app.py

questions = {
    "MgCl2": 95.0,
    "MgO": 40.0,
    "MgF2": 62.0,
    "MgS": 56.0,
    "Mg(OH)2": 58.0,
    "MgI2": 278.0,
    "CaCl2": 111.0,
    "CaO": 56.0,
    "CaF2": 78.0,
    "CaS": 72.0,
    "Ca(OH)2": 74.0,
    "CaI2": 294.0,
    "ZnCl2": 136.0,
    "ZnO": 81.0,
    "ZnF2": 103.0,
    "ZnS": 97.0,
    "Zn(OH)2": 99.0,
    "ZnI2": 319.0,
    "NaCl": 58.5,
    "Na2O": 62.0,
    "NaF": 42.0,
    "Na2S": 78.0,
    "NaOH": 40.0,
    "NaI": 150.0,
    "KCl": 74.5,
    "K2O": 94.0,
    "KF": 58.0,
    "K2S": 110.0,
    "KOH": 56.0,
    "KI": 166.0,
    "HCl": 36.5,
    "H2O": 18.0,
    "HF": 20.0,
    "H2S": 34.0,
    "HOH": 18.0,
    "HI": 128.0,
    "CuCl": 99.0,
    "Cu2O": 143.0,
    "CuF": 82.5,
    "Cu2S": 159.0,
    "CuOH": 80.5,
    "CuI": 190.5,
    "CuCl2": 134.5,
    "CuO": 79.5,
    "CuF2": 101.5,
    "CuS": 95.5,
    "Cu(OH)2": 97.5,
    "CuI2": 317.5,
    "AgCl": 143.5,
    "Ag2O": 232.0,
    "AgF": 127.0,
    "Ag2S": 248.0,
    "AgOH": 125.0,
    "AgI": 235.0,
    "BaCl2": 208.0,
    "BaO": 153.0,
    "BaF2": 175.0,
    "BaS": 169.0,
    "Ba(OH)2": 171.0,
    "BaI2": 391.0,
    "FeCl2": 127.0,
    "FeO": 72.0,
    "FeF2": 94.0,
    "FeS": 88.0,
    "Fe(OH)2": 90.0,
    "FeI2": 310.0,
    "MnCl2": 126.0,
    "MnO": 71.0,
    "MnF2": 93.0,
    "MnS": 87.0,
    "Mn(OH)2": 89.0,
    "MnI2": 309.0,
    "PbCl2": 278.0,
    "PbO": 223.0,
    "PbF2": 245.0,
    "PbS": 239.0,
    "Pb(OH)2": 241.0,
    "PbI2": 461.0,
    "AlCl3": 133.5,
    "Al2O3": 102.0,
    "AlF3": 84.0,
    "Al2S3": 150.0,
    "Al(OH)3": 78.0,
    "AlI3": 408.0,
    "FeCl3": 162.5,
    "Fe2O3": 160.0,
    "FeF3": 113.0,
    "Fe2S3": 208.0,
    "Fe(OH)3": 107.0,
    "FeI3": 437.0,
    "NH4Cl": 53.5,
    "(NH4)2O": 52.0,
    "NH4F": 37.0,
    "(NH4)2S": 68.0,
    "NH4OH": 35.0,
    "NH4I": 145.0,
    "MgSO4": 120.0,
    "MgCO3": 84.0,
    "MgC2O4": 112.0,
    "MgCrO4": 140.0,
    "MgCr2O7": 240.0,
    "MgS2O3": 136.0,
    "Mg3(PO4)2": 262.0,
    "CaSO4": 136.0,
    "CaCO3": 100.0,
    "CaC2O4": 128.0,
    "CaCrO4": 156.0,
    "CaCr2O7": 256.0,
    "CaS2O3": 152.0,
    "Ca3(PO4)2": 310.0,
    "ZnSO4": 161.0,
    "ZnCO3": 125.0,
    "ZnC2O4": 153.0,
    "ZnCrO4": 181.0,
    "ZnCr2O": 185.0,
    "ZnS2O3": 177.0,
    "Zn3(PO4)2": 385.0,
    "Na2SO4": 142.0,
    "Na2CO3": 106.0,
    "Na2C2O4": 134.0,
    "Na2CrO4": 162.0,
    "Na2Cr2O7": 262.0,
    "Na2S2O3": 158.0,
    "Na3PO4": 164.0,
    "K2SO4": 174.0,
    "K2CO3": 138.0,
    "K2C2O4": 166.0,
    "K2CrO4": 194.0,
    "K2Cr2O7": 294.0,
    "K2S2O3": 190.0,
    "K3PO4": 212.0,
    "H2SO4": 98.0,
    "H2CO3": 62.0,
    "H2C2O4": 90.0,
    "H2CrO4": 118.0,
    "H2Cr2O7": 218.0,
    "H2S2O3": 114.0,
    "H3PO4": 98.0,
