.addLayout(form_layout)
|
|
layout.addStretch()
|
|
|
|
def create_asset_definitions_table_widget(self, layout, definitions_data):
|
|
"""Creates a QTableWidget for editing asset type definitions."""
|
|
table = QTableWidget()
|
|
# Columns: "Type Name", "Description", "Color", "Examples (comma-sep.)"
|
|
table.setColumnCount(4)
|
|
table.setHorizontalHeaderLabels(["Type Name", "Description", "Color", "Examples (comma-sep.)"])
|
|
# Row count will be set when populating
|
|
|
|
# TODO: Implement "Add Row" and "Remove Row" buttons
|
|
# TODO: Implement custom delegate for "Color" column (QPushButton)
|
|
# TODO: Implement custom delegate for "Examples" column (QLineEdit)
|
|
|
|
layout.addWidget(table)
|
|
self.widgets["ASSET_TYPE_DEFINITIONS_TABLE"] = table # Store table reference
|
|
|
|
def create_file_type_definitions_table_widget(self, layout, definitions_data):
|
|
"""Creates a QTableWidget for editing file type definitions."""
|
|
table = QTableWidget()
|
|
# Columns: "Type ID", "Description", "Color", "Examples (comma-sep.)", "Standard Type", "Bit Depth Rule"
|
|
table.setColumnCount(6)
|
|
table.setHorizontalHeaderLabels(["Type ID", "Description", "Color", "Examples (comma-sep.)", "Standard Type", "Bit Depth Rule"])
|
|
# Row count will be set when populating
|
|
|
|
# TODO: Implement "Add Row" and "Remove Row" buttons
|
|
# TODO: Implement custom delegate for "Color" column (QPushButton)
|
|
# TODO: Implement custom delegate for "Examples" column (QLineEdit)
|
|
# TODO: Implement custom delegate for "Standard Type" column (QComboBox)
|
|
# TODO: Implement custom delegate for "Bit Depth Rule" column (QComboBox)
|
|
|
|
layout.addWidget(table)
|
|
self.widgets["FILE_TYPE_DEFINITIONS_TABLE"] = table # Store table reference
|
|
|
|
def create_image_resolutions_table_widget(self, layout, resolutions_data):
|
|
"""Creates a QTableWidget for editing image resolutions."""
|
|
table = QTableWidget()
|
|
# Columns: "Name", "Resolution (px)"
|
|
table.setColumnCount(2)
|
|
table.setHorizontalHeaderLabels(["Name", "Resolution (px)"])
|
|
# Row count will be set when populating
|
|
|
|
# TODO: Implement "Add Row" and "Remove Row" buttons
|
|
# TODO: Implement custom delegate for "Resolution (px)" column (e.g., QLineEdit with validation or two SpinBoxes)
|
|
|
|
layout.addWidget(table)
|
|
self.widgets["IMAGE_RESOLUTIONS_TABLE"] = table # Store table reference
|
|
|
|
def create_map_bit_depth_rules_table_widget(self, layout, rules_data: dict):
|
|
"""Creates a QTableWidget for editing map bit depth rules (Map Type -> Rule)."""
|
|
table = QTableWidget()
|
|
# Columns: "Map Type", "Rule (respect/force_8bit)"
|
|
table.setColumnCount(2)
|
|
table.setHorizontalHeaderLabels(["Map Type", "Rule (respect/force_8bit)"])
|
|
# Row count will be set when populating
|
|
|
|
# TODO: Implement "Add Row" and "Remove Row" buttons
|
|
# TODO: Implement custom delegate for "Rule" column (QComboBox)
|
|
|
|
layout.addWidget(table)
|
|
self.widgets["MAP_BIT_DEPTH_RULES_TABLE"] = table # Store table reference
|
|
|
|
|
|
def create_map_merge_rules_widget(self, layout, rules_data):
|
|
"""Creates the Map Merging UI (ListWidget + Details Form) according to the plan."""
|
|
# This method is called by populate_map_merging_tab and sets up the QHBoxLayout,
|
|
# ListWidget, and details group box. The details population is handled by
|
|
# display_merge_rule_details.
|
|
pass # Structure is already set up in populate_map_merging_tab
|
|
|
|
def populate_merge_rules_list(self, rules_data):
|
|
"""Populates the list widget with map merge rules."""
