import json import os import re import sys from pathlib import Path import numpy as np from datasets import Value import logging REGEX_YAML_BLOCK = re.compile(r"---[\n\r]+([\S\s]*?)[\n\r]+---[\n\r]") def infer_gradio_input_types(feature_types): """ Maps metric feature types to input types for gradio Dataframes: - float/int -> numbers - string -> strings - any other -> json Note that json is not a native gradio type but will be treated as string that is then parsed as a json. """ input_types = [] for feature_type in feature_types: input_type = "json" if isinstance(feature_type, Value): if feature_type.dtype.startswith("int") or feature_type.dtype.startswith("float"): input_type = "number" elif feature_type.dtype == "string": input_type = "str" input_types.append(input_type) return input_types def json_to_string_type(input_types): """Maps json input type to str.""" return ["str" if i == "json" else i for i in input_types] def parse_readme(filepath): """Parses a repositories README and removes""" if not os.path.exists(filepath): return "No README.md found." with open(filepath, "r") as f: text = f.read() match = REGEX_YAML_BLOCK.search(text) if match: text = text[match.end() :] return text def parse_gradio_data(data, input_types): """Parses data from gradio Dataframe for use in metric.""" metric_inputs = {} data.replace("", np.nan, inplace=True) data.dropna(inplace=True) for feature_name, input_type in zip(data, input_types): if input_type == "json": metric_inputs[feature_name] = [json.loads(d) for d in data[feature_name].to_list()] elif input_type == "str": metric_inputs[feature_name] = [d.strip('"') for d in data[feature_name].to_list()] else: metric_inputs[feature_name] = data[feature_name] return metric_inputs def parse_test_cases(test_cases, feature_names, input_types): """ Parses test cases to be used in gradio Dataframe. Note that an apostrophe is added to strings to follow the format in json. """ if len(test_cases) == 0: return None examples = [] for test_case in test_cases: parsed_cases = [] for feat, input_type in zip(feature_names, input_types): if input_type == "json": parsed_cases.append([str(element) for element in test_case[feat]]) elif input_type == "str": parsed_cases.append(['"' + element + '"' for element in test_case[feat]]) else: parsed_cases.append(test_case[feat]) examples.append([list(i) for i in zip(*parsed_cases)]) return examples def launch_gradio_widget2(metric): """Launches `metric` widget with Gradio.""" try: import gradio as gr except ImportError as error: logging.error("To create a metric widget with Gradio make sure gradio is installed.") raise error local_path = Path(sys.path[0]) # if there are several input types, use first as default. if isinstance(metric.features, list): (feature_names, feature_types) = zip(*metric.features[0].items()) else: (feature_names, feature_types) = zip(*metric.features.items()) gradio_input_types = infer_gradio_input_types(feature_types) def compute(data): return metric.compute(**parse_gradio_data(data, gradio_input_types)) iface = gr.Interface( fn=compute, inputs=gr.Dataframe( headers=feature_names, col_count=len(feature_names), row_count=1, datatype=json_to_string_type(gradio_input_types), ), outputs=gr.Textbox(label=metric.name), description=( metric.info.description + "\nIf this is a text-based metric, make sure to wrap you input in double quotes." " Alternatively you can use a JSON-formatted list as input." ), title=f"Metric: {metric.name}", article=parse_readme(local_path / "README.md"), # TODO: load test cases and use them to populate examples # examples=[parse_test_cases(test_cases, feature_names, gradio_input_types)] ) iface.launch(share=True)