c5738a2513
This commit introduces a comprehensive set of skipped tests to both and . These skipped tests serve as a blueprint for future test implementation, outlining the necessary test cases for currently untested functionalities.
- Ensures sync with bin/ folder by adding -r/--research to the command
- Fixes an issue that improperly parsed command line args
- Ensures confirmation card on dependency add/remove
- Properly formats some sub-task dependencies
**Potentially addressed issues:**
While primarily focused on adding test coverage, this commit also implicitly addresses potential issues by:
- **Improving error handling coverage:** The addition of skipped tests for error scenarios in functions like , , , and highlights areas where error handling needs to be robustly tested and potentially improved in the codebase.
- **Enhancing dependency validation:** Skipped tests for include validation of dependencies, prompting a review of the dependency validation logic and ensuring its correctness.
- **Standardizing test coverage:** By creating a clear roadmap for testing all functions, this commit contributes to a more standardized and complete test suite, reducing the likelihood of undiscovered bugs in the future.
**task-manager.test.js:**
- Added skipped test blocks for the following functions:
- : Includes tests for handling valid JSON responses, malformed JSON, missing tasks in responses, Perplexity AI research integration, Claude fallback, and parallel task processing.
- : Covers tests for updating tasks based on context, handling Claude streaming, Perplexity AI integration, scenarios with no tasks to update, and error handling during updates.
- : Includes tests for generating task files from , formatting dependencies with status indicators, handling tasks without subtasks, empty task arrays, and dependency validation before file generation.
- : Covers tests for updating task status, subtask status using dot notation, updating multiple tasks, automatic subtask status updates, parent task update suggestions, and handling non-existent task IDs.
- : Includes tests for updating regular and subtask statuses, handling parent tasks without subtasks, and non-existent subtask IDs.
- : Covers tests for displaying all tasks, filtering by status, displaying subtasks, showing completion statistics, identifying the next task, and handling empty task arrays.
- : Includes tests for generating subtasks, using complexity reports for subtask counts, Perplexity AI integration, appending subtasks, skipping completed tasks, and error handling during subtask generation.
- : Covers tests for expanding all pending tasks, sorting by complexity, skipping tasks with existing subtasks (unless forced), using task-specific parameters from complexity reports, handling empty task arrays, and error handling for individual tasks.
- : Includes tests for clearing subtasks from specific and multiple tasks, handling tasks without subtasks, non-existent task IDs, and regenerating task files after clearing subtasks.
- : Covers tests for adding new tasks using AI, handling Claude streaming, validating dependencies, handling malformed AI responses, and using existing task context for generation.
**utils.test.js:**
- Added skipped test blocks for the following functions:
- : Tests for logging messages according to log levels and filtering messages below configured levels.
- : Tests for reading and parsing valid JSON files, handling file not found errors, and invalid JSON formats.
- : Tests for writing JSON data to files and handling file write errors.
- : Tests for escaping double quotes in prompts and handling prompts without special characters.
- : Tests for reading and parsing complexity reports, handling missing report files, and custom report paths.
- : Tests for finding tasks in reports by ID, handling non-existent task IDs, and invalid report structures.
- : Tests for verifying existing task and subtask IDs, handling non-existent IDs, and invalid inputs.
- : Tests for formatting numeric and string task IDs and preserving dot notation for subtasks.
- : Tests for detecting simple and complex cycles in dependency graphs, handling acyclic graphs, and empty dependency maps.
These skipped tests provide a clear roadmap for future test development, ensuring comprehensive coverage for core functionalities in both modules. They document the intended behavior of each function and outline various scenarios, including happy paths, edge cases, and error conditions, thereby improving the overall test strategy and maintainability of the Task Master CLI.
50 lines
3.2 KiB
Plaintext
50 lines
3.2 KiB
Plaintext
# Task ID: 9
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# Title: Integrate Perplexity API
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# Status: done
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# Dependencies: 5
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# Priority: low
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# Description: Add integration with Perplexity API for research-backed task generation.
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# Details:
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Implement Perplexity integration including:
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- API authentication via OpenAI client
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- Create research-oriented prompt templates
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- Implement response handling for Perplexity
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- Add fallback to Claude when Perplexity is unavailable
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- Implement response quality comparison logic
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- Add configuration for model selection
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# Test Strategy:
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Test connectivity to Perplexity API. Verify research-oriented prompts return useful information. Test fallback mechanism by simulating Perplexity API unavailability.
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# Subtasks:
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## 1. Implement Perplexity API Authentication Module [done]
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### Dependencies: None
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### Description: Create a dedicated module for authenticating with the Perplexity API using the OpenAI client library. This module should handle API key management, connection setup, and basic error handling. Implement environment variable support for the PERPLEXITY_API_KEY and PERPLEXITY_MODEL variables with appropriate defaults as specified in the PRD. Include a connection test function to verify API access.
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### Details:
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## 2. Develop Research-Oriented Prompt Templates [done]
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### Dependencies: None
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### Description: Design and implement specialized prompt templates optimized for research tasks with Perplexity. Create a template system that can generate contextually relevant research prompts based on task information. These templates should be structured to leverage Perplexity's online search capabilities and should follow the Research-Backed Expansion Prompt Structure defined in the PRD. Include mechanisms to control prompt length and focus.
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### Details:
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## 3. Create Perplexity Response Handler [done]
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### Dependencies: None
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### Description: Implement a specialized response handler for Perplexity API responses. This should parse and process the JSON responses from Perplexity, extract relevant information, and transform it into the task data structure format. Include validation to ensure responses meet quality standards and contain the expected information. Implement streaming response handling if supported by the API client.
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### Details:
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## 4. Implement Claude Fallback Mechanism [done]
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### Dependencies: None
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### Description: Create a fallback system that automatically switches to the Claude API when Perplexity is unavailable or returns errors. This system should detect API failures, rate limiting, or quality issues with Perplexity responses and seamlessly transition to using Claude with appropriate prompt modifications. Implement retry logic with exponential backoff before falling back to Claude. Log all fallback events for monitoring.
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### Details:
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## 5. Develop Response Quality Comparison and Model Selection [done]
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### Dependencies: None
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### Description: Implement a system to compare response quality between Perplexity and Claude, and provide configuration options for model selection. Create metrics for evaluating response quality (e.g., specificity, relevance, actionability). Add configuration options that allow users to specify which model to use for different types of tasks. Implement a caching mechanism to reduce API calls and costs when appropriate.
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### Details:
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