ChainForge/chainforge/oaievals/geometry_puzzle.cforge

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TypeScript backend, HuggingFace models, JavaScript evaluators, Comment Nodes, and more (#81) * Beginning to convert Python backend to Typescript * Change all fetch() calls to fetch_from_backend switcher * wip converting query.py to query.ts * wip started utils.js conversion. Tested that OpenAI API call works * more progress on converting utils.py to Typescript * jest tests for query, utils, template.ts. Confirmed PromptPipeline works. * wip converting queryLLM in flask_app to TS * Tested queryLLM and StorageCache compressed saving/loading * wip execute() in backend.ts * Added execute() and tested w concrete func. Need to test eval() * Added craco for optional webpack config. Config'd for TypeScript with Node.js packages browserify'd * Execute JS code on iframe sandbox * Tested and working JS Evaluator execution. * wip swapping backends * Tested TypeScript backendgit status! :) woot * Added fetchEnvironAPIKeys to Flask server to fetch os.environ keys when running locally * Route Anthropic calls through Flask when running locally * Added info button to Eval nodes. Rebuilt react * Edits to info modal on Eval node * Remove/error out on Python eval nodes when not running locally. * Check browser compat and display error if not supported * Changed all example flows to use JS. Bug fix in query.ts * Refactored to LLMProvider to streamline model additions * Added HuggingFace models API * Added back Dalai call support, routing through Flask * Remove flask app calls and socketio server that are no longer used * Added Comment Nodes. Rebuilt react. * Fix PaLM temp=0 build, update package vers and rebuild react
2023-06-30 15:11:20 -04:00
{"flow": {"nodes": [{"width": 312, "height": 311, "id": "prompt-geometry_puzzle", "type": "prompt", "data": {"prompt": "{prompt}", "n": 1, "llms": [{"key": "aa3c0f03-22bd-416e-af4d-4bf5c4278c99", "settings": {"system_msg": "Solve the following geometry question.", "temperature": 1, "functions": [], "function_call": "", "top_p": 1, "stop": [], "presence_penalty": 0, "frequency_penalty": 0}, "name": "GPT3.5", "emoji": "\ud83d\ude42", "model": "gpt-3.5-turbo", "base_model": "gpt-3.5-turbo", "temp": 1, "formData": {"shortname": "GPT3.5", "model": "gpt-3.5-turbo", "system_msg": "Solve the following geometry question.", "temperature": 1, "functions": "", "function_call": "", "top_p": 1, "stop": "", "presence_penalty": 0, "frequency_penalty": 0}}]}, "position": {"x": 448, "y": 224}, "selected": false, "positionAbsolute": {"x": 448, "y": 224}, "dragging": false}, {"width": 333, "height": 182, "id": "eval-geometry_puzzle", "type": "evaluator", "data": {"code": "function evaluate(response) {\n\tlet ideal = response.meta['Ideal'];\n\treturn response.text.includes(ideal);\n}", "language": "javascript"}, "position": {"x": 820, "y": 150}, "positionAbsolute": {"x": 820, "y": 150}}, {"width": 228, "height": 196, "id": "vis-geometry_puzzle", "type": "vis", "data": {"input": "eval-geometry_puzzle"}, "position": {"x": 1200, "y": 250}, "positionAbsolute": {"x": 1200, "y": 250}}, {"width": 302, "height": 260, "id": "inspect-geometry_puzzle", "type": "inspect", "data": {"input": "prompt-geometry_puzzle"}, "position": {"x": 820, "y": 400}, "positionAbsolute": {"x": 820, "y": 400}}, {"width": 423, "height": 417, "id": "table-geometry_puzzle", "type": "table", "data": {"rows": [{"prompt": "Consider a plane on which 5 distinct circle(s) and 5 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[80]"}, {"prompt": "Consider a plane on which 6 distinct circle(s) and 5 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[100]"}, {"prompt": "Consider a plane on which 7 distinct circle(s) and 5 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[122]"}, {"prompt": "Consider a plane on which 8 distinct circle(s) and 5 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[146]"}, {"prompt": "Consider a plane on which 9 distinct circle(s) and 5 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[172]"}, {"prompt": "Consider a plane on which 10 distinct circle(s) and 5 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[200]"}, {"prompt": "Consider a plane on which 5 distinct circle(s) and 6 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[95]"}, {"prompt": "Consider a plane on which 6 distinct circle(s) and 6 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[117]"}, {"prompt": "Consider a plane on which 7 distinct circle(s) and 6 line(s) are drawn. Calculate the maximum number of points of intersection that can be achieved between these geometrical figures. Put your final answer inside brackets([]).", "ideal": "[141]"}, {"prompt": "Consider a plane on which 8 distinct circle(s) and 6 line(s) are drawn.