|
|
self.merge_rules_list.clear()
|
|
for rule in rules_data:
|
|
# Use output_map_type for the display text
|
|
item_text = rule.get("output_map_type", "Unnamed Rule")
|
|
item = QListWidgetItem(item_text)
|
|
item.setData(Qt.UserRole, rule) # Store the rule dictionary in the item
|
|
self.merge_rules_list.addItem(item)
|
|
|
|
def display_merge_rule_details(self, current, previous):
|
|
"""Displays details of the selected merge rule according to the plan."""
|
|
# Clear previous widgets
|
|
for i in reversed(range(self.merge_rule_details_layout.count())):
|
|
widget_item = self.merge_rule_details_layout.itemAt(i)
|
|
if widget_item:
|
|
widget = widget_item.widget()
|
|
if widget:
|
|
widget.deleteLater()
|
|
layout = widget_item.layout()
|
|
if layout:
|
|
# Recursively delete widgets in layout
|
|
while layout.count():
|
|
item = layout.takeAt(0)
|
|
widget = item.widget()
|
|
if widget:
|
|
widget.deleteLater()
|
|
elif item.layout():
|
|
# Handle nested layouts if necessary
|
|
pass # For simplicity, assuming no deeply nested layouts here
|
|
|
|
self.merge_rule_widgets.clear()
|
|
|
|
if current:
|
|
rule_data = current.data(Qt.UserRole)
|
|
if rule_data:
|
|
# Rule Detail Form:
|
|
# output_map_type: QLineEdit. Label: "Output Map Type Name".
|
|
if "output_map_type" in rule_data:
|
|
label = QLabel("Output Map Type Name:")
|
|
widget = QLineEdit(rule_data["output_map_type"])
|
|
self.merge_rule_details_layout.addRow(label, widget)
|
|
self.merge_rule_widgets["output_map_type"] = widget
|
|
|
|
# inputs: QTableWidget (Fixed Rows: R, G, B, A. Columns: "Channel", "Input Map Type"). Label: "Channel Inputs".
|
|
if "inputs" in rule_data and isinstance(rule_data["inputs"], dict):
|
|
group = QGroupBox("Channel Inputs")
|
|
group_layout = QVBoxLayout(group)
|
|
input_table = QTableWidget(4, 2) # R, G, B, A rows, 2 columns
|
|
input_table.setHorizontalHeaderLabels(["Channel", "Input Map Type"])
|
|
input_table.setVerticalHeaderLabels(["R", "G", "B", "A"])
|
|
|
|
# Populate table with current input data
|
|
channels = ["R", "G", "B", "A"]
|
|
for i, channel in enumerate(channels):
|
|
input_map_type = rule_data["inputs"].get(channel, "")
|
|
input_table.setItem(i, 0, QTableWidgetItem(channel))
|
|
# TODO: Implement custom delegate for "Input Map Type" column (QComboBox)
|
|
input_table.setItem(i, 1, QTableWidgetItem(input_map_type)) # Placeholder
|
|
|
|
group_layout.addWidget(input_table)
|
|
self.merge_rule_details_layout.addRow(group)
|
|
self.merge_rule_widgets["inputs_table"] = input_table # Store table reference
|
|
|
|
|
|
# defaults: QTableWidget (Fixed Rows: R, G, B, A. Columns: "Channel", "Default Value"). Label: "Channel Defaults (if input missing)".
|
|
if "defaults" in rule_data and isinstance(rule_data["defaults"], dict):
|
|
group = QGroupBox("Channel Defaults (if input missing)")
|
|
group_layout = QVBoxLayout(group)
|
|
defaults_table = QTableWidget(4, 2) # R, G, B, A rows, 2 columns
|
|
defaults_table.setHorizontalHeaderLabels(["Channel", "Default Value"])
|
|
defaults_table.setVerticalHeaderLabels(["R", "G", "B", "A"])
|
|
|
|
# Populate table with current default data
|
|
channels = ["R", "G", "B", "A"]
|
|
for i, channel in enumerate(channels):
|
|
default_value = rule_data["defaults"].get(channel, 0.0)
|
|
defaults_table.setItem(i, 0, QTableWidgetItem(channel))
|
|
# TODO: Implement custom delegate for "Default Value" column (QDoubleSpinBox)
|
|
defaults_table.setItem(i, 1, QTableWidgetItem(str(default_value))) # Placeholder
|
|
|
|
group_layout.addWidget(defaults_table)
|
|
self.merge_rule_details_layout.addRow(group)
|
|
self.merge_rule_widgets["defaults_table"] = defaults_table # Store table reference
