feat: Update version to 1.7.5 in Makefile, docker-build.sh, and pyproject.toml

feat: Add test scripts for note saving and updating functionality

.gitignore

@@ -47,7 +47,7 @@ htmlcov/
 .pylint.d/
 
 # IDEs and editors
-#.vscode/
+.vscode/
 !.vscode/tasks.json
 !.vscode/launch.json
 .idea/

Makefile

@@ -1,5 +1,5 @@
 TARGET=thechart
-VERSION=1.6.1
+VERSION=1.7.5
 ROOT=/home/will
 ICON=chart-671.png
 SHELL=fish
@@ -85,7 +85,7 @@ install: ## Set up the development environment
 	@echo "To run tests: make test"
 build: ## Build the Docker image
 	@echo "Building the Docker image..."
-	docker buildx build --platform linux/amd64,linux/arm64 -t ${IMAGE} --push .
+	docker buildx build --platform linux/amd64 -t ${IMAGE} --push .
 deploy: ## Deploy the application as a standalone executable
 	@echo "Deploying the application..."
 	pyinstaller --name ${TARGET} --optimize 2 --onefile --windowed --hidden-import='PIL._tkinter_finder' --icon='${ICON}' --add-data="./.env:." --add-data='./chart-671.png:.' --add-data='./thechart_data.csv:.' --log-level=DEBUG src/main.py
@@ -121,21 +121,6 @@ test-watch: ## Run tests in watch mode
 test-debug: ## Run tests with debug output
 	@echo "Running tests with debug output..."
 	.venv/bin/python -m pytest tests/ -v -s --tb=long --cov=src
-test-dose-tracking: ## Test the dose tracking functionality
-	@echo "Testing dose tracking functionality..."
-	.venv/bin/python scripts/test_dose_tracking.py
-test-scrollable-input: ## Test the scrollable input frame UI
-	@echo "Testing scrollable input frame..."
-	.venv/bin/python scripts/test_scrollable_input.py
-test-edit-functionality: ## Test the enhanced edit functionality
-	@echo "Testing edit functionality..."
-	.venv/bin/python scripts/test_edit_functionality.py
-test-edit-window: $(VENV_ACTIVATE)  ## Test edit window functionality (save and delete)
-	@echo "Running edit window functionality test..."
-	$(PYTHON) scripts/test_edit_window_functionality.py
-test-dose-editing: $(VENV_ACTIVATE)  ## Test dose editing functionality in edit window
-	@echo "Running dose editing functionality test..."
-	$(PYTHON) scripts/test_dose_editing_functionality.py
 lint: ## Run the linter
 	@echo "Running the linter..."
 	docker-compose exec ${TARGET} pipenv run pre-commit run --all-files
@@ -157,4 +142,4 @@ commit-emergency: ## Emergency commit (bypasses pre-commit hooks) - USE SPARINGL
 	@read -p "Enter commit message: " msg; \
 	git add . && git commit --no-verify -m "$$msg"
 	@echo "✅ Emergency commit completed. Please run tests manually when possible."
-.PHONY: install clean reinstall check-env build attach deploy run start stop test lint format shell requirements commit-emergency test-dose-tracking test-scrollable-input test-edit-functionality test-edit-window test-dose-editing migrate-csv help
+.PHONY: install clean reinstall check-env build attach deploy run start stop test lint format shell requirements commit-emergency help

docker-build.sh

@@ -1,19 +1,19 @@
 #!/usr/bin/bash
 
 CONTAINER_ENGINE="docker" # podman | docker
-VERSION="v1.0.0"
+VERSION="v1.7.5"
 REGISTRY="gitea-http.taildb3494.ts.net/will/thechart"
 
 if [ "$CONTAINER_ENGINE" == "podman" ];
 then
     buildah build \
     -t $REGISTRY:$VERSION \
-    --platform linux/amd64,linux/arm64/v8 \
+    --platform linux/amd64 \
     --no-cache .
 else
     DOCKER_BUILDKIT=1 \
     docker buildx build \
-    --platform linux/amd64,linux/arm64/v8 \
+    --platform linux/amd64 \
     -t $REGISTRY:$VERSION \
     --no-cache \
     --push .