    "Cu2SO4": 223.0,
    "Cu2CO3": 187.0,
    "Cu2C2O4": 215.0,
    "Cu2CrO4": 243.0,
    "Cu2Cr2O7": 343.0,
    "Cu2S2O3": 239.0,
    "Cu3PO4": 285.5,
    "CuSO4": 159.5,
    "CuCO3": 123.5,
    "CuC2O4": 151.5,
    "CuCrO4": 179.5,
    "CuCr2O7": 279.5,
    "CuS2O3": 175.5,
    "Cu3(PO4)2": 380.5,
    "Ag2SO4": 312.0,
    "Ag2CO3": 276.0,
    "Ag2C2O4": 304.0,
    "Ag2CrO4": 332.0,
    "Ag2Cr2O7": 432.0,
    "Ag2S2O3": 328.0,
    "Ag3PO4": 419.0,
    "BaSO4": 233.0,
    "BaCO3": 197.0,
    "BaC2O4": 225.0,
    "BaCrO4": 253.0,
    "BaCr2O7": 353.0,
    "BaS2O3": 249.0,
    "Ba3(PO4)2": 601.0,
    "FeSO4": 152.0,
    "FeCO3": 116.0,
    "FeC2O4": 144.0,
    "FeCrO4": 172.0,
    "FeCr2O7": 272.0,
    "FeS2O3": 168.0,
    "Fe3(PO4)2": 358.0,
    "MnSO4": 151.0,
    "MnCO3": 115.0,
    "MnC2O4": 143.0,
    "MnCrO4": 171.0,
    "MnCr2O)": 175.0,
    "MnS2O3": 167.0,
    "Mn3(PO4)2": 355.0,
    "PbSO4": 303.0,
    "PbCO3": 267.0,
    "PbC2O4": 295.0,
    "PbCrO4": 323.0,
    "PbCr2O7": 423.0,
    "PbS2O3": 319.0,
    "Pb3(PO4)2": 811.0,
    "Al2(SO4)3": 342.0,
    "Al2(CO3)3": 234.0,
    "Al2(C2O4)3": 318.0,
    "Al2(CrO4)3": 402.0,
    "Al2(Cr2O7)3": 702.0,
    "Al2(S2O3)3": 390.0,
    "AlPO4": 122.0,
    "Fe2(SO4)3": 400.0,
    "Fe2(CO3)3": 292.0,
    "Fe2(C2O4)3": 376.0,
    "Fe2(CrO4)3": 460.0,
    "Fe2(Cr2O7)3": 760.0,
    "Fe2(S2O3)3": 448.0,
    "FePO4": 151.0,
    "Mg(NO3)2": 148.0,
    "(CH3COO)2Mg": 142.0,
    "Mg(MnO4)2": 262.0,
    "Ca(NO3)2": 164.0,
    "(CH3COO)2Ca": 158.0,
    "Ca(MnO4)2": 278.0,
    "Zn(NO3)2": 189.0,
    "(CH3COO)2Zn": 183.0,
    "Zn(MnO4)2": 303.0,
    "NaNO3": 85.0,
    "CH3COONa": 82.0,
    "Na(MnO4)": 142.0,
    "KNO3": 101.0,
    "CH3COOK": 98.0,
    "K(MnO4)": 158.0,
    "HNO3": 63.0,
    "CH3COOH": 60.0,
    "HMnO4": 120.0,
    "CuNO3": 125.5,
    "CH3COOCu": 122.5,
    "CuMnO4": 182.5,
    "Cu(NO3)2": 187.5,
    "(CH3COO)2Cu": 181.5,
    "Cu(MnO4)2": 301.5,
    "AgNO3": 170.0,
    "AgCH3COO": 167.0,
    "AgMnO4": 227.0,
    "Ba(NO3)2": 261.0,
    "Ba(CH3COO)2": 255.0,
    "Ba(MnO4)2": 375.0,
    "Fe(NO3)2": 180.0,
    "Fe(CH3COO)2": 174.0,
    "Fe(MnO4)2": 294.0,
    "Mn(NO3)2": 179.0,
    "Mn(CH3COO)2": 173.0,
    "MnNO3": 117.0,
    "MnCH3COO": 114.0,
    "Mn(MnO4)2": 293.0,
    "Pb(NO3)2": 331.0,
    "Pb(CH3COO)2": 325.0,
    "Pb(MnO4)2": 445.0,
    "Al(NO3)3": 213.0,
    "Al(CH3COO)3": 204.0,
    "Al(MnO4)3": 384.0,
    "Fe(NO3)3": 242.0,
    "Fe(CH3COO)3": 233.0,
    "Fe(MnO4)3": 413.0,
    "Mn(NO3)3": 241.0,
    "Mn(CH3COO)3": 232.0,
    "Mn(MnO4)3": 412.0,
    "Pb(NO3)3": 393.0,
    "Pb(CH3COO)3": 384.0,
    "Pb(MnO4)3": 564.0,
    "Al(NO3)2": 151.0,
    "Al(CH3COO)2": 145.0,
    "Al(MnO4)2": 265.0,
}