|
|
|
|
|
|
# output_bit_depth: QComboBox (Options: "respect_inputs", "force_8bit", "force_16bit"). Label: "Output Bit Depth".
|
|
if "output_bit_depth" in rule_data:
|
|
label = QLabel("Output Bit Depth:")
|
|
widget = QComboBox()
|
|
options = ["respect_inputs", "force_8bit", "force_16bit"]
|
|
widget.addItems(options)
|
|
if rule_data["output_bit_depth"] in options:
|
|
widget.setCurrentText(rule_data["output_bit_depth"])
|
|
self.merge_rule_details_layout.addRow(label, widget)
|
|
self.merge_rule_widgets["output_bit_depth"] = widget
|
|
|
|
# Add stretch to push widgets to the top
|
|
self.merge_rule_details_layout.addStretch()
|
|
|
|
|
|
def browse_path(self, widget, key, is_dir=False):
|
|
"""Opens a file or directory dialog based on the setting key and is_dir flag."""
|
|
if is_dir:
|
|
path = QFileDialog.getExistingDirectory(self, "Select Directory", widget.text())
|
|
elif 'BLEND_PATH' in key.upper():
|
|
path, _ = QFileDialog.getOpenFileName(self, "Select File", widget.text(), "Blender Files (*.blend)")
|
|
else:
|
|
path, _ = QFileDialog.getOpenFileName(self, "Select File", widget.text())
|
|
|
|
if path:
|
|
widget.setText(path)
|
|
|
|
def pick_color(self, widget):
|
|
"""Opens a color dialog and sets the selected color in the widget."""
|
|
color = QColorDialog.getColor(QColor(widget.text()))
|
|
if color.isValid():
|
|
widget.setText(color.name()) # Get color as hex string
|
|
|
|
def save_settings(self):
|
|
"""Reads values from widgets and saves them to the configuration file."""
|
|
new_settings = {}
|
|
|
|
# Start with a deep copy of the original settings structure to preserve
|
|
# sections/keys that might not have dedicated widgets (though ideally all should)
|
|
import copy
|
|
new_settings = copy.deepcopy(self.settings)
|
|
|
|
|
|
# Iterate through the stored widgets and update the new_settings dictionary
|
|
for key, widget in self.widgets.items():
|
|
# Handle simple widgets
|
|
if isinstance(widget, (QLineEdit, QSpinBox, QDoubleSpinBox, QCheckBox, QComboBox)):
|
|
# Split the key to navigate the dictionary structure
|
|
keys = key.split('.')
|
|
current_dict = new_settings
|
|
for i, k in enumerate(keys):
|
|
if i == len(keys) - 1:
|
|
# This is the final key, update the value
|
|
if isinstance(widget, QLineEdit):
|
|
# Handle simple lists displayed as comma-separated strings
|
|
if key in ["STANDARD_MAP_TYPES", "RESPECT_VARIANT_MAP_TYPES"]:
|
|
current_dict[k] = [item.strip() for item in widget.text().split(',') if item.strip()]
|
|
else:
|
|
current_dict[k] = widget.text()
|
|
elif isinstance(widget, QSpinBox):
|
|
current_dict[k] = widget.value()
|
|
elif isinstance(widget, QDoubleSpinBox):
|
|
current_dict[k] = widget.value()
|
|
elif isinstance(widget, QCheckBox):
|
|
current_dict[k] = widget.isChecked()
|
|
elif isinstance(widget, QComboBox):
|
|
# Special handling for RESOLUTION_THRESHOLD_FOR_JPG
|
|
if key == "RESOLUTION_THRESHOLD_FOR_JPG": # Use 'key' from the loop, not 'full_key'
|
|
selected_text = widget.currentText()
|
|
image_resolutions = new_settings.get('IMAGE_RESOLUTIONS', {})
|
|
if selected_text == "Never":
|
|
# Use a very large number so the comparison target_dim_px >= threshold is always false
|
|
current_dict[k] = 999999
|
|
elif selected_text == "Always":
|
|
current_dict[k] = 1 # Assuming 1 means always apply (any positive dimension >= 1)
|
|
elif selected_text in image_resolutions:
|
|
current_dict[k] = image_resolutions[selected_text]
|
|
else:
|
|
# Fallback or error handling if text is unexpected
|
|
print(f"Warning: Unexpected value '{selected_text}' for RESOLUTION_THRESHOLD_FOR_JPG. Saving as text.")
