- Added new configuration options for the `body_history_viz` widget, including visibility settings for various charts and KPIs.
- Implemented default values for the widget's configuration to streamline user experience.
- Enhanced validation logic to ensure proper handling of configuration inputs, including error handling for unknown keys and visibility requirements.
- Updated tests to cover new configuration scenarios and validation rules for the `body_history_viz` widget.
- Bumped application version to reflect these changes.
- Added the `merge_missing_catalog_widgets` function to append missing widget IDs from the catalog to the dashboard layout while preserving the existing order.
- Updated the admin and app dashboard routes to utilize the new function, ensuring that new catalog entries are visible without requiring users to reset their layouts.
- Enhanced tests to validate the functionality of the new merging logic, ensuring proper integration with existing layouts.
- Bumped application version to reflect these changes.
- Introduced the `body_history_viz` widget to the dashboard, allowing users to visualize body history data.
- Updated widget configuration to include `body_history_viz` in the allowed widgets and added validation for its configuration.
- Enhanced the widget catalog with details for the new `body_history_viz` entry.
- Added tests to ensure proper validation of the `body_history_viz` widget configuration.
- Updated application version to reflect the addition of the new widget.
- Updated the `_correlate_energy_weight` function to streamline the unpacking of the `best` variable, removing unnecessary tuple elements for improved clarity and efficiency in the correlation logic.
- Added `safe_float` utility to enhance float handling in correlation calculations, preventing potential errors.
- Refactored lag correlation logic in `get_history_overview_viz_bundle` to utilize absolute values safely, improving accuracy in metric comparisons.
- Enhanced nutrition body merge logic to ensure proper date handling and data integrity, optimizing the retrieval of nutrition and weight logs.
- Introduced new functions in the frontend for processing lag details, improving the visualization of correlation data in the History page.
- Updated `calculate_lag_correlation` to include detailed interpretations and lag details for energy balance vs. weight change, protein vs. lean mass, and load vs. vital metrics.
- Improved handling of insufficient data scenarios in correlation charts, providing clearer messages and metadata for user insights.
- Refactored chart functions to utilize best lag values and correlation data more effectively, enhancing the visualization of relationships between metrics.
- Bumped application version to 0.9t and updated changelog with new features.
- Integrated new chart payloads for energy balance, protein adequacy, and nutrition adherence to optimize data retrieval and reduce HTTP requests.
- Updated NutritionCharts component to utilize prefetched chart payloads, improving loading efficiency and user experience.
- Refactored History page to pass chart payloads, enhancing the visualization of nutrition trends without additional requests.
- Bumped application version to 0.9s and updated changelog with new features.
- Introduced `_weight_trend_kpi` function to analyze weight trends and provide verdicts based on historical data.
- Updated `get_body_history_viz_bundle` to include the new weight trend KPI, improving insights on weight changes.
- Refactored the History component to utilize the new trend KPI, enhancing user experience with clearer weight trend interpretations.
- Bumped application version to 0.9r and updated build date to 2026-04-20.
- Added a new endpoint `/activity-last-updated` to retrieve the last activity date for a user, optimizing data retrieval for activity history.
- Updated the frontend to utilize the new endpoint, enhancing the ActivitySection with the last activity date display.
- Refactored the History component to streamline data loading and improve user experience with activity insights.
- Refactored the `calculate_lag_correlation` function to normalize lag payloads and improve correlation calculations for various nutrition metrics.
- Introduced a new function `build_nutrition_correlation_heuristic_items` to generate heuristic insights based on merged nutrition data, enhancing user understanding of dietary impacts on weight and body composition.
- Updated the `get_nutrition_history_viz_bundle` function to include daily calorie balance and protein vs. lean mass data, providing a comprehensive view of nutrition trends.
- Enhanced the frontend to visualize calorie balance and protein vs. lean mass insights, improving the user experience with clear graphical representations of dietary correlations.
- Modified the `build_sleep_debt_chart_payload` function to correctly handle date types, ensuring only valid dates are processed.
- Enhanced the logic to append today's date and current debt value to the chart data if the last recorded date is earlier than today, aligning the chart with KPI metrics.
