Hugging Face's logo

Spaces:
satyaki-mitra
/
AI_Text_Authenticator
Running

App Files Community
AI_Text_Authenticator / detector /highlighter.py
satyaki-mitra's picture
satyaki-mitra
Updated UI
69256da
raw
history blame contribute delete
55.7 kB
 # DEPENDENCIES
import re
from typing import List
from typing import Dict
from typing import Tuple
from loguru import logger
from typing import Optional
from dataclasses import dataclass
from config.threshold_config import Domain
from metrics.base_metric import MetricResult
from detector.ensemble import EnsembleResult
from detector.ensemble import EnsembleClassifier
from processors.text_processor import TextProcessor
from config.threshold_config import ConfidenceLevel
from config.threshold_config import MetricThresholds
from config.threshold_config import get_confidence_level
from config.threshold_config import get_threshold_for_domain
from config.threshold_config import get_active_metric_weights
@dataclass
class HighlightedSentence:
"""
A sentence with highlighting information
"""
text : str
ai_probability : float
human_probability : float
mixed_probability : float
confidence : float
confidence_level : ConfidenceLevel
color_class : str
tooltip : str
index : int
is_mixed_content : bool
metric_breakdown : Optional[Dict[str, float]] = None
class TextHighlighter:
"""
Generates sentence-level highlighting with ensemble results integration
FEATURES:
- Sentence-level highlighting with confidence scores
- Domain-aware calibration
- Ensemble-based probability aggregation
- Mixed content detection
- Explainable tooltips
- Highlighting metrics calculation
"""
# Color thresholds with mixed content support - FIXED: No gaps
COLOR_THRESHOLDS = [(0.00, 0.10, "very-high-human", "#dcfce7", "Very likely human-written"),
(0.10, 0.25, "high-human", "#bbf7d0", "Likely human-written"),
(0.25, 0.40, "medium-human", "#86efac", "Possibly human-written"),
(0.40, 0.60, "uncertain", "#fef9c3", "Uncertain"),
(0.60, 0.75, "medium-ai", "#fde68a", "Possibly AI-generated"),
(0.75, 0.90, "high-ai", "#fed7aa", "Likely AI-generated"),
(0.90, 1.00, "very-high-ai", "#fecaca", "Very likely AI-generated"),
]
# Mixed content pattern
MIXED_THRESHOLD = 0.25
# Risk weights
RISK_WEIGHTS = {'very-high-ai' : 1.0,
'high-ai' : 0.8,
'medium-ai' : 0.6,
'uncertain' : 0.4,
'medium-human' : 0.2,
'high-human' : 0.1,
'very-high-human' : 0.0,
'mixed-content' : 0.7,
}
def __init__(self, domain: Domain = Domain.GENERAL, ensemble_classifier: Optional[EnsembleClassifier] = None):
"""
Initialize text highlighter with ENSEMBLE INTEGRATION
Arguments:
----------
domain { Domain } : Text domain for adaptive thresholding
ensemble_classifier { EnsembleClassifier } : Optional ensemble for sentence-level analysis
"""
self.text_processor = TextProcessor()
self.domain = domain
self.domain_thresholds = get_threshold_for_domain(domain)
self.ensemble = ensemble_classifier or self._create_default_ensemble()
def _create_default_ensemble(self) -> EnsembleClassifier:
"""
Create default ensemble classifier with proper error handling
"""
try:
return EnsembleClassifier(primary_method = "confidence_calibrated",
fallback_method = "domain_weighted",
)
except Exception as e:
logger.warning(f"Failed to create default ensemble: {e}. Using fallback mode.")
