Metadata-Version: 2.1
Name: qfin
Version: 0.0.12
Summary: A Python package for mathematical finance.
Home-page: UNKNOWN
Author: Roman Paolucci
Author-email: <romanmichaelpaolucci@gmail.com>
License: MIT
Description: # Q-Fin
        A mathematical finance Python library
        
        ## Installation
        https://pypi.org/project/QFin/
        ```
        pip install qfin
        ```
        
        # Time Value of Money
        
        # Bond Pricing
        
        # Option Pricing
        
        ### <a href="https://medium.com/swlh/deriving-the-black-scholes-model-5e518c65d0bc"> Black-Scholes Pricing</a>
        Theoretical options pricing for non-dividend paying stocks is available via the BlackScholesCall and BlackScholesPut classes.
        
        ```Python
        # 100 - initial underlying asset price
        # .3 - asset underlying volatility
        # 100 - option strike price
        # 1 - time to maturity (annum)
        # .01 - risk free rate of interest
        euro_call = BlackScholesCall(100, .3, 100, 1, .01)
        euro_put = BlackScholesPut(100, .3, 100, 1, .01)
        ```
        
        ```Python
        print('Call price: ', euro_call.price)
        print('Put price: ', euro_put.price)
        ```
        
        ```
        Call price:  12.361726191532611
        Put price:  11.366709566449416
        ```
        
        ### Option Greeks
        First-order and some second-order partial derivatives of the Black-Scholes pricing model are available.
        
        #### Delta
        First-order partial derivative with respect to the underlying asset price.
        ```Python
        print('Call delta: ', euro_call.delta)
        print('Put delta: ', euro_put.delta)
        ```
        ```
        Call delta:  0.5596176923702425
        Put delta:  -0.4403823076297575
        ```
        
        #### Gamma
        Second-order partial derivative with respect to the underlying asset price.
        ```Python
        print('Call gamma: ', euro_call.gamma)
        print('Put gamma: ', euro_put.gamma)
        ```
        ```
        Call gamma:  0.018653923079008084
        Put gamma:  0.018653923079008084
        ```
        
        #### Vega
        First-order partial derivative with respect to the underlying asset volatility.
        ```Python
        print('Call vega: ', euro_call.vega)
        print('Put vega: ', euro_put.vega)
        ```
        ```
        Call vega:  39.447933090788894
        Put vega:  39.447933090788894
        ```
        
        #### Theta
        First-order partial derivative with respect to the time to maturity.
        ```Python
        print('Call theta: ', euro_call.theta)
        print('Put theta: ', euro_put.theta)
        ```
        ```
        Call theta:  -6.35319039407325
        Put theta:  -5.363140560324083
        ```
        
        # Simulation Pricing
        
        ### <a href="https://medium.com/swlh/python-for-pricing-exotics-3a2bfab5ff66"> Exotic Options </a>
        Simulation pricing for exotic options is available under the assumptions associated with Geometric Brownian motion.
        
        #### Binary Options
        ```Python
        # 100 - strike price
        # 50 - binary option payout
        # 1000 - number of simulated price paths
        # .01 - risk free rate of interest
        # 100 - initial underlying asset price
        # 0 - underlying asset drift