pyproject.toml

@@ -1,6 +1,6 @@
 [project]
 name = "thechart"
-version = "1.6.1"
+version = "1.7.5"
 description = "Chart to monitor your medication intake over time."
 readme = "README.md"
 requires-python = ">=3.13"

scripts/test_note_saving.py

@@ -0,0 +1,69 @@
+#!/usr/bin/env python3
+"""
+Test script to verify note field saving functionality
+"""
+
+import logging
+import os
+import sys
+
+import pandas as pd
+
+# Add src directory to path to import modules
+sys.path.insert(0, os.path.join(os.path.dirname(__file__), "..", "src"))
+
+from data_manager import DataManager
+from medicine_manager import MedicineManager
+from pathology_manager import PathologyManager
+
+
+def test_note_saving():
+    """Test note saving functionality by checking current data"""
+    print("Testing note saving functionality...")
+
+    # Initialize logger
+    logger = logging.getLogger("test")
+    logger.setLevel(logging.INFO)
+
+    # Initialize managers
+    medicine_manager = MedicineManager("medicines.json")
+    pathology_manager = PathologyManager("pathologies.json")
+    data_manager = DataManager(
+        "thechart_data.csv", logger, medicine_manager, pathology_manager
+    )
+
+    # Load current data
+    df = data_manager.load_data()
+
+    if df.empty:
+        print("No data found in CSV file")
+        return
+
+    print(f"Found {len(df)} entries in the data file")
+
+    # Check if we have any entries with notes
+    entries_with_notes = df[df["note"].notna() & (df["note"] != "")].copy()
+
+    print(f"Entries with notes: {len(entries_with_notes)}")
+
+    if len(entries_with_notes) > 0:
+        print("\nEntries with notes:")
+        for _, row in entries_with_notes.iterrows():
+            note_preview = (
+                row["note"][:50] + "..." if len(str(row["note"])) > 50 else row["note"]
+            )
+            print(f"  Date: {row['date']}, Note: {note_preview}")
+
+    # Show the most recent entry
+    if len(df) > 0:
+        latest_entry = df.iloc[-1]
+        print("\nMost recent entry:")
+        print(f"  Date: {latest_entry['date']}")
+        print(f"  Note: '{latest_entry['note']}'")
+        print(f"  Note length: {len(str(latest_entry['note']))}")
+        is_empty = pd.isna(latest_entry["note"]) or latest_entry["note"] == ""
+        print(f"  Note is empty/null: {is_empty}")
+
+
+if __name__ == "__main__":
+    test_note_saving()