# Return a minimal ensemble or raise based on requirements
return EnsembleClassifier(primary_method = "weighted_average")
def generate_highlights(self, text: str, metric_results: Dict[str, MetricResult], ensemble_result: Optional[EnsembleResult] = None,
enabled_metrics: Optional[Dict[str, bool]] = None, use_sentence_level: bool = True) -> List[HighlightedSentence]:
"""
Generate sentence-level highlights with ensemble integration
Arguments:
----------
text { str } : Original text
metric_results { dict } : Results from all 6 metrics
ensemble_result { EnsembleResult } : Optional document-level ensemble result
enabled_metrics { dict } : Dict of metric_name -> is_enabled
use_sentence_level { bool } : Whether to compute sentence-level probabilities
Returns:
--------
{ list } : List of HighlightedSentence objects
"""
try:
# Validate inputs
if not text or not text.strip():
return self._handle_empty_text(text, metric_results, ensemble_result)
# Get domain-appropriate weights for enabled metrics
if enabled_metrics is None:
enabled_metrics = {name: True for name in metric_results.keys()}
weights = get_active_metric_weights(self.domain, enabled_metrics)
# Split text into sentences with error handling
sentences = self._split_sentences_with_fallback(text)
if not sentences:
return self._handle_no_sentences(text, metric_results, ensemble_result)
# Calculate probabilities for each sentence using ENSEMBLE METHODS
highlighted_sentences = list()
for idx, sentence in enumerate(sentences):
try:
if use_sentence_level:
# Use ENSEMBLE for sentence-level analysis
ai_prob, human_prob, mixed_prob, confidence, breakdown = self._calculate_sentence_ensemble_probability(sentence = sentence,
metric_results = metric_results,
weights = weights,
ensemble_result = ensemble_result,
)
else:
# Use document-level ensemble probabilities
ai_prob, human_prob, mixed_prob, confidence, breakdown = self._get_document_ensemble_probability(ensemble_result = ensemble_result,
metric_results = metric_results,
weights = weights,
)
# Apply domain-specific adjustments with limits
ai_prob = self._apply_domain_specific_adjustments(sentence = sentence,
ai_prob = ai_prob,
sentence_length = len(sentence.split()),
)
# Determine if this is mixed content
is_mixed_content = (mixed_prob > self.MIXED_THRESHOLD)
# Get confidence level
confidence_level = get_confidence_level(confidence)
# Get color class (consider mixed content)
color_class, color_hex, tooltip_base = self._get_color_for_probability(probability = ai_prob,
is_mixed_content = is_mixed_content,
mixed_prob = mixed_prob,
)
# Generate enhanced tooltip
tooltip = self._generate_ensemble_tooltip(sentence = sentence,
ai_prob = ai_prob,
human_prob = human_prob,
mixed_prob = mixed_prob,
confidence = confidence,
confidence_level = confidence_level,
tooltip_base = tooltip_base,
breakdown = breakdown,
is_mixed_content = is_mixed_content,
)
highlighted_sentences.append(HighlightedSentence(text = sentence,
ai_probability = ai_prob,
human_probability = human_prob,
mixed_probability = mixed_prob,
confidence = confidence,
confidence_level = confidence_level,
color_class = color_class,
tooltip = tooltip,
index = idx,
is_mixed_content = is_mixed_content,
metric_breakdown = breakdown,
)
)
except Exception as e:
logger.warning(f"Failed to process sentence {idx}: {e}")
# Add fallback sentence
highlighted_sentences.append(self._create_fallback_sentence(sentence, idx))
return highlighted_sentences
except Exception as e:
logger.error(f"Highlight generation failed: {e}")
return self._create_error_fallback(text, metric_results)
def _handle_empty_text(self, text: str, metric_results: Dict[str, MetricResult], ensemble_result: Optional[EnsembleResult]) -> List[HighlightedSentence]:
"""
Handle empty input text
"""
if ensemble_result:
return [self._create_fallback_sentence(text = "No text content",
index = 0,
ai_prob = ensemble_result.ai_probability,
human_prob = ensemble_result.human_probability,
)
]
return [self._create_fallback_sentence("No text content", 0)]
def _handle_no_sentences(self, text: str, metric_results: Dict[str, MetricResult], ensemble_result: Optional[EnsembleResult]) -> List[HighlightedSentence]:
"""
Handle case where no sentences could be extracted
"""
if (text and (len(text.strip()) > 0)):
# Treat entire text as one sentence
return [self._create_fallback_sentence(text.strip(), 0)]
return [self._create_fallback_sentence("No processable content", 0)]
def _create_fallback_sentence(self, text: str, index: int, ai_prob: float = 0.5, human_prob: float = 0.5) -> HighlightedSentence:
"""
Create a fallback sentence when processing fails
"""
confidence_level = get_confidence_level(0.3)
color_class, _, tooltip_base = self._get_color_for_probability(probability = ai_prob,
is_mixed_content = False,
mixed_prob = 0.0,
)
return HighlightedSentence(text = text,
ai_probability = ai_prob,
human_probability = human_prob,
mixed_probability = 0.0,