- Updated metadata calculations to reflect the correct number of data points based on labels, improving the accuracy of the recovery chart payload.
- Introduced new constants for sleep debt calculations, including target hours and rolling window days.
- Added a function to calculate sleep debt over a specified window, aligning with KPI logic.
- Updated SQL queries in recovery chart payloads to ensure accurate data retrieval for sleep metrics.
- Enhanced the RecoveryDashboardOverview component to reflect changes in sleep debt visualization and descriptions, improving user understanding of metrics.
- Refined chart labels and notes for clarity, ensuring users can easily interpret recovery and sleep data.
- Added an `include_avg_sleep_kpi` parameter to the `build_recovery_dashboard_kpi_tiles` function to conditionally include average sleep data in the dashboard.
- Updated the `get_recovery_dashboard_viz_bundle` function to pass the new parameter, ensuring flexibility in data presentation.
- Refactored the insights generation in the `vitals_fitness_insights.py` file to utilize a new structured approach for better organization of heart and VO2 insights.
- Introduced new components in the frontend for displaying insights, improving the user experience and clarity of vital metrics.
- Removed unnecessary snapshot key omission in the `build_vital_signs_matrix_chart_payload` function for improved data clarity.
- Introduced new components for better organization and presentation of vital signs insights, including `SectionHeading` and `VitalZoneHint`.
- Enhanced axis tick formatting in the `RecoveryDashboardOverview` component for clearer data representation.
- Updated narrative rendering logic to improve user experience and contextual understanding of vital metrics.
- Introduced `_de_num` and `_de_num_signed` functions for formatting decimal numbers with a comma, improving text presentation in German.
- Updated `_build_consolidated_paragraphs` to utilize new formatting functions for HRV and resting heart rate comparisons, enhancing clarity in insights.
- Refined narrative descriptions for better contextual understanding of vital signs trends and their implications.
- Updated the `build_vital_signs_matrix_chart_payload` function to accept optional keys for omitting specific snapshot data, improving flexibility in data presentation.
- Enhanced the `build_recovery_dashboard_kpi_tiles` function to conditionally merge heart and autonomic tiles based on new parameters, refining the dashboard's insights.
- Integrated new analytics features in the `RecoveryDashboardOverview` component, including consolidated paragraphs for better narrative context and visual representation of trends.
- Improved the handling of vital signs data in the frontend, ensuring clearer messaging and enhanced user experience when displaying vital metrics.
- Integrated the `build_vitals_history_and_analytics` function into the recovery dashboard to provide historical insights on vital signs.
- Updated the `get_recovery_dashboard_viz_bundle` function to include a new chart for vitals history, enhancing the data visualization capabilities.
- Enhanced the `RecoveryDashboardOverview` component to render vitals history, including improved messaging for insufficient data and visual representation of trends.
- Introduced a new function `_merge_vitals_baseline_rows` to streamline the retrieval and merging of vital signs data, ensuring the latest non-empty values are prioritized.
- Updated SQL queries in `build_vital_signs_matrix_chart_payload` to enhance data retrieval efficiency and accuracy.
- Refactored the `renderVitalSigns` function in the `RecoveryDashboardOverview` component to improve handling of vital signs data, including better fallback messaging and chart rendering logic.
- Enhanced user feedback by providing clearer messages when no vital data is available, improving overall user experience.
- Introduced new functions to handle vital signs data retrieval and processing, including fallback mechanisms for missing values.
- Updated SQL queries in `build_vital_signs_matrix_chart_payload` to improve date filtering and data accuracy.
- Enhanced the frontend `RecoveryDashboardOverview` component to display vital signs with contextual coloring based on health tones.
- Adjusted the data structure for chart rendering, ensuring a more informative and visually appealing representation of vital metrics.
- Modified the SQL query in `build_vital_signs_matrix_chart_payload` to use `measured_at::date` for date comparisons, ensuring correct data retrieval based on the measurement date.
- Adjusted the order of results to sort by `measured_at` instead of `date`, improving the accuracy of the latest vital signs data fetched.
- Changed SQL queries in `build_sleep_duration_quality_chart_payload` and `build_sleep_debt_chart_payload` to select `duration_minutes` instead of `total_sleep_min`.