scripts/test_update_entry.py

@@ -0,0 +1,102 @@
+#!/usr/bin/env python3
+"""
+Test the update_entry functionality with notes
+"""
+
+import logging
+import os
+import sys
+
+# Add src directory to path to import modules
+sys.path.insert(0, os.path.join(os.path.dirname(__file__), "..", "src"))
+
+from data_manager import DataManager
+from medicine_manager import MedicineManager
+from pathology_manager import PathologyManager
+
+
+def test_update_entry_with_note():
+    """Test updating an entry with a note"""
+    print("Testing update_entry functionality with notes...")
+
+    # Initialize logger
+    logger = logging.getLogger("test")
+    logger.setLevel(logging.DEBUG)
+
+    # Add console handler to see debug output
+    handler = logging.StreamHandler()
+    handler.setLevel(logging.DEBUG)
+    formatter = logging.Formatter("%(levelname)s - %(message)s")
+    handler.setFormatter(formatter)
+    logger.addHandler(handler)
+
+    # Initialize managers
+    medicine_manager = MedicineManager("medicines.json")
+    pathology_manager = PathologyManager("pathologies.json")
+    data_manager = DataManager(
+        "thechart_data.csv", logger, medicine_manager, pathology_manager
+    )
+
+    # Load current data
+    df = data_manager.load_data()
+
+    if df.empty:
+        print("No data found in CSV file")
+        return
+
+    print(f"Found {len(df)} entries in the data file")
+
+    # Find the most recent entry to test with
+    latest_entry = df.iloc[-1].copy()
+    original_date = latest_entry["date"]
+
+    print(f"Testing with entry: {original_date}")
+    print(f"Current note: '{latest_entry['note']}'")
+
+    # Create test values - keep everything the same but change the note
+    test_note = "This is a test note to verify saving functionality!"
+
+    # Build values list (same format as the UI would send)
+    values = [original_date]  # date
+
+    # Add pathology values
+    pathology_keys = pathology_manager.get_pathology_keys()
+    for key in pathology_keys:
+        values.append(latest_entry.get(key, 0))
+
+    # Add medicine values and doses
+    medicine_keys = medicine_manager.get_medicine_keys()
+    for key in medicine_keys:
+        values.append(latest_entry.get(key, 0))  # medicine checkbox
+        values.append(latest_entry.get(f"{key}_doses", ""))  # medicine doses
+
+    # Add the test note
+    values.append(test_note)
+
+    print(f"Values to save: {values}")
+    print(f"Note in values: '{values[-1]}'")
+
+    # Test the update
+    success = data_manager.update_entry(original_date, values)
+
+    if success:
+        print("Update successful!")
+
+        # Reload and verify
+        df_after = data_manager.load_data()
+        updated_entry = df_after[df_after["date"] == original_date].iloc[0]
+
+        print(f"Note after update: '{updated_entry['note']}'")
+        print(f"Note correctly saved: {updated_entry['note'] == test_note}")
+
+        # Reset the note back to original
+        values[-1] = latest_entry["note"]
+        data_manager.update_entry(original_date, values)
+        print("Reverted note back to original")
+
+    else:
+        print("Update failed!")
+
+
+if __name__ == "__main__":
+    test_update_entry_with_note()

src/main.py

@@ -67,6 +67,29 @@ class MedTrackerApp:
         # Add menu bar
         self._setup_menu()
 
+        # Center the window on screen
+        self._center_window()
+
+    def _center_window(self) -> None:
+        """Center the main window on the screen."""
+        # Update the window to get accurate dimensions
+        self.root.update_idletasks()
+
+        # Get window dimensions
+        window_width = self.root.winfo_reqwidth()
+        window_height = self.root.winfo_reqheight()
+
+        # Get screen dimensions
+        screen_width = self.root.winfo_screenwidth()
+        screen_height = self.root.winfo_screenheight()
+
+        # Calculate position to center the window
+        x = (screen_width // 2) - (window_width // 2)
+        y = (screen_height // 2) - (window_height // 2)
+
+        # Set the window geometry
+        self.root.geometry(f"{window_width}x{window_height}+{x}+{y}")
+
     def _setup_main_ui(self) -> None:
         """Set up the main UI components."""
         import tkinter.ttk as ttk

src/ui_manager.py

@@ -417,8 +417,8 @@ class UIManager:
         # Extract note (should be the last value)
         note = values_list[-1] if len(values_list) > 0 else ""
 
-        # Create improved UI sections dynamically
-        vars_dict = self._create_edit_ui_dynamic(
+        # Create improved UI sections
+        vars_dict = self._create_edit_ui(
             main_container,
             date,
             pathology_values,
@@ -443,7 +443,7 @@ class UIManager:
 
         return edit_win
 
-    def _create_edit_ui_dynamic(
+    def _create_edit_ui(
         self,
         parent: ttk.Frame,
         date: str,
@@ -500,7 +500,7 @@ class UIManager:
         meds_frame.grid_columnconfigure(0, weight=1)
 
         # Create medicine checkboxes dynamically
-        med_vars = self._create_medicine_section_dynamic(meds_frame, medicine_values)
+        med_vars = self._create_medicine_section(meds_frame, medicine_values)
         vars_dict.update(med_vars)
 
         row += 1
@@ -510,7 +510,7 @@ class UIManager:
         dose_frame.grid(row=row, column=0, sticky="ew", pady=(0, 15))
         dose_frame.grid_columnconfigure(0, weight=1)
 