confidence = 0.3,
confidence_level = confidence_level,
color_class = color_class,
tooltip = f"Fallback: {tooltip_base}\nProcessing failed for this sentence",
index = index,
is_mixed_content = False,
metric_breakdown = {"fallback": ai_prob},
)
def _create_error_fallback(self, text: str, metric_results: Dict[str, MetricResult]) -> List[HighlightedSentence]:
"""
Create fallback when entire processing fails
"""
return [HighlightedSentence(text = text[:100] + "..." if len(text) > 100 else text,
ai_probability = 0.5,
human_probability = 0.5,
mixed_probability = 0.0,
confidence = 0.1,
confidence_level = get_confidence_level(0.1),
color_class = "uncertain",
tooltip = "Error in text processing",
index = 0,
is_mixed_content = False,
metric_breakdown = {"error": 0.5},
)
]
def _split_sentences_with_fallback(self, text: str) -> List[str]:
"""
Split text into sentences with comprehensive fallback handling
"""
try:
sentences = self.text_processor.split_sentences(text)
filtered_sentences = [s.strip() for s in sentences if len(s.strip()) >= 3]
if filtered_sentences:
return filtered_sentences
# Fallback: split by common sentence endings
fallback_sentences = re.split(r'[.!?]+', text)
fallback_sentences = [s.strip() for s in fallback_sentences if len(s.strip()) >= 3]
if fallback_sentences:
return fallback_sentences
# Ultimate fallback: treat as single sentence if meaningful
if text.strip():
return [text.strip()]
return []
except Exception as e:
logger.warning(f"Sentence splitting failed, using fallback: {e}")
# Return text as single sentence
return [text] if text.strip() else []
def _calculate_sentence_ensemble_probability(self, sentence: str, metric_results: Dict[str, MetricResult], weights: Dict[str, float],
ensemble_result: Optional[EnsembleResult] = None) -> Tuple[float, float, float, float, Dict[str, float]]:
"""
Calculate sentence probabilities using ensemble methods with domain calibration
"""
sentence_length = len(sentence.split())
# Handling short sentences - don't force neutral
if (sentence_length < 3):
# Return probabilities with lower confidence for very short sentences
base_ai_prob = 0.5
# Low confidence for very short sentences
base_confidence = 0.2
breakdown = {"short_sentence" : base_ai_prob}
# Try to get some signal from available metrics
for name, result in metric_results.items():
if ((result.error is None) and (weights.get(name, 0) > 0)):
base_ai_prob = result.ai_probability
breakdown[name] = base_ai_prob
break
return base_ai_prob, 1.0 - base_ai_prob, 0.0, base_confidence, breakdown
# Calculate sentence-level metric results
sentence_metric_results = dict()
breakdown = dict()
for name, doc_result in metric_results.items():
if doc_result.error is None:
try:
# Compute sentence-level probability for this metric
sentence_prob = self._compute_sentence_metric(metric_name = name,
sentence = sentence,
result = doc_result,
weight = weights.get(name, 0.0),
)
# Create sentence-level MetricResult
sentence_metric_results[name] = self._create_sentence_metric_result(metric_name = name,
ai_prob = sentence_prob,
doc_result = doc_result,
sentence_length = sentence_length,
)
breakdown[name] = sentence_prob
except Exception as e:
logger.warning(f"Metric {name} failed for sentence: {e}")
# Use document probability as fallback
breakdown[name] = doc_result.ai_probability
# Use ensemble to combine sentence-level metrics
if sentence_metric_results:
try:
ensemble_sentence_result = self.ensemble.predict(metric_results = sentence_metric_results,
domain = self.domain,
)
return (ensemble_sentence_result.ai_probability,
ensemble_sentence_result.human_probability,
ensemble_sentence_result.mixed_probability,
ensemble_sentence_result.overall_confidence,
breakdown)
except Exception as e:
logger.warning(f"Sentence ensemble failed: {e}")
# Fallback: weighted average
return self._calculate_weighted_probability(metric_results, weights, breakdown)
def _compute_sentence_metric(self, metric_name: str, sentence: str, result: MetricResult, weight: float) -> float:
"""
Compute metric probability for a single sentence using domain-specific thresholds
"""
sentence_length = len(sentence.split())
# Get domain-specific threshold for this metric
metric_thresholds = getattr(self.domain_thresholds, metric_name, None)
if not metric_thresholds:
return result.ai_probability
# Base probability from document-level result
base_prob = result.ai_probability
# Apply domain-aware sentence-level adjustments
adjusted_prob = self._apply_metric_specific_adjustments(metric_name = metric_name,
sentence = sentence,
base_prob = base_prob,
sentence_length = sentence_length,
thresholds = metric_thresholds,
)
return adjusted_prob
def _create_sentence_metric_result(self, metric_name: str, ai_prob: float, doc_result: MetricResult, sentence_length: int) -> MetricResult:
"""
Create sentence-level MetricResult from document-level result
"""