- Updated calculations for sleep duration and quality scores to reflect the new field names, ensuring accurate data representation in the recovery charts.
- Added a new endpoint for the recovery dashboard visualization in `charts.py`, integrating multiple recovery metrics and insights.
- Implemented the `get_recovery_dashboard_viz` function to streamline data retrieval for recovery-related charts.
- Refactored the `RecoveryCharts` component to utilize the new `RecoveryDashboardOverview`, simplifying the component structure and enhancing maintainability.
- Updated the `RecoveryChartsPanelWidget` and `History` page to reflect the new recovery dashboard, improving user navigation and experience.
- Deprecated the old recovery charts component, encouraging the use of the new overview for better data presentation.
- Refactored the `calculate_proxy_internal_load_7d` function to `calculate_proxy_internal_load_window`, allowing for dynamic day range input.
- Introduced new functions for calculating training volume deltas and building fitness progress insights, enhancing user feedback on training metrics.
- Updated the fitness dashboard to include new charts for quality sessions and load monitoring, improving data visualization.
- Integrated these new metrics into the fitness dashboard overview, providing users with comprehensive insights into their training performance.
- Streamlined the router to utilize the new chart-building functions, ensuring consistency and maintainability across the application.
- Added new functions to build fitness dashboard visualizations, including weekly training volume and training type distribution charts.
- Updated the `charts.py` router to include a new endpoint for the fitness dashboard, integrating data from activity metrics.
- Refactored existing activity-related functions to improve modularity and maintainability.
- Updated frontend components to reflect the new fitness terminology and integrate the fitness dashboard overview, enhancing user experience.
- Added `get_energy_availability_warning_payload` function to assess energy availability and provide contextual warnings based on multiple health indicators.
- Integrated energy availability KPI tile into the nutrition history visualization, enhancing user insights on energy balance.
- Updated frontend components to conditionally display the energy availability warning, improving user experience and data interpretation.
- Refactored existing logic in `charts.py` to utilize the new energy availability functionality, streamlining data handling.
- Added contextual hints to KPI tiles in the nutrition interpretation to provide users with actionable insights regarding protein intake and weight assessment.
- Updated the KpiTilesOverview component to display these hints, improving user understanding of nutrition metrics.
- Introduced a new KcalVsWeightLegend component to clarify chart data representation, enhancing the overall user experience in the history visualization.
- Changed color codes for macro nutrients in the nutrition interpretation and metrics files to improve visual consistency.
- Added new CSS styles for uniform chart height and layout adjustments in the frontend components, enhancing the overall user experience.
- Refactored the NutritionCharts component to utilize the new macro chart theme for better maintainability and readability.
- Added a new `nutrition_interpretation.py` file to handle KPI tile generation for nutrition history.
- Introduced `nutrition_viz.py` to create a visualization bundle for nutrition data, integrating metrics and historical analysis.
- Implemented `get_nutrition_history_viz` endpoint in `charts.py` to serve the new visualization data.
- Updated frontend components to fetch and display nutrition history data, enhancing user experience with detailed insights.
- Refactored existing logic to streamline data handling and improve overall performance.
- Updated the `get_body_history_viz_bundle` function to retrieve the two most recent circumference measurements for improved data accuracy.
- Refactored the handling of previous measurement data to ensure comprehensive interpolation for body metrics.
- Modified frontend labels in the `buildBodyKpiTiles` function to provide clearer descriptions in German, enhancing user understanding of body metrics.
- Introduced a new API endpoint `/body-history-viz` to retrieve body history visualization data.
- Updated the frontend to fetch and display body history data in the `BodySection` component.
- Enhanced the `EvaluationTileGrid` to include related placeholder keys for improved data interpretation.
- Refactored existing logic to streamline data handling and improve user experience.
- Introduced `get_profile_reference_values_current_snapshot` and `get_profile_reference_values_recent_snapshot` functions to retrieve current and recent reference values for profiles.
- Updated the placeholder resolver to include new placeholders for current and recent reference values.
- Added new API endpoints for fetching current and recent reference values snapshots.
