java-sim-metrics-opt.py

# -*- coding: utf-8 -*-
"""
Metrics Similarity Detection for Java Code

Martinez-Gil, J. (2024). Source Code Clone Detection Using Unsupervised Similarity Measures. arXiv preprint arXiv:2401.09885.

@author: Jorge Martinez-Gil
"""

import os
import javalang
from sklearn.metrics.pairwise import cosine_similarity
import numpy as np

def calculate_code_metrics(code):
    tree = javalang.parse.parse(code)
    code_length = len(code.split('\n'))

    # Calculate cyclomatic complexity (you need to implement this)
    cyclomatic_complexity = 1
    
    # Count the number of variables
    num_variables = sum(1 for _, node in tree.filter(javalang.tree.VariableDeclarator))

    # Count the number of functions/methods
    num_functions = sum(1 for _, node in tree.filter(javalang.tree.MethodDeclaration))

    # Count the number of control statements (e.g., if, for, while)
    num_control_statements = sum(1 for _, node in tree.filter(javalang.tree.IfStatement))
    num_control_statements += sum(1 for _, node in tree.filter(javalang.tree.ForStatement))
    num_control_statements += sum(1 for _, node in tree.filter(javalang.tree.WhileStatement))
    num_control_statements += sum(1 for _, node in tree.filter(javalang.tree.DoStatement))

    return np.array([code_length, cyclomatic_complexity, num_variables, num_functions, num_control_statements])


def calculate_code_metrics2(code_snippet):
    # Count the number of loops (for, while)
    num_loops = code_snippet.count("for") + code_snippet.count("while")
    
    # Count the number of conditionals (if, else, switch)
    num_conditionals = code_snippet.count("if") + code_snippet.count("else") + code_snippet.count("switch")
    
    # Count the number of function/method calls
    num_function_calls = code_snippet.count("(")
    
    # Calculate the depth of nesting using curly braces
    brace_depth = 0
    max_brace_depth = 0
    
    for char in code_snippet:
        if char == "{":
            brace_depth += 1
            if brace_depth > max_brace_depth:
                max_brace_depth = brace_depth
        elif char == "}":
            brace_depth -= 1
    
    # Create a syntax feature vector
    syntax_vector = [num_loops, num_conditionals, num_function_calls, max_brace_depth]
    
    return syntax_vector


# Define the path to the IR-Plag-Dataset folder
dataset_path = os.path.join(os.getcwd(), "IR-Plag-Dataset")

# Define a list of similarity thresholds to iterate over
similarity_thresholds = [0.98]

# Initialize variables to keep track of the best result
best_threshold = 0
best_accuracy = 0

# Initialize counters
TP = 0
FP = 0
FN = 0

# Loop through each similarity threshold and calculate accuracy
for SIMILARITY_THRESHOLD in similarity_thresholds:
    # Initialize the counters
    total_cases = 0
    over_threshold_cases_plagiarized = 0
    over_threshold_cases_non_plagiarized = 0
    cases_plag = 0
    cases_non_plag = 0

    # Loop through each subfolder in the dataset
    for folder_name in os.listdir(dataset_path):
        folder_path = os.path.join(dataset_path, folder_name)
        if os.path.isdir(folder_path):
            # Find the Java file in the original folder
            original_path = os.path.join(folder_path, 'original')
            java_files = [f for f in os.listdir(original_path) if f.endswith('.java')]
            if len(java_files) == 1:
                java_file = java_files[0]
                with open(os.path.join(original_path, java_file), 'r') as f:
                    code1 = f.read()
                # print(f"Found {java_file} in {original_path} for {folder_name}")

                # Loop through each subfolder in the plagiarized and non-plagiarized folders
                for subfolder_name in ['plagiarized', 'non-plagiarized']:
                    subfolder_path = os.path.join(folder_path, subfolder_name)
                    if os.path.isdir(subfolder_path):
                        # Loop through each Java file in the subfolder
                        for root, dirs, files in os.walk(subfolder_path):
                            for java_file in files:
                                if java_file.endswith('.java'):
                                    with open(os.path.join(root, java_file), 'r') as f:
                                        code2 = f.read()
                                    # print(f"Found {java_file} in {root} for {folder_name}")
                                    # Calculate the similarity ratio
                                    metrics_snippet1 = calculate_code_metrics(code1)
                                    metrics_snippet2 = calculate_code_metrics(code2)
                                    # Reshape the metric arrays
                                    metrics_snippet1 = metrics_snippet1.reshape(1, -1)
                                    metrics_snippet2 = metrics_snippet2.reshape(1, -1)
                                    # Calculate cosine similarity between the metric arrays
                                    #csimilarity_ratio = cosine_similarity(metrics_snippet1, metrics_snippet2)[0][0]
                                    similarity_ratio = cosine_similarity(metrics_snippet1, metrics_snippet2)[0][0]
                                    # print(f"{subfolder_name},{similarity_ratio:.6f}")

                                    # Update the counters based on the similarity ratio
                                    if subfolder_name == 'plagiarized':
                                        cases_plag += 1
                                        if similarity_ratio >= SIMILARITY_THRESHOLD:
                                            over_threshold_cases_plagiarized += 1
                                    elif subfolder_name == 'non-plagiarized':
                                        cases_non_plag += 1
                                        if similarity_ratio < SIMILARITY_THRESHOLD:
                                            over_threshold_cases_non_plagiarized += 1
                                    total_cases += 1
                                    # Update the counters based on the similarity ratio
                                    if subfolder_name == 'plagiarized':
                                        cases_plag += 1
                                        if similarity_ratio >= SIMILARITY_THRESHOLD:
                                            TP += 1  # True positive: plagiarized and identified as plagiarized
                                        else:
                                            FN += 1  # False negative: plagiarized but identified as non-plagiarized
                                    elif subfolder_name == 'non-plagiarized':
                                        cases_non_plag += 1
                                        if similarity_ratio <= SIMILARITY_THRESHOLD:
                                            over_threshold_cases_non_plagiarized += 1
                                        else:
                                            FP += 1  # False positive: non-plagiarized but identified as plagiarized
            else:
                print(f"Error: Found {len(java_files)} Java files in {original_path} for {folder_name}")

    # Calculate accuracy for the current threshold
    if total_cases > 0:
        accuracy = (over_threshold_cases_non_plagiarized + over_threshold_cases_plagiarized) / total_cases
        if accuracy > best_accuracy:
            best_accuracy = accuracy
            best_threshold = SIMILARITY_THRESHOLD

    # Calculate precision and recall
    if TP + FP > 0:
        precision = TP / (TP + FP)
    else:
        precision = 0

    if TP + FN > 0:
        recall = TP / (TP + FN)
    else:
        recall = 0

    # Calculate F-measure
    if precision + recall > 0:
        f_measure = 2 * (precision * recall) / (precision + recall)
    else:
        f_measure = 0

# Print the best threshold and accuracy
print(f"{os.path.basename(__file__)} - The best threshold is {best_threshold} with an accuracy of {best_accuracy:.2f}, Precision: {precision:.2f}, Recall: {recall:.2f}, F-measure: {f_measure:.2f}")