# IMPROVED: Calculate confidence based on sentence characteristics
sentence_confidence = self._calculate_sentence_confidence(doc_result.confidence, sentence_length)
return MetricResult(metric_name = metric_name,
ai_probability = ai_prob,
human_probability = 1.0 - ai_prob,
mixed_probability = 0.0,
confidence = sentence_confidence,
details = doc_result.details,
error = None,
)
def _calculate_sentence_confidence(self, doc_confidence: float, sentence_length: int) -> float:
"""
IMPROVED: Calculate confidence for sentence-level analysis with length consideration
"""
base_reduction = 0.8
# Scale confidence penalty with sentence length
length_penalty = max(0.3, min(1.0, sentence_length / 12.0)) # Normalize around 12 words
return max(0.1, doc_confidence * base_reduction * length_penalty)
def _calculate_weighted_probability(self, metric_results: Dict[str, MetricResult], weights: Dict[str, float], breakdown: Dict[str, float]) -> Tuple[float, float, float, float, Dict[str, float]]:
"""
Fallback weighted probability calculation
"""
weighted_ai_probs = list()
weighted_human_probs = list()
confidences = list()
total_weight = 0.0
for name, result in metric_results.items():
if (result.error is None):
weight = weights.get(name, 0.0)
if (weight > 0):
weighted_ai_probs.append(result.ai_probability * weight)
weighted_human_probs.append(result.human_probability * weight)
confidences.append(result.confidence)
total_weight += weight
if ((not weighted_ai_probs) or (total_weight == 0)):
return 0.5, 0.5, 0.0, 0.5, breakdown or {}
ai_prob = sum(weighted_ai_probs) / total_weight
human_prob = sum(weighted_human_probs) / total_weight
mixed_prob = 0.0 # Fallback
avg_confidence = sum(confidences) / len(confidences) if confidences else 0.5
return ai_prob, human_prob, mixed_prob, avg_confidence, breakdown
def _get_document_ensemble_probability(self, ensemble_result: Optional[EnsembleResult], metric_results: Dict[str, MetricResult],
weights: Dict[str, float]) -> Tuple[float, float, float, float, Dict[str, float]]:
"""
Get document-level ensemble probability
"""
if ensemble_result:
# Use existing ensemble result
breakdown = {name: result.ai_probability for name, result in metric_results.items()}
return (ensemble_result.ai_probability, ensemble_result.human_probability, ensemble_result.mixed_probability,
ensemble_result.overall_confidence, breakdown)
else:
# Calculate from metrics
return self._calculate_weighted_probability(metric_results, weights, {})
def _apply_domain_specific_adjustments(self, sentence: str, ai_prob: float, sentence_length: int) -> float:
"""
Apply domain-specific adjustments to AI probability with limits
"""
original_prob = ai_prob
adjustments = list()
sentence_lower = sentence.lower()
# Technical & AI/ML domains
if (self.domain in [Domain.AI_ML, Domain.SOFTWARE_DEV, Domain.TECHNICAL_DOC, Domain.ENGINEERING, Domain.SCIENCE]):
if self._has_technical_terms(sentence_lower):
adjustments.append(1.1)
elif self._has_code_like_patterns(sentence):
adjustments.append(1.15)
elif (sentence_length > 35):
adjustments.append(1.05)
# Creative & informal domains
elif (self.domain in [Domain.CREATIVE, Domain.SOCIAL_MEDIA, Domain.BLOG_PERSONAL]):
if self._has_informal_language(sentence_lower):
adjustments.append(0.7)
elif self._has_emotional_language(sentence):
adjustments.append(0.8)
elif (sentence_length < 10):
adjustments.append(0.8)
# Academic & formal domains
elif (self.domain in [Domain.ACADEMIC, Domain.LEGAL, Domain.MEDICAL]):
if self._has_citation_patterns(sentence):
adjustments.append(0.8)
elif self._has_technical_terms(sentence_lower):
adjustments.append(1.1)
elif (sentence_length > 40):
adjustments.append(1.1)
# Business & professional domains
elif (self.domain in [Domain.BUSINESS, Domain.MARKETING, Domain.JOURNALISM]):
if self._has_business_jargon(sentence_lower):
adjustments.append(1.05)
elif self._has_ambiguous_phrasing(sentence_lower):
adjustments.append(0.9)
elif (15 <= sentence_length <= 25):
adjustments.append(0.9)
# Tutorial & educational domains
elif (self.domain == Domain.TUTORIAL):
if self._has_instructional_language(sentence_lower):
adjustments.append(0.85)
elif self._has_step_by_step_pattern(sentence):
adjustments.append(0.8)
elif self._has_examples(sentence):
adjustments.append(0.9)
# General domain - minimal adjustments
elif (self.domain == Domain.GENERAL):
if self._has_complex_structure(sentence):
adjustments.append(0.9)
elif self._has_repetition(sentence):
adjustments.append(1.1)
# Apply adjustments with limits - take strongest 2 adjustments maximum
if adjustments:
# Sort by impact (farthest from 1.0)
adjustments.sort(key = lambda x: abs(x - 1.0), reverse = True)
# Limit to 2 strongest
strongest_adjustments = adjustments[:2]
for adjustment in strongest_adjustments:
ai_prob *= adjustment
# Ensure probability stays within bounds and doesn't change too drastically : Maximum 30% change from original
max_change = 0.3