|
|
current_dict[k] = selected_text # Save original text as fallback
|
|
else:
|
|
# Default behavior for other combo boxes
|
|
current_dict[k] = widget.currentText()
|
|
else:
|
|
# Navigate to the next level
|
|
# Use full_key for error message consistency
|
|
if k not in current_dict or not isinstance(current_dict[k], dict):
|
|
# This should not happen if create_tabs is correct, but handle defensively
|
|
print(f"Warning: Structure mismatch for key part '{k}' in '{key}'")
|
|
break # Stop processing this key
|
|
current_dict = current_dict[k]
|
|
# Handle TableWidgets (for definitions and image resolutions)
|
|
elif key == "ASSET_TYPE_DEFINITIONS_TABLE":
|
|
table = widget
|
|
asset_defs = {}
|
|
for row in range(table.rowCount()):
|
|
try:
|
|
type_name_item = table.item(row, 0)
|
|
desc_item = table.item(row, 1)
|
|
color_item = table.item(row, 2) # Delegate stores color in EditRole
|
|
examples_item = table.item(row, 3)
|
|
|
|
if not type_name_item or not type_name_item.text():
|
|
print(f"Warning: Skipping row {row} in {key} due to missing type name.")
|
|
continue
|
|
|
|
type_name = type_name_item.text()
|
|
description = desc_item.text() if desc_item else ""
|
|
# Get color from EditRole data set by the delegate
|
|
color_str = color_item.data(Qt.EditRole) if color_item else "#ffffff"
|
|
examples_str = examples_item.text() if examples_item else ""
|
|
examples_list = [ex.strip() for ex in examples_str.split(',') if ex.strip()]
|
|
|
|
asset_defs[type_name] = {
|
|
"description": description,
|
|
"color": color_str,
|
|
"examples": examples_list
|
|
}
|
|
except Exception as e:
|
|
print(f"Error processing row {row} in {key}: {e}")
|
|
new_settings['ASSET_TYPE_DEFINITIONS'] = asset_defs # Overwrite with new data
|
|
|
|
elif key == "FILE_TYPE_DEFINITIONS_TABLE":
|
|
table = widget
|
|
file_defs = {}
|
|
for row in range(table.rowCount()):
|
|
try:
|
|
type_id_item = table.item(row, 0)
|
|
desc_item = table.item(row, 1)
|
|
color_item = table.item(row, 2) # Delegate stores color in EditRole
|
|
examples_item = table.item(row, 3)
|
|
std_type_item = table.item(row, 4)
|
|
bit_depth_item = table.item(row, 5)
|
|
|
|
if not type_id_item or not type_id_item.text():
|
|
print(f"Warning: Skipping row {row} in {key} due to missing type ID.")
|
|
continue
|
|
|
|
type_id = type_id_item.text()
|
|
description = desc_item.text() if desc_item else ""
|
|
# Get color from EditRole data set by the delegate
|
|
color_str = color_item.data(Qt.EditRole) if color_item else "#ffffff"
|
|
examples_str = examples_item.text() if examples_item else ""
|
|
examples_list = [ex.strip() for ex in examples_str.split(',') if ex.strip()]
|
|
standard_type = std_type_item.text() if std_type_item else ""
|
|
bit_depth_rule = bit_depth_item.text() if bit_depth_item else "respect" # Default?
|
|
|
|
file_defs[type_id] = {
|
|
"description": description,
|
|
"color": color_str,
|
|
"examples": examples_list,
|
|
"standard_type": standard_type,
|
|
"bit_depth_rule": bit_depth_rule
|
|
}
|
|
except Exception as e:
|
|
print(f"Error processing row {row} in {key}: {e}")
|
|
new_settings['FILE_TYPE_DEFINITIONS'] = file_defs # Overwrite with new data
|
|
|
|
elif key in ["IMAGE_RESOLUTIONS_TABLE", "MAP_BIT_DEPTH_RULES_TABLE"]:
|
|
# Still not implemented for these tables
|
|
print(f"Warning: Saving for table widget '{key}' is not fully implemented.")