- Enhanced the frontend API utility to support the new snapshot endpoints.
- Improved unit tests to validate the new data layer functions and their behavior.
- Introduced `c_arm_relaxed` to the CircumferenceEntry model for tracking relaxed arm measurements.
- Updated database schema to include `c_arm_relaxed` in the circumference_log table.
- Implemented calculation for 28-day relaxed arm circumference change with `calculate_arm_relaxed_28d_delta`.
- Enhanced placeholder resolver and registration to support new relaxed arm measurement.
- Updated frontend components to accommodate the new measurement, including forms and CSV exports.
- Improved documentation and guide data to reflect the addition of relaxed arm measurements.
- Added `taken_at` timestamp to the photos table for improved photo metadata.
- Updated the photo upload API to support optional EXIF data extraction and file last modified timestamp.
- Enhanced the photo upload process to allow skipping EXIF data, defaulting to today's date if no other date is provided.
- Improved the photo display in various components to utilize a unified caption format.
- Refactored photo sorting and grouping logic for better organization in the UI.
- Added a new `resolve_photo_path` function to handle legacy and new photo paths effectively.
- Updated the photo upload process to store only filenames in the database, improving path resolution.
- Enhanced the photo retrieval and deletion processes to utilize the new path resolution logic.
- Introduced a dedicated PhotosCapturePage for managing photo uploads and viewing.
- Updated the dashboard and navigation to include links to the new photo management features.
- Improved the photo grid display with sorting and deletion capabilities for better user experience.
- Updated `_normalize_metric_value_for_read` to compact numeric strings and ensure consistent formatting for string data types.
- Enhanced `normalize_prompt_number` to handle numeric strings and non-finite float values effectively.
- Improved unit tests to validate the new normalization behavior for session metrics and scalar formatting.
- Introduced `format_scalar_for_prompt_text` function to standardize the representation of scalar values in activity summaries and details.
- Updated `get_activity_summary` and `get_activity_detail` functions to utilize the new formatting for improved readability.
- Added normalization for float values in session metrics to prevent excessively long representations.
- Enhanced unit tests to verify the new formatting and normalization behavior.
- Integrated compact JSON payload generation for session metrics in `get_training_sessions_recent_weeks_data`.
- Updated the registration of activity session insights to reflect the new compact format for session metrics.
- Improved documentation to clarify the structure and semantics of the session metrics in the JSON output.
- Added normalization for prompt numbers to ensure consistent formatting in the metrics.
- Added `resolve_effective_csv_delimiter` function to determine the correct delimiter based on the uploaded file and template.
- Updated CSV import logic to utilize the new delimiter resolution method, ensuring accurate parsing of CSV files with varying delimiters.
- Enhanced documentation to reflect changes in delimiter handling.
- Added unit tests for the new delimiter resolution functionality.
- Changed progress callback from "execution_complete" to "workflow_graph_finished" to provide intermediate updates.
- Updated documentation to clarify the distinction between "workflow_graph_finished" and "execution_complete".
- Adjusted frontend API handling to accommodate new event structure and ensure proper result serialization.
Root cause: FastAPI matches routes in definition order. The /{prompt_id}
catch-all at line 257 was intercepting /execute-stream requests before
the specific route handler could match.
Fix: Moved execute-stream definition (with section header + imports)
to line 257, before the catch-all route (now at line 414).
This resolves the 'Connection to server lost' error in SSE streaming.
- /execute-stream now at line 260 (was 1448)
- /{prompt_id} now at line 410 (was 257)
- FastAPI will now match /execute-stream correctly
- Fixes 'Connection to server lost' error in analysis page
ROOT CAUSE FOUND:
FastAPI matches routes in ORDER. The catch-all route /{prompt_id} at line 257
matches /execute-stream BEFORE the specific route at line 1448 can match.
Result: /api/prompts/execute-stream gets routed to get_prompt() which tries
to parse 'execute-stream' as a UUID, causing the error we've been seeing.
SOLUTION: Move /execute-stream route definition to BEFORE line 257 (before /{prompt_id})
This explains why require_auth_flexible was never called - the wrong endpoint
was being invoked entirely.