bounded_prob = max(original_prob - max_change, min(original_prob + max_change, ai_prob))
return max(0.0, min(1.0, bounded_prob))
def _apply_metric_specific_adjustments(self, metric_name: str, sentence: str, base_prob: float, sentence_length: int, thresholds: MetricThresholds) -> float:
"""
Apply metric-specific adjustments
"""
# Use metrics from ensemble
if (metric_name == "perplexity"):
if (sentence_length < 8):
return min(1.0, base_prob * 1.2)
elif (sentence_length > 25):
return max(0.0, base_prob * 0.8)
elif (metric_name == "entropy"):
words = sentence.split()
if (len(words) > 3):
unique_words = len(set(words))
diversity = unique_words / len(words)
if (diversity < 0.6):
return min(1.0, base_prob * 1.2)
elif (diversity > 0.8):
return max(0.0, base_prob * 0.8)
elif (metric_name == "linguistic"):
complexity_score = self._analyze_sentence_complexity(sentence)
if (complexity_score < 0.3):
return min(1.0, base_prob * 1.1)
elif (complexity_score > 0.7):
return max(0.0, base_prob * 0.9)
elif (metric_name == "structural"):
if ((sentence_length < 5) or (sentence_length > 40)):
return max(0.0, base_prob * 0.8)
elif (8 <= sentence_length <= 20):
return min(1.0, base_prob * 1.1)
elif (metric_name == "semantic_analysis"):
if self._has_repetition(sentence):
return min(1.0, base_prob * 1.2)
elif (metric_name == "multi_perturbation_stability"):
# MultiPerturbationStability adjustments for sentence level
if (sentence_length > 15):
return min(1.0, base_prob * 1.1)
return base_prob
def _get_color_for_probability(self, probability: float, is_mixed_content: bool = False, mixed_prob: float = 0.0) -> Tuple[str, str, str]:
"""
Get color class with mixed content support and no threshold gaps
"""
# Handle probability = 1.0 explicitly
if (probability >= 1.0):
return "very-high-ai", "#fecaca", "Very likely AI-generated (100%)"
# Check mixed content first
if (is_mixed_content and (mixed_prob > self.MIXED_THRESHOLD)):
return "mixed-content", "#e9d5ff", f"Mixed AI/Human content ({mixed_prob:.1%} mixed)"
# Iterate through thresholds correctly
for min_thresh, max_thresh, color_class, color_hex, tooltip in self.COLOR_THRESHOLDS:
if (min_thresh <= probability < max_thresh):
return color_class, color_hex, tooltip
# Fallback for probability = 1.0 (should be caught above, but just in case)
return "very-high-ai", "#fecaca", "Very likely AI-generated"
def _generate_ensemble_tooltip(self, sentence: str, ai_prob: float, human_prob: float, mixed_prob: float, confidence: float, confidence_level: ConfidenceLevel,
tooltip_base: str, breakdown: Optional[Dict[str, float]] = None, is_mixed_content: bool = False) -> str:
"""
Generate enhanced tooltip with ENSEMBLE information
"""
tooltip = f"{tooltip_base}\n"
if is_mixed_content:
tooltip += "🔀 MIXED CONTENT DETECTED\n"
tooltip += f"AI Probability: {ai_prob:.1%}\n"
tooltip += f"Human Probability: {human_prob:.1%}\n"
tooltip += f"Mixed Probability: {mixed_prob:.1%}\n"
tooltip += f"Confidence: {confidence:.1%} ({confidence_level.value.replace('_', ' ').title()})\n"
tooltip += f"Domain: {self.domain.value.replace('_', ' ').title()}\n"
tooltip += f"Length: {len(sentence.split())} words"
if breakdown:
tooltip += "\n\nMetric Breakdown:"
# Show top 4 metrics
for metric, prob in list(breakdown.items())[:4]:
tooltip += f"\n• {metric}: {prob:.1%}"
tooltip += f"\n\nEnsemble Method: {getattr(self.ensemble, 'primary_method', 'fallback')}"
return tooltip
def _has_citation_patterns(self, sentence: str) -> bool:
"""
Check for academic citation patterns
"""
citation_indicators = ['et al.', 'ibid.', 'cf.', 'e.g.', 'i.e.', 'vol.', 'pp.', 'ed.', 'trans.', 'reference', 'cited', 'according to']
return any(indicator in sentence.lower() for indicator in citation_indicators)
def _has_informal_language(self, sentence: str) -> bool:
"""
Check for informal language patterns
"""
informal_indicators = ['lol', 'omg', 'btw', 'imo', 'tbh', 'afaik', 'smh', '👋', '😂', '❤️', 'haha', 'wow', 'awesome']
return any(indicator in sentence.lower() for indicator in informal_indicators)
def _has_technical_terms(self, sentence: str) -> bool:
"""
Check for domain-specific technical terms
"""
technical_indicators = ['hereinafter', 'whereas', 'aforementioned', 'diagnosis', 'prognosis', 'etiology',
'algorithm', 'neural network', 'machine learning', 'api', 'endpoint', 'database',
'quantum', 'thermodynamics', 'hypothesis', 'methodology']
return any(indicator in sentence.lower() for indicator in technical_indicators)
def _has_ambiguous_phrasing(self, sentence: str) -> bool:
"""
Check for ambiguous phrasing that might indicate human writing
"""
ambiguous_indicators = ['perhaps', 'maybe', 'possibly', 'likely', 'appears to', 'seems to', 'might be', 'could be']
return any(indicator in sentence.lower() for indicator in ambiguous_indicators)
def _has_complex_structure(self, sentence: str) -> bool:
"""
Check if sentence has complex linguistic structure
"""
words = sentence.split()