|
|
pass # Defer saving complex table data
|
|
|
|
# Handle Map Merge Rules (more complex)
|
|
# Note: Changes made in the details form are NOT saved with this implementation
|
|
# due to deferred complexity in updating the list item's data and reconstructing the list.
|
|
elif key == "MAP_MERGE_RULES_DATA":
|
|
# The original data is stored, but changes in the details form are not reflected.
|
|
# A full implementation would require updating the rule data in the list item
|
|
# when the details form is edited and then reconstructing the list.
|
|
print(f"Warning: Saving for Map Merge Rules details is not fully implemented.")
|
|
pass # Defer saving changes from the details form
|
|
|
|
|
|
# Save the new settings
|
|
try:
|
|
save_base_config(new_settings)
|
|
QMessageBox.information(self, "Settings Saved", "Configuration saved successfully.\nRestart the application to apply changes.")
|
|
self.accept() # Close the dialog
|
|
except Exception as e:
|
|
QMessageBox.critical(self, "Saving Error", f"Failed to save configuration: {e}")
|
|
|
|
def populate_widgets_from_settings(self):
|
|
"""Populates the created widgets with loaded settings."""
|
|
if not self.settings or not self.widgets:
|
|
return
|
|
|
|
for key, value in self.settings.items():
|
|
# Handle simple settings directly if they have a corresponding widget
|
|
if key in self.widgets and isinstance(self.widgets[key], (QLineEdit, QSpinBox, QDoubleSpinBox, QCheckBox, QComboBox)):
|
|
widget = self.widgets[key]
|
|
if isinstance(widget, QLineEdit):
|
|
# Handle simple lists displayed as comma-separated strings
|
|
if key in ["STANDARD_MAP_TYPES", "RESPECT_VARIANT_MAP_TYPES"] and isinstance(value, list):
|
|
widget.setText(", ".join(map(str, value)))
|
|
elif isinstance(value, (str, int, float, bool)): # Also handle cases where simple types might be in QLineEdit
|
|
widget.setText(str(value))
|
|
elif isinstance(widget, QSpinBox) and isinstance(value, int):
|
|
widget.setValue(value)
|
|
elif isinstance(widget, QDoubleSpinBox) and isinstance(value, (int, float)):
|
|
widget.setValue(float(value))
|
|
elif isinstance(widget, QCheckBox) and isinstance(value, bool):
|
|
widget.setChecked(value)
|
|
elif isinstance(widget, QComboBox):
|
|
if value in [widget.itemText(i) for i in range(widget.count())]:
|
|
widget.setCurrentText(value)
|
|
|
|
|
|
# Handle complex structures with dedicated widgets (Tables and Lists)
|
|
elif key == "ASSET_TYPE_DEFINITIONS" and "ASSET_TYPE_DEFINITIONS_TABLE" in self.widgets:
|
|
self.populate_asset_definitions_table(self.widgets["ASSET_TYPE_DEFINITIONS_TABLE"], value)
|
|
elif key == "FILE_TYPE_DEFINITIONS" and "FILE_TYPE_DEFINITIONS_TABLE" in self.widgets:
|
|
self.populate_file_type_definitions_table(self.widgets["FILE_TYPE_DEFINITIONS_TABLE"], value)
|
|
elif key == "IMAGE_RESOLUTIONS" and "IMAGE_RESOLUTIONS_TABLE" in self.widgets:
|
|
self.populate_image_resolutions_table(self.widgets["IMAGE_RESOLUTIONS_TABLE"], value)
|
|
# Populate ComboBoxes that depend on Image Resolutions
|
|
resolution_names = [self.widgets["IMAGE_RESOLUTIONS_TABLE"].item(i, 0).text() for i in range(self.widgets["IMAGE_RESOLUTIONS_TABLE"].rowCount())]
|
|
if "CALCULATE_STATS_RESOLUTION" in self.widgets:
