해머슴의 글쓰기 넓은터

import sysimport cv2import numpy as npimport osimport subprocessimport platformfrom PyQt5.QtWidgets import QApplication, QWidget, QVBoxLayout, QPushButton, QFileDialog, QLabelfrom PyQt5.QtCore import Qtdef apply_shading(image, alpha=1.0, beta=50):    shaded_image = cv2.convertScaleAbs(image, alpha=alpha, beta=beta)    return shaded_imagedef add_frame_number(image, frame_number):    """    이미지에 프..

import tkinter as tkfrom tkinter import messagebox, simpledialogimport randomimport pandas as pdimport matplotlib.pyplot as pltfrom matplotlib.backends.backend_tkagg import FigureCanvasTkAgg# 데이터 생성 및 필터링def generate_sample_data(total_samples=300000, filtered_count=300):    data = pd.DataFrame({        'Element': [f"Element_{i}" for i in range(1, total_samples + 1)],        'Symbol': [f"E{i}" fo..

import tkinter as tkfrom tkinter import messageboximport matplotlib.pyplot as pltimport numpy as npfrom matplotlib import rcimport platform# 한글 폰트 설정if platform.system() == "Windows":    rc('font', family='Malgun Gothic')  # Windows의 한글 폰트elif platform.system() == "Darwin":  # macOS    rc('font', family='AppleGothic')else:    rc('font', family='NanumGothic')  # 리눅스용 폰트plt.rcParams['axes.unicode_..

import tkinter as tkdef calculate_result():    try:        # 입력값 가져오기        user_input = entry.get()        number = float(user_input)                # 간단한 계산 (예: 입력값의 제곱 계산)        result = number ** 2                # 결과 출력        result_label.config(text=f"입력값의 제곱: {result:.2f}")    except ValueError:        result_label.config(text="유효한 숫자를 입력하세요.")# GUI 생성app = tk.Tk()app.title("웹 하이웨이 결과 ..

import tkinter as tkfrom tkinter import ttkimport matplotlib.pyplot as pltfrom matplotlib.backends.backend_tkagg import FigureCanvasTkAggdef calculate():    try:        distance = float(distance_entry.get()) if distance_entry.get() else None        speed = float(speed_entry.get()) if speed_entry.get() else None        time = float(time_entry.get()) if time_entry.get() else None        if distanc..

import tkinter as tkfrom tkinter import ttkimport matplotlib.pyplot as pltfrom matplotlib.backends.backend_tkagg import FigureCanvasTkAggdef plot_graph():    try:        # 입력값 가져오기        magnitude = float(entry.get())        # 지진 강도 데이터 예시        magnitudes = [1, 2, 3, 4, 5, 6, 7, 8, 9]        energy_released = [10**(1.5*magnitude + 4.8) for magnitude in magnitudes]                # 그래프 그리기    ..

import tkinter as tkfrom tkinter import messageboximport pandas as pd# 초전도체 관련 원소 데이터 생성element_data = {    "그리스어": ["Χαλκός", "Οξυγόνο", "Υττρίο"],    "라틴어": ["Cuprum", "Oxygenium", "Yttrium"],    "Symbol": ["Cu", "O", "Y"],    "Atomic_Number": [29, 8, 39],    "Superconductor_Suitability": [True, True, True]  # 초전도체 여부}# 데이터프레임 생성elements_df = pd.DataFrame(element_data)# 초전도체 조건 함수def check_sup..

import tkinter as tkfrom tkinter import messagebox# 주요 색상 설정BG_COLOR = "#2C3E50"BTN_COLOR = "#E74C3C"HOVER_COLOR = "#C0392B"TEXT_COLOR = "#ECF0F1"# 버튼 호버 효과 함수def on_enter(e):    e.widget['background'] = HOVER_COLORdef on_leave(e):    e.widget['background'] = BTN_COLOR# 계산기 기능def calculate():    try:        expression = entry.get()        result = eval(expression)        entry.delete(0, tk.END) ..

import numpy as npimport matplotlib.pyplot as pltfrom matplotlib.backends.backend_tkagg import FigureCanvasTkAggimport tkinter as tk# Vortex simulation function using Ginzburg-Landau parametersdef generate_vortex_pattern(B, xi, lambda_, grid_size=100):    x = np.linspace(-grid_size / 2, grid_size / 2, grid_size)    y = np.linspace(-grid_size / 2, grid_size / 2, grid_size)    X, Y = np.meshgrid(x..

import tkinter as tkfrom tkinter import ttkimport matplotlib.pyplot as pltfrom matplotlib.backends.backend_tkagg import FigureCanvasTkAggimport numpy as npdef calculate_neutronsys(x):    # 예시 방정식입니다. 실제 뉴트론시스 방정식을 알고 계시면 이 부분을 수정하세요.    return np.sin(x) * np.exp(-x / 5)def plot_graph():    try:        x_value = float(entry_x.get())        x_values = np.linspace(0, x_value, 100)        y_values =..