if (len(words) < 8):
return False
complex_indicators = ['which', 'that', 'although', 'because', 'while', 'when', 'if', 'however', 'therefore']
return any(indicator in sentence.lower() for indicator in complex_indicators)
def _has_emotional_language(self, sentence: str) -> bool:
"""
Check for emotional or subjective language
"""
emotional_indicators = ['feel', 'believe', 'think', 'wonder', 'hope', 'wish', 'love', 'hate', 'frustrating', 'exciting']
return any(indicator in sentence.lower() for indicator in emotional_indicators)
def _has_business_jargon(self, sentence: str) -> bool:
"""
Check for business jargon
"""
jargon_indicators = ['synergy', 'leverage', 'bandwidth', 'circle back', 'touch base', 'value add', 'core competency']
return any(indicator in sentence.lower() for indicator in jargon_indicators)
def _has_instructional_language(self, sentence: str) -> bool:
"""
Check for instructional language patterns
"""
instructional_indicators = ['step by step', 'firstly', 'secondly', 'finally', 'note that', 'remember to', 'make sure']
return any(indicator in sentence.lower() for indicator in instructional_indicators)
def _has_step_by_step_pattern(self, sentence: str) -> bool:
"""
Check for step-by-step instructions
"""
step_patterns = ['step 1', 'step 2', 'step 3', 'step one', 'step two', 'first step', 'next step']
return any(pattern in sentence.lower() for pattern in step_patterns)
def _has_examples(self, sentence: str) -> bool:
"""
Check for example indicators
"""
example_indicators = ['for example', 'for instance', 'such as', 'e.g.', 'as an example']
return any(indicator in sentence.lower() for indicator in example_indicators)
def _has_code_like_patterns(self, sentence: str) -> bool:
"""
Check for code-like patterns in technical domains
"""
code_patterns = ['function', 'variable', 'class', 'method', 'import', 'def ', 'void ', 'public ', 'private ']
return any(pattern in sentence for pattern in code_patterns)
def _analyze_sentence_complexity(self, sentence: str) -> float:
"""
Analyze sentence complexity (0 = simple, 1 = complex)
"""
words = sentence.split()
if (len(words) < 5):
return 0.2
complexity_indicators = ['although', 'because', 'while', 'when', 'if', 'since', 'unless', 'until', 'which', 'that', 'who', 'whom', 'whose', 'and', 'but', 'or', 'yet', 'so', 'however', 'therefore', 'moreover', 'furthermore', 'nevertheless', ',', ';', ':', '—']
score = 0.0
if (len(words) > 15):
score += 0.3
elif (len(words) > 25):
score += 0.5
indicator_count = sum(1 for indicator in complexity_indicators if indicator in sentence.lower())
score += min(0.5, indicator_count * 0.1)
clause_indicators = [',', ';', 'and', 'but', 'or', 'because', 'although']
clause_count = sum(1 for indicator in clause_indicators if indicator in sentence.lower())
score += min(0.2, clause_count * 0.05)
return min(1.0, score)
def _has_repetition(self, sentence: str) -> bool:
"""
Check if sentence has word repetition (common in AI text)
"""
words = sentence.lower().split()
if (len(words) < 6):
return False
word_counts = dict()
for word in words:
if (len(word) > 3):
word_counts[word] = word_counts.get(word, 0) + 1
repeated_words = [word for word, count in word_counts.items() if count > 2]
return len(repeated_words) > 0
def _split_sentences(self, text: str) -> List[str]:
"""
Split the text chunk into multiple sentences
"""
sentences = self.text_processor.split_sentences(text)
filtered_sentences = list()
for sentence in sentences:
clean_sentence = sentence.strip()
if (len(clean_sentence) >= 3):
filtered_sentences.append(clean_sentence)
return filtered_sentences
def generate_html(self, highlighted_sentences: List[HighlightedSentence], include_legend: bool = False, include_metrics: bool = True) -> str:
"""
Generate HTML with highlighted sentences
Arguments:
----------
highlighted_sentences { List[HighlightedSentence] } : Sentences with highlighting data
include_legend { bool } : Whether to include legend (set to False to avoid duplicates)
include_metrics { bool } : Whether to include metrics summary
Returns:
--------
{ str } : HTML content
"""
html_parts = list()
# Add CSS
html_parts.append(self._generate_enhanced_css())
# Only include legend if explicitly requested (usually False to avoid duplicates)
if include_legend:
html_parts.append(self._generate_legend_html())
# Add highlighted text container
html_parts.append('<div class="highlighted-text">')
for sent in highlighted_sentences:
extra_class = " mixed-highlight" if sent.is_mixed_content else ""
html_parts.append(f'<span class="highlight {sent.color_class}{extra_class}" '
f'data-ai-prob="{sent.ai_probability:.4f}" '
f'data-human-prob="{sent.human_probability:.4f}" '
f'data-mixed-prob="{sent.mixed_probability:.4f}" '
f'data-confidence="{sent.confidence:.4f}" '
f'data-confidence-level="{sent.confidence_level.value}" '
f'data-domain="{self.domain.value}" '
f'data-sentence-idx="{sent.index}" '