|
|
self.widgets["CALCULATE_STATS_RESOLUTION"].addItems(resolution_names)
|
|
if key in self.settings and self.settings["CALCULATE_STATS_RESOLUTION"] in resolution_names:
|
|
self.widgets["CALCULATE_STATS_RESOLUTION"].setCurrentText(self.settings["CALCULATE_STATS_RESOLUTION"])
|
|
if "RESOLUTION_THRESHOLD_FOR_JPG" in self.widgets:
|
|
jpg_threshold_options = ["Never", "Always"] + resolution_names
|
|
self.widgets["RESOLUTION_THRESHOLD_FOR_JPG"].addItems(jpg_threshold_options)
|
|
if key in self.settings and self.settings["RESOLUTION_THRESHOLD_FOR_JPG"] in jpg_threshold_options:
|
|
self.widgets["RESOLUTION_THRESHOLD_FOR_JPG"].setCurrentText(self.settings["RESOLUTION_THRESHOLD_FOR_JPG"])
|
|
|
|
elif key == "MAP_BIT_DEPTH_RULES" and "MAP_BIT_DEPTH_RULES_TABLE" in self.widgets:
|
|
self.populate_map_bit_depth_rules_table(self.widgets["MAP_BIT_DEPTH_RULES_TABLE"], value)
|
|
|
|
|
|
elif key == "MAP_MERGE_RULES" and hasattr(self, 'merge_rules_list'): # Check if the list widget exists
|
|
self.populate_merge_rules_list(value)
|
|
# Select the first item to display details if the list is not empty
|
|
if self.merge_rules_list.count() > 0:
|
|
self.merge_rules_list.setCurrentRow(0)
|
|
|
|
|
|
def populate_asset_definitions_table(self, table: QTableWidget, definitions_data: dict):
|
|
"""Populates the asset definitions table."""
|
|
table.setRowCount(len(definitions_data))
|
|
row = 0
|
|
for asset_type, details in definitions_data.items():
|
|
item_type_name = QTableWidgetItem(asset_type)
|
|
item_description = QTableWidgetItem(details.get("description", ""))
|
|
table.setItem(row, 0, item_type_name)
|
|
table.setItem(row, 1, item_description)
|
|
|
|
# Color column - Set item with color string as data
|
|
color_str = details.get("color", "#ffffff") # Default to white if missing
|
|
item_color = QTableWidgetItem() # No text needed, delegate handles paint
|
|
item_color.setData(Qt.EditRole, color_str) # Store hex string for delegate/editing
|
|
# item_color.setBackground(QColor(color_str)) # Optional: Set initial background via item
|
|
table.setItem(row, 2, item_color)
|
|
|
|
# Examples column
|
|
examples_list = details.get("examples", [])
|
|
examples_str = ", ".join(examples_list) if isinstance(examples_list, list) else ""
|
|
item_examples = QTableWidgetItem(examples_str)
|
|
table.setItem(row, 3, item_examples)
|
|
|
|
# Background color is now handled by the delegate's paint method based on data
|
|
|
|
row += 1
|
|
|
|
# After populating the Asset Types table, populate the DEFAULT_ASSET_CATEGORY ComboBox
|
|
if "DEFAULT_ASSET_CATEGORY" in self.widgets and isinstance(self.widgets["DEFAULT_ASSET_CATEGORY"], QComboBox):
|
|
asset_types = list(definitions_data.keys())
|
|
self.widgets["DEFAULT_ASSET_CATEGORY"].addItems(asset_types)
|
|
# Set the current value if it exists in settings
|
|
if "DEFAULT_ASSET_CATEGORY" in self.settings and self.settings["DEFAULT_ASSET_CATEGORY"] in asset_types:
|
|
self.widgets["DEFAULT_ASSET_CATEGORY"].setCurrentText(self.settings["DEFAULT_ASSET_CATEGORY"])
|
|
|
|
|
|
def populate_file_type_definitions_table(self, table: QTableWidget, definitions_data: dict):
|
|
"""Populates the file type definitions table."""