from flask import Flask, render_template, request, redirect, url_for, session
import random
import sympy

app = Flask(__name__)
app.secret_key = 'your_secret_key_here'  # セッションの安全な署名に必要なキー

def generate_non_repeating_decimal(range_start, range_end, step):
    while True:
        value = round(random.uniform(range_start, range_end), step)
        if value != int(value):
            break
    return value

templates = {
    "溶質の質量が {solute_mass} g で、溶液の質量が {solution_mass} g の場合、質量パーセント濃度を求めなさい。": lambda solute_mass, solution_mass: (solute_mass / solution_mass) * 100,
    "質量パーセント濃度が {mass_percent}% で、溶液の質量が {solution_mass} g の場合、溶質の質量を求めなさい。": lambda mass_percent, solution_mass: (mass_percent / 100) * solution_mass,
    "質量パーセント濃度が {mass_percent}% で、溶質の質量が {solute_mass} g の場合、溶液の質量を求めなさい。": lambda mass_percent, solute_mass: solute_mass / (mass_percent / 100),
    "溶質のモル数が {moles_of_solute} mol で、溶液の体積が {volume_of_solution} L の場合、モル濃度を求めなさい。": lambda moles_of_solute, volume_of_solution: moles_of_solute / volume_of_solution,
    "モル濃度が {molarity} mol/L で、溶液の体積が {volume_of_solution} L の場合、溶質のモル数を求めなさい。": lambda molarity, volume_of_solution: molarity * volume_of_solution,
    "モル濃度が {molarity} mol/L で、溶質のモル数が {moles_of_solute} mol の場合、溶液の体積を求めなさい。": lambda molarity, moles_of_solute: moles_of_solute / molarity,
    "質量が {mass} g で、体積が {volume} mL の場合、密度を求めなさい。": lambda mass, volume: mass / volume,
    "密度が {density} g/mL で、体積が {volume} mL の場合、質量を求めなさい。": lambda density, volume: density * volume,
    "密度が {density} g/mL で、質量が {mass} g の場合、体積を求めなさい。": lambda density, mass: mass / density,
    "化学物質 {chemical} のモル質量が {molar_mass} g/mol の場合、 {moles} mol の質量を求めなさい。": lambda molar_mass, moles: molar_mass * moles,
    "15%(1~30のrandom,ステップ=0.1)の酢酸({chemical})水溶液200g(1~10000の乱数,整数)に含まれる酢酸分子の物質量を求めよ。": lambda chemical, molar_mass, concentration, solution_mass: (concentration / 100) * solution_mass / molar_mass,
    "3.8g(1~500の乱数, ステップ=0.1)の塩化マグネシウム({chemical})を水に溶かして100mL(100~10000,step=100)にした溶液のモル濃度を求めよ。": lambda chemical, molar_mass, solute_mass, solution_volume: solute_mass / molar_mass / (solution_volume / 1000),
    "8.0g（乱数,1~100,整数, 個々の変数名を'solute'とする)の水酸化ナトリウム({chemical})を水に溶かして{solvent}gにした水溶液の密度は1.25g((solute+solvent)/solvent)である。この溶液のモル濃度を求めよ。": lambda chemical, molar_mass, solute, solvent: solute / molar_mass / (solute + solvent) * (solute + solvent) / (solute + solvent) 
}