f'data-is-mixed="{str(sent.is_mixed_content).lower()}" '
f'title="{sent.tooltip}">'
f'{sent.text}'
f'</span> '
)
html_parts.append('</div>')
# Add metrics summary if requested (separate from legend)
if include_metrics and highlighted_sentences:
html_parts.append(self._generate_metrics_summary(highlighted_sentences))
return '\n'.join(html_parts)
def _generate_enhanced_css(self) -> str:
"""
Generate CSS for highlighting for Better readability
"""
return """
<style>
.highlighted-text {
line-height: 1.8;
font-size: 16px;
font-family: 'Georgia', serif;
padding: 20px;
background: #ffffff;
border-radius: 8px;
box-shadow: 0 2px 4px rgba(0,0,0,0.1);
margin-bottom: 20px;
}
.highlight {
padding: 2px 4px;
margin: 0 1px;
border-radius: 3px;
transition: all 0.2s ease;
cursor: help;
border-bottom: 2px solid transparent;
color: #000000 !important;
font-weight: 500;
position: relative;
}
.highlight:hover {
transform: translateY(-1px);
box-shadow: 0 4px 12px rgba(0,0,0,0.15);
z-index: 10;
text-shadow: 0 1px 1px rgba(255,255,255,0.8);
}
/* AI indicators - Lighter backgrounds for better readability */
.very-high-ai {
background-color: #fee2e2;
border-bottom-color: #ef4444;
}
.high-ai {
background-color: #fed7aa;
border-bottom-color: #f97316;
}
.medium-ai {
background-color: #fef3c7;
border-bottom-color: #f59e0b;
}
/* Uncertain */
.uncertain {
background-color: #fef9c3;
border-bottom-color: #fbbf24;
}
/* Human indicators - Lighter backgrounds */
.medium-human {
background-color: #ecfccb;
border-bottom-color: #a3e635;
}
.high-human {
background-color: #bbf7d0;
border-bottom-color: #4ade80;
}
.very-high-human {
background-color: #dcfce7;
border-bottom-color: #22c55e;
}
/* Mixed content */
.mixed-content {
background-color: #e9d5ff;
border-bottom-color: #a855f7;
background-image: repeating-linear-gradient(45deg, transparent, transparent 5px, rgba(168, 85, 247, 0.1) 5px, rgba(168, 85, 247, 0.1) 10px);
}
.mixed-highlight:hover {
border: 2px dashed #a855f7;
}
/* Summary styles */
.highlight-summary {
margin-bottom: 20px;
padding: 15px;
background: #f9fafb;
border-radius: 8px;
border: 1px solid #e5e7eb;
}
.highlight-summary h4 {
margin: 0 0 10px 0;
font-size: 14px;
font-weight: 600;
color: #374151;
}
.summary-stats {
display: grid;
grid-template-columns: repeat(auto-fit, minmax(200px, 1fr));
gap: 10px;
}
.stat-item {
display: flex;
justify-content: space-between;
align-items: center;
padding: 8px 12px;
background: white;
border-radius: 6px;
border: 1px solid #e5e7eb;
}
.stat-label {
font-size: 13px;
color: #6b7280;
}
.stat-value {
font-size: 13px;
font-weight: 600;
color: #374151;
}
</style>
"""
def _generate_metrics_summary(self, sentences: List[HighlightedSentence]) -> str:
"""
Generate summary statistics for highlighted sentences
"""
if not sentences:
return ""
# Calculate summary metrics
total_sentences = len(sentences)
# Count sentences by category
very_high_ai = len([s for s in sentences if s.color_class == "very-high-ai"])
high_ai = len([s for s in sentences if s.color_class == "high-ai"])
medium_ai = len([s for s in sentences if s.color_class == "medium-ai"])
uncertain = len([s for s in sentences if s.color_class == "uncertain"])
medium_human = len([s for s in sentences if s.color_class == "medium-human"])
high_human = len([s for s in sentences if s.color_class == "high-human"])
very_high_human = len([s for s in sentences if s.color_class == "very-high-human"])
mixed = len([s for s in sentences if s.color_class == "mixed-content"])
# Calculate overall risk score (weighted average)
weighted_risk = 0.0
for sent in sentences:
weight = self.RISK_WEIGHTS.get(sent.color_class, 0.4)
weighted_risk += sent.ai_probability * weight
overall_risk_score = weighted_risk / total_sentences if total_sentences else 0.0
# Calculate average probabilities
avg_ai_prob = sum(s.ai_probability for s in sentences) / total_sentences
avg_human_prob = sum(s.human_probability for s in sentences) / total_sentences
# Sentence counts
ai_sentences = very_high_ai + high_ai + medium_ai
human_sentences = very_high_human + high_human + medium_human
html = f"""
<div class="highlight-summary">
<h4>📊 Text Analysis Summary</h4>
<div class="summary-stats">
<div class="stat-item">
<span class="stat-label">Overall Risk Score</span>
<span class="stat-value">{overall_risk_score:.1%}</span>
</div>
<div class="stat-item">
<span class="stat-label">Average AI Probability</span>
<span class="stat-value">{avg_ai_prob:.1%}</span>
</div>
<div class="stat-item">
<span class="stat-label">AI Sentences</span>
<span class="stat-value">{ai_sentences} ({ai_sentences/total_sentences:.1%})</span>
</div>
<div class="stat-item">
<span class="stat-label">Human Sentences</span>
<span class="stat-value">{human_sentences} ({human_sentences/total_sentences:.1%})</span>
</div>
<div class="stat-item">
<span class="stat-label">Uncertain Sentences</span>
<span class="stat-value">{uncertain} ({uncertain/total_sentences:.1%})</span>
