# markup module that provides marked up text and a plot for the explanations # external imports import numpy as np from numpy import ndarray # internal imports from utils import formatting as fmt def markup_text(input_text: list, text_values: ndarray, variant: str): bucket_tags = ["-5", "-4", "-3", "-2", "-1", "0", "+1", "+2", "+3", "+4", "+5"] # Flatten the explanations values if variant == "shap": text_values = np.transpose(text_values) text_values = fmt.flatten_values(text_values) # Determine the minimum and maximum values min_val, max_val = np.min(text_values), np.max(text_values) # Separate the threshold calculation for negative and positive values if variant == "visualizer": neg_thresholds = np.linspace( 0, 0, num=(len(bucket_tags) - 1) // 2 + 1, endpoint=False )[1:] else: neg_thresholds = np.linspace( min_val, 0, num=(len(bucket_tags) - 1) // 2 + 1, endpoint=False )[1:] pos_thresholds = np.linspace(0, max_val, num=(len(bucket_tags) - 1) // 2 + 1)[1:] thresholds = np.concatenate([neg_thresholds, [0], pos_thresholds]) marked_text = [] # Function to determine the bucket for a given value for text, value in zip(input_text, text_values): bucket = "-5" for i, threshold in zip(bucket_tags, thresholds): if value >= threshold: bucket = i marked_text.append((text, str(bucket))) return marked_text def color_codes(): return { # 1-5: Strong Light Sky Blue to Lighter Sky Blue "-5": "#3251a8", # Strong Light Sky Blue "-4": "#5A7FB2", # Slightly Lighter Sky Blue "-3": "#8198BC", # Intermediate Sky Blue "-2": "#A8B1C6", # Light Sky Blue "-1": "#E6F0FF", # Very Light Sky Blue "0": "#FFFFFF", # White "+1": "#FFE6F0", # Lighter Pink "+2": "#DF8CA3", # Slightly Stronger Pink "+3": "#D7708E", # Intermediate Pink "+4": "#CF5480", # Deep Pink "+5": "#A83273", # Strong Magenta }