-        dose_vars = self._create_dose_tracking_dynamic(dose_frame, medicine_doses)
+        dose_vars = self._create_dose_tracking(dose_frame, medicine_doses)
         vars_dict.update(dose_vars)
 
         row += 1
@@ -532,6 +532,7 @@ class UIManager:
         )
         note_text.grid(row=0, column=0, sticky="ew", padx=5, pady=5)
         note_text.insert("1.0", str(note))
+        vars_dict["note_text"] = note_text  # Store the widget for access during save
 
         # Bind text widget to string var for easy access
         def update_note(*args):
@@ -542,111 +543,6 @@ class UIManager:
 
         return vars_dict
 
-    def _create_edit_ui(
-        self,
-        parent: ttk.Frame,
-        date: str,
-        dep: int,
-        anx: int,
-        slp: int,
-        app: int,
-        bup: int,
-        hydro: int,
-        gaba: int,
-        prop: int,
-        quet: int,
-        note: str,
-        dose_data: dict[str, str],
-    ) -> dict[str, Any]:
-        """Create UI layout for edit window with organized sections."""
-        vars_dict = {}
-        row = 0
-
-        # Header with entry date
-        header_frame = ttk.Frame(parent)
-        header_frame.grid(row=row, column=0, sticky="ew", pady=(0, 20))
-        header_frame.grid_columnconfigure(1, weight=1)
-
-        ttk.Label(
-            header_frame, text="Editing Entry for:", font=("TkDefaultFont", 12, "bold")
-        ).grid(row=0, column=0, sticky="w")
-
-        vars_dict["date"] = tk.StringVar(value=str(date))
-        date_entry = ttk.Entry(
-            header_frame,
-            textvariable=vars_dict["date"],
-            font=("TkDefaultFont", 12),
-            width=15,
-        )
-        date_entry.grid(row=0, column=1, sticky="w", padx=(10, 0))
-
-        row += 1
-
-        # Symptoms section
-        symptoms_frame = ttk.LabelFrame(
-            parent, text="Daily Symptoms (0-10 scale)", padding="15"
-        )
-        symptoms_frame.grid(row=row, column=0, sticky="ew", pady=(0, 15))
-        symptoms_frame.grid_columnconfigure(1, weight=1)
-
-        # Create symptom scales with better layout
-        symptoms = [
-            ("Depression", "depression", dep),
-            ("Anxiety", "anxiety", anx),
-            ("Sleep Quality", "sleep", slp),
-            ("Appetite", "appetite", app),
-        ]
-
-        for i, (label, key, value) in enumerate(symptoms):
-            self._create_symptom_scale(symptoms_frame, i, label, key, value, vars_dict)
-
-        row += 1
-
-        # Medications section
-        meds_frame = ttk.LabelFrame(parent, text="Medications Taken", padding="15")
-        meds_frame.grid(row=row, column=0, sticky="ew", pady=(0, 15))
-        meds_frame.grid_columnconfigure(0, weight=1)
-
-        # Create medicine checkboxes with better styling
-        med_vars = self._create_medicine_section(
-            meds_frame, bup, hydro, gaba, prop, quet
-        )
-        vars_dict.update(med_vars)
-
-        row += 1
-
-        # Dose tracking section
-        dose_frame = ttk.LabelFrame(parent, text="Dose Tracking", padding="15")
-        dose_frame.grid(row=row, column=0, sticky="ew", pady=(0, 15))
-        dose_frame.grid_columnconfigure(0, weight=1)
-
-        dose_vars = self._create_dose_tracking(dose_frame, dose_data)
-        vars_dict.update(dose_vars)
-
-        row += 1
-
-        # Notes section
-        notes_frame = ttk.LabelFrame(parent, text="Notes", padding="15")
-        notes_frame.grid(row=row, column=0, sticky="ew", pady=(0, 20))
-        notes_frame.grid_columnconfigure(0, weight=1)
-
-        vars_dict["note"] = tk.StringVar(value=str(note))
-        note_text = tk.Text(
-            notes_frame, height=4, wrap=tk.WORD, font=("TkDefaultFont", 10)
-        )
-        note_text.grid(row=0, column=0, sticky="ew")
-        note_text.insert(1.0, str(note))
-        vars_dict["note_text"] = note_text
-
-        # Add scrollbar for notes
-        note_scroll = ttk.Scrollbar(
-            notes_frame, orient="vertical", command=note_text.yview
-        )
-        note_scroll.grid(row=0, column=1, sticky="ns")
-        note_text.configure(yscrollcommand=note_scroll.set)
-
-        return vars_dict
-
     def _create_symptom_scale(
         self,
         parent: ttk.Frame,
@@ -733,91 +629,6 @@ class UIManager:
         scale.bind("<KeyRelease>", update_value_label)
         update_value_label()  # Set initial color
 