@app.route('/')
def index():
    # ランダムなテンプレートを選択
    template = random.choice(list(templates.keys()))
    
    # テンプレートに必要な変数を生成
    solute_mass = round(random.uniform(1, 100), 2) if 'solute_mass' in template else None
    solution_mass = round(random.uniform(100, 1000), 2) if 'solution_mass' in template else None
    mass_percent = round(random.uniform(1, 50), 2) if 'mass_percent' in template else None
    moles_of_solute = round(random.uniform(0.1, 10), 2) if 'moles_of_solute' in template else None
    volume_of_solution = round(random.uniform(0.1, 10), 2) if 'volume_of_solution' in template else None
    molarity = round(random.uniform(0.1, 10), 2) if 'molarity' in template else None
    mass = round(random.uniform(1, 1000), 2) if 'mass' in template else None
    volume = round(random.uniform(1, 1000), 2) if 'volume' in template else None
    density = round(random.uniform(0.5, 20), 2) if 'density' in template else None
    chemical = random.choice(list(questions.keys())) if 'chemical' in template else None
    molar_mass = questions[chemical] if chemical else None
    moles = round(random.uniform(0.1, 10), 2) if 'moles' in template else None
    concentration = generate_non_repeating_decimal(1, 30, 1) if 'concentration' in template else None
    solution_mass_2 = random.randint(1, 10000) if 'solution_mass_2' in template else None
    solute = random.randint(1, 100) if 'solute' in template else None
    solvent = solute + random.randint(1, 100) if 'solvent' in template else None
    
    # テンプレートに変数を埋め込んで問題を生成
    question = template.format(
        solute_mass=solute_mass,
        solution_mass=solution_mass,
        mass_percent=mass_percent,
        moles_of_solute=moles_of_solute,
        volume_of_solution=volume_of_solution,
        molarity=molarity,
        mass=mass,
        volume=volume,
        density=density,
        chemical=chemical,
        molar_mass=molar_mass,
        moles=moles,
        concentration=concentration,
        solution_mass_2=solution_mass_2,
        solute=solute,
        solvent=solvent
    )

    # 答えを計算
    answer = None
    if "求めなさい" in template:
        formula = templates[template]
        answer = formula(
            solute_mass,
            solution_mass,
            mass_percent,
            moles_of_solute,
            volume_of_solution,
            molarity,
            mass,
            volume,
            density,
            molar_mass,
            moles,
            concentration,
            solution_mass_2,
            solute,
            solvent
        )

    session['question'] = question
    session['answer'] = answer
    return render_template('index.html', question=question)

@app.route('/check', methods=['POST'])
def check():
    user_answer = float(request.form['answer'])
    correct_answer = session.get('answer')
    question = session.get('question')

    if correct_answer is not None and round(user_answer, 2) == round(correct_answer, 2):
        result = '正解です！'
    else:
        result = '不正解です。正しい答えは {} です。'.format(correct_answer)
    
    return render_template('result.html', result=result, question=question)

if __name__ == '__main__':
    app.run(debug=True, host="0.0.0.0", port=7860)