</div>
<div class="stat-item">
<span class="stat-label">Mixed Sentences</span>
<span class="stat-value">{mixed} ({mixed/total_sentences:.1%})</span>
</div>
<div class="stat-item">
<span class="stat-label">Total Sentences</span>
<span class="stat-value">{total_sentences}</span>
</div>
<div class="stat-item">
<span class="stat-label">Domain</span>
<span class="stat-value">{self.domain.value.replace('_', ' ').title()}</span>
</div>
</div>
</div>
"""
return html
def _generate_legend_html(self) -> str:
"""
Generate legend HTML - Only used if explicitly requested
"""
return """
<div class="highlight-legend" style="margin-bottom: 20px; padding: 15px; background: #f8fafc; border-radius: 8px; border: 1px solid #e2e8f0;">
<h4 style="margin: 0 0 10px 0; font-size: 14px; font-weight: 600; color: #374151;">AI Detection Legend</h4>
<div style="display: grid; grid-template-columns: repeat(auto-fit, minmax(200px, 1fr)); gap: 8px;">
<div style="display: flex; align-items: center; gap: 8px;">
<div style="width: 16px; height: 16px; background: #dcfce7; border: 1px solid #22c55e; border-radius: 3px;"></div>
<span style="font-size: 12px; color: #374151;">Very Likely Human (0-10%)</span>
</div>
<div style="display: flex; align-items: center; gap: 8px;">
<div style="width: 16px; height: 16px; background: #bbf7d0; border: 1px solid #4ade80; border-radius: 3px;"></div>
<span style="font-size: 12px; color: #374151;">Likely Human (10-25%)</span>
</div>
<div style="display: flex; align-items: center; gap: 8px;">
<div style="width: 16px; height: 16px; background: #86efac; border: 1px solid #16a34a; border-radius: 3px;"></div>
<span style="font-size: 12px; color: #374151;">Possibly Human (25-40%)</span>
</div>
<div style="display: flex; align-items: center; gap: 8px;">
<div style="width: 16px; height: 16px; background: #fef9c3; border: 1px solid #fbbf24; border-radius: 3px;"></div>
<span style="font-size: 12px; color: #374151;">Uncertain (40-60%)</span>
</div>
<div style="display: flex; align-items: center; gap: 8px;">
<div style="width: 16px; height: 16px; background: #fde68a; border: 1px solid #f59e0b; border-radius: 3px;"></div>
<span style="font-size: 12px; color: #374151;">Possibly AI (60-75%)</span>
</div>
<div style="display: flex; align-items: center; gap: 8px;">
<div style="width: 16px; height: 16px; background: #fed7aa; border: 1px solid #f97316; border-radius: 3px;"></div>
<span style="font-size: 12px; color: #374151;">Likely AI (75-90%)</span>
</div>
<div style="display: flex; align-items: center; gap: 8px;">
<div style="width: 16px; height: 16px; background: #fecaca; border: 1px solid #ef4444; border-radius: 3px;"></div>
<span style="font-size: 12px; color: #374151;">Very Likely AI (90-100%)</span>
</div>
<div style="display: flex; align-items: center; gap: 8px;">
<div style="width: 16px; height: 16px; background: #e9d5ff; border: 1px solid #a855f7; border-radius: 3px;"></div>
<span style="font-size: 12px; color: #374151;">Mixed Content</span>
</div>
</div>
</div>
"""
def calculate_metrics(self, highlighted_sentences: List[HighlightedSentence]) -> Dict[str, float]:
"""
Calculate metrics for external use
Arguments:
----------
highlighted_sentences { List[HighlightedSentence] } : Sentences with highlighting data
Returns:
--------
{ Dict[str, float] } : Dictionary with metrics
"""
if not highlighted_sentences:
return {}
total_sentences = len(highlighted_sentences)
# Calculate weighted risk score
weighted_risk = 0.0
for sent in highlighted_sentences:
weight = self.RISK_WEIGHTS.get(sent.color_class, 0.4)
weighted_risk += sent.ai_probability * weight
overall_risk_score = weighted_risk / total_sentences
# Count sentences by category
ai_sentences = len([s for s in highlighted_sentences if s.ai_probability >= 0.6])
human_sentences = len([s for s in highlighted_sentences if s.ai_probability <= 0.4])
uncertain_sentences = len([s for s in highlighted_sentences if 0.4 < s.ai_probability < 0.6])
mixed_sentences = len([s for s in highlighted_sentences if s.is_mixed_content])
# Average probabilities
avg_ai_prob = sum(s.ai_probability for s in highlighted_sentences) / total_sentences
avg_human_prob = sum(s.human_probability for s in highlighted_sentences) / total_sentences
avg_confidence = sum(s.confidence for s in highlighted_sentences) / total_sentences
return {'overall_risk_score' : overall_risk_score,
'avg_ai_probability' : avg_ai_prob,
'avg_human_probability' : avg_human_prob,
'avg_confidence' : avg_confidence,
'ai_sentence_count' : ai_sentences,
'human_sentence_count' : human_sentences,
'uncertain_sentence_count' : uncertain_sentences,
'mixed_sentence_count' : mixed_sentences,
'total_sentences' : total_sentences,
'ai_sentence_percentage' : ai_sentences / total_sentences,
'human_sentence_percentage' : human_sentences / total_sentences,
}
# Export
__all__ = ["TextHighlighter",
"HighlightedSentence",
]