-    def _create_enhanced_symptom_scale(
-        self,
-        parent: ttk.Frame,
-        row: int,
-        label: str,
-        key: str,
-        value: int,
-        vars_dict: dict[str, tk.IntVar],
-    ) -> None:
-        """Create enhanced symptom scale for new entry form (like edit window)."""
-        # Ensure value is properly converted
-        try:
-            value = int(float(value)) if value not in ["", None] else 0
-        except (ValueError, TypeError):
-            value = 0
-
-        # Label
-        label_widget = ttk.Label(
-            parent, text=f"{label} (0-10):", font=("TkDefaultFont", 10, "bold")
-        )
-        label_widget.grid(row=row, column=0, sticky="w", padx=5, pady=8)
-
-        # Scale container
-        scale_container = ttk.Frame(parent)
-        scale_container.grid(row=row, column=1, sticky="ew", padx=(20, 5), pady=8)
-        scale_container.grid_columnconfigure(0, weight=1)
-
-        # Scale with value labels
-        scale_frame = ttk.Frame(scale_container)
-        scale_frame.grid(row=0, column=0, sticky="ew")
-        scale_frame.grid_columnconfigure(1, weight=1)
-
-        # Current value display
-        value_label = ttk.Label(
-            scale_frame,
-            text=str(value),
-            font=("TkDefaultFont", 12, "bold"),
-            foreground="#2E86AB",
-            width=3,
-        )
-        value_label.grid(row=0, column=0, padx=(0, 10))
-
-        # Scale widget
-        scale = ttk.Scale(
-            scale_frame,
-            from_=0,
-            to=10,
-            variable=vars_dict[key],
-            orient=tk.HORIZONTAL,
-            length=250,  # Slightly smaller than edit window to fit better
-        )
-        scale.grid(row=0, column=1, sticky="ew")
-
-        # Scale labels (0, 5, 10)
-        labels_frame = ttk.Frame(scale_container)
-        labels_frame.grid(row=1, column=0, sticky="ew", pady=(5, 0))
-
-        ttk.Label(labels_frame, text="0", font=("TkDefaultFont", 8)).grid(
-            row=0, column=0, sticky="w"
-        )
-        labels_frame.grid_columnconfigure(1, weight=1)
-        ttk.Label(labels_frame, text="5", font=("TkDefaultFont", 8)).grid(
-            row=0, column=1
-        )
-        ttk.Label(labels_frame, text="10", font=("TkDefaultFont", 8)).grid(
-            row=0, column=2, sticky="e"
-        )
-
-        # Update label when scale changes
-        def update_value_label(event=None):
-            current_val = vars_dict[key].get()
-            value_label.configure(text=str(current_val))
-            # Change color based on value
-            if current_val <= 3:
-                value_label.configure(foreground="#28A745")  # Green for low/good
-            elif current_val <= 6:
-                value_label.configure(foreground="#FFC107")  # Yellow for medium
-            else:
-                value_label.configure(foreground="#DC3545")  # Red for high/bad
-
-        scale.bind("<Motion>", update_value_label)
-        scale.bind("<ButtonRelease-1>", update_value_label)
-        scale.bind("<KeyRelease>", update_value_label)
-        update_value_label()  # Set initial color
-
     def _create_enhanced_pathology_scale(
         self,
         parent: ttk.Frame,
@@ -927,153 +738,6 @@ class UIManager:
         update_value_label_pathology()  # Set initial color
 