|
|
table.setRowCount(len(definitions_data))
|
|
row = 0
|
|
for file_type, details in definitions_data.items():
|
|
item_type_id = QTableWidgetItem(file_type)
|
|
item_description = QTableWidgetItem(details.get("description", ""))
|
|
table.setItem(row, 0, item_type_id)
|
|
table.setItem(row, 1, item_description)
|
|
|
|
# Color column - Set item with color string as data
|
|
color_str = details.get("color", "#ffffff") # Default to white if missing
|
|
item_color = QTableWidgetItem() # No text needed, delegate handles paint
|
|
item_color.setData(Qt.EditRole, color_str) # Store hex string for delegate/editing
|
|
# item_color.setBackground(QColor(color_str)) # Optional: Set initial background via item
|
|
table.setItem(row, 2, item_color)
|
|
|
|
# Examples column
|
|
examples_list = details.get("examples", [])
|
|
examples_str = ", ".join(examples_list) if isinstance(examples_list, list) else ""
|
|
item_examples = QTableWidgetItem(examples_str)
|
|
table.setItem(row, 3, item_examples)
|
|
|
|
# Standard Type column (simple QTableWidgetItem for now)
|
|
standard_type_str = details.get("standard_type", "")
|
|
item_standard_type = QTableWidgetItem(standard_type_str)
|
|
table.setItem(row, 4, item_standard_type)
|
|
|
|
# Bit Depth Rule column (simple QTableWidgetItem for now)
|
|
bit_depth_rule_str = details.get("bit_depth_rule", "")
|
|
item_bit_depth_rule = QTableWidgetItem(bit_depth_rule_str)
|
|
table.setItem(row, 5, item_bit_depth_rule)
|
|
|
|
# Background color is now handled by the delegate's paint method based on data
|
|
|
|
row += 1
|
|
|
|
def populate_image_resolutions_table(self, table: QTableWidget, resolutions_data: list):
|
|
"""Populates the image resolutions table."""
|
|
table.setRowCount(len(resolutions_data))
|
|
for row, resolution in enumerate(resolutions_data):
|
|
# Assuming resolution is a list/tuple like [name, resolution_string]
|
|
try:
|
|
if isinstance(resolution, (list, tuple)) and len(resolution) == 2:
|
|
name = str(resolution[0])
|
|
# Attempt to convert resolution value to string, handle potential errors
|
|
try:
|
|
res_value = str(resolution[1])
|
|
except Exception:
|
|
res_value = "Error: Invalid Value"
|
|
table.setItem(row, 0, QTableWidgetItem(name))
|
|
table.setItem(row, 1, QTableWidgetItem(res_value))
|
|
else:
|
|
# Handle unexpected format more clearly
|
|
table.setItem(row, 0, QTableWidgetItem(str(resolution)))
|
|
table.setItem(row, 1, QTableWidgetItem("Error: Invalid Format"))
|
|
except Exception as e:
|
|
# Catch any other unexpected errors during processing
|
|
print(f"Error populating resolution row {row}: {e}")
|
|
table.setItem(row, 0, QTableWidgetItem("Error"))
|
|
table.setItem(row, 1, QTableWidgetItem(f"Error: {e}"))
|
|
|
|
|
|
def populate_map_bit_depth_rules_table(self, table: QTableWidget, rules_data: dict):
|
|
"""Populates the map bit depth rules table."""
|
|
table.setRowCount(len(rules_data))
|
|
row = 0
|
|
for map_type, rule in rules_data.items():
|
|
table.setItem(row, 0, QTableWidgetItem(map_type))
|
|
table.setItem(row, 1, QTableWidgetItem(str(rule))) # Rule (respect/force_8bit)
|
|
row += 1
|
|
|
|
|
|
# Removed duplicated methods:
|
|
# - create_map_merge_rules_widget (duplicate of lines 684-689)
|
|
# - populate_merge_rules_list (duplicate of lines 691-698)
|
|
# - display_merge_rule_details (duplicate of lines 699-788)
|
|
# - browse_path (duplicate of lines 790-801)
|
|
# - pick_color (duplicate of lines 802-807)
|
|
# - save_settings (duplicate of lines 808-874)
|
|
# - populate_widgets_from_settings (duplicate of lines 875-933)
|
|
# - populate_asset_definitions_table (duplicate of lines 935-969)
|
|
# - populate_file_type_definitions_table (duplicate of lines 971-1005)
|
|
# - populate_image_resolutions_table (duplicate of lines 1006-1018)
|
|
# - populate_map_bit_depth_rules_table (duplicate of lines 1020-1027)
|
|
|
|
|
|
# Example usage (for testing the dialog independently)
|
|
if __name__ == '__main__':
|
|
# Use PySide6 instead of PyQt5 for consistency
|
|
from PySide6.QtWidgets import QApplication
|
|
import sys
|
|
|
|
app = QApplication(sys.argv)
|
|
dialog = ConfigEditorDialog()
|
|
dialog.exec() # Use exec() for PySide6 QDialog
|
|
sys.exit(app.exec()) # Use exec() for PySide6 QApplication |