     def _create_medicine_section(
-        self, parent: ttk.Frame, bup: int, hydro: int, gaba: int, prop: int, quet: int
-    ) -> dict[str, tk.IntVar]:
-        """Create medicine checkboxes with organized layout."""
-        vars_dict = {}
-
-        # Create a grid layout for medicines
-        medicines = [
-            ("bupropion", bup, "Bupropion", "150/300 mg", "#E8F4FD"),
-            ("hydroxyzine", hydro, "Hydroxyzine", "25 mg", "#FFF2E8"),
-            ("gabapentin", gaba, "Gabapentin", "100 mg", "#F0F8E8"),
-            ("propranolol", prop, "Propranolol", "10 mg", "#FCE8F3"),
-            ("quetiapine", quet, "Quetiapine", "25 mg", "#E8F0FF"),
-        ]
-
-        # Create medicine cards in a 2-column layout
-        for i, (key, value, name, dose, _bg_color) in enumerate(medicines):
-            row = i // 2
-            col = i % 2
-
-            # Medicine card frame
-            med_card = ttk.Frame(parent, relief="solid", borderwidth=1)
-            med_card.grid(row=row, column=col, sticky="ew", padx=5, pady=5)
-            parent.grid_columnconfigure(col, weight=1)
-
-            vars_dict[key] = tk.IntVar(value=int(value))
-
-            # Checkbox with medicine name
-            check_frame = ttk.Frame(med_card)
-            check_frame.pack(fill="x", padx=10, pady=8)
-
-            checkbox = ttk.Checkbutton(
-                check_frame,
-                text=f"{name} ({dose})",
-                variable=vars_dict[key],
-                style="Medicine.TCheckbutton",
-            )
-            checkbox.pack(anchor="w")
-
-        return vars_dict
-
-    def _create_dose_tracking(
-        self, parent: ttk.Frame, dose_data: dict[str, str]
-    ) -> dict[str, Any]:
-        """Create dose tracking interface."""
-        vars_dict = {}
-
-        # Create notebook for organized dose tracking
-        notebook = ttk.Notebook(parent)
-        notebook.pack(fill="both", expand=True)
-
-        medicines = [
-            ("bupropion", "Bupropion"),
-            ("hydroxyzine", "Hydroxyzine"),
-            ("gabapentin", "Gabapentin"),
-            ("propranolol", "Propranolol"),
-            ("quetiapine", "Quetiapine"),
-        ]
-
-        for med_key, med_name in medicines:
-            # Create tab for each medicine
-            tab_frame = ttk.Frame(notebook)
-            notebook.add(tab_frame, text=med_name)
-
-            # Configure tab layout
-            tab_frame.grid_columnconfigure(0, weight=1)
-
-            # Quick dose entry section
-            entry_frame = ttk.LabelFrame(tab_frame, text="Add New Dose", padding="10")
-            entry_frame.grid(row=0, column=0, sticky="ew", padx=10, pady=5)
-            entry_frame.grid_columnconfigure(1, weight=1)
-
-            ttk.Label(entry_frame, text="Dose amount:").grid(
-                row=0, column=0, sticky="w"
-            )
-
-            dose_entry_var = tk.StringVar()
-            vars_dict[f"{med_key}_entry_var"] = dose_entry_var
-
-            dose_entry = ttk.Entry(entry_frame, textvariable=dose_entry_var, width=15)
-            dose_entry.grid(row=0, column=1, sticky="w", padx=(10, 10))
-
-            # Quick dose buttons
-            quick_frame = ttk.Frame(entry_frame)
-            quick_frame.grid(row=0, column=2, sticky="w")
-
-            # Common dose amounts (customize per medicine)
-            quick_doses = self._get_quick_doses(med_key)
-            for i, dose in enumerate(quick_doses):
-                ttk.Button(
-                    quick_frame,
-                    text=dose,
-                    width=8,
-                    command=lambda d=dose, var=dose_entry_var: var.set(d),
-                ).grid(row=0, column=i, padx=2)
-
-            # Take dose button
-            def create_take_dose_command(med_name, entry_var, med_key):
-                def take_dose():
-                    self._take_dose(med_name, entry_var, med_key, vars_dict)
-
-                return take_dose
-
-            take_button = ttk.Button(
-                entry_frame,
-                text=f"Take {med_name}",
-                style="Accent.TButton",
-                command=create_take_dose_command(med_name, dose_entry_var, med_key),
-            )
-            take_button.grid(row=1, column=0, columnspan=3, pady=(10, 0), sticky="ew")
-
-            # Dose history section
-            history_frame = ttk.LabelFrame(
-                tab_frame, text="Today's Doses", padding="10"
-            )
-            history_frame.grid(row=1, column=0, sticky="ew", padx=10, pady=5)
-            history_frame.grid_columnconfigure(0, weight=1)
-
-            # Dose history display with fixed height to prevent excessive expansion
-            dose_text = tk.Text(
-                history_frame,
-                height=4,  # Reduced height to fit better in scrollable window
-                wrap=tk.WORD,
-                font=("Consolas", 10),
-                state="normal",  # Start enabled
-            )
-            dose_text.grid(row=0, column=0, sticky="ew")
-
-            # Store raw dose string in a variable
-            doses_str = dose_data.get(med_key, "")
-            dose_str_var = tk.StringVar(value=doses_str)
-            vars_dict[f"{med_key}_doses_str"] = dose_str_var
-
-            # Populate with existing doses
-            self._populate_dose_history(dose_text, dose_str_var.get())
-
-            vars_dict[f"{med_key}_doses_text"] = dose_text
-
-            # Scrollbar for dose history
-            dose_scroll = ttk.Scrollbar(
-                history_frame, orient="vertical", command=dose_text.yview
-            )
-            dose_scroll.grid(row=0, column=1, sticky="ns")
-            dose_text.configure(yscrollcommand=dose_scroll.set)
-
-        return vars_dict
-
-    def _create_medicine_section_dynamic(
         self, parent: ttk.Frame, medicine_values: dict[str, int]
     ) -> dict[str, tk.IntVar]:
         """Create medicine checkboxes dynamically."""
@@ -1120,7 +784,7 @@ class UIManager:
 
         return vars_dict
 
-    def _create_dose_tracking_dynamic(
+    def _create_dose_tracking(
         self, parent: ttk.Frame, medicine_doses: dict[str, str]
     ) -> dict[str, Any]:
         """Create dose tracking interface dynamically."""
@@ -1398,9 +1062,33 @@ class UIManager:
 
             # Get note text from Text widget
             note_text_widget = vars_dict.get("note_text")
+            self.logger.debug(f"note_text_widget found: {note_text_widget is not None}")
+            self.logger.debug(f"vars_dict keys: {list(vars_dict.keys())}")
+
             note_content = ""
             if note_text_widget:
-                note_content = note_text_widget.get(1.0, tk.END).strip()
+                try:
+                    note_content = note_text_widget.get(1.0, tk.END).strip()
+                    self.logger.debug(f"Note content from widget: '{note_content}'")
+                except Exception as e:
+                    self.logger.error(f"Error getting note from text widget: {e}")
+                    # Fallback to StringVar
+                    note_var = vars_dict.get("note")
+                    if note_var:
+                        note_content = note_var.get()
+                        self.logger.debug(
+                            f"Note content from StringVar fallback: '{note_content}'"
+                        )
+            else:
+                # Fallback to StringVar if note_text widget not found
+                note_var = vars_dict.get("note")
+                if note_var:
+                    note_content = note_var.get()
+                    self.logger.debug(f"Note content from StringVar: '{note_content}'")
+                else:
+                    self.logger.error("No note widget or StringVar found!")
+
+            self.logger.debug(f"Final note_content: '{note_content}'")
 
             # Extract dose data dynamically from all medicines
             dose_data = {}

uv.lock

@@ -698,7 +698,7 @@ wheels = [
 
 [[package]]
 name = "thechart"
-version = "1.6.1"
+version = "1.7.5"
 source = { virtual = "." }
 dependencies = [
     { name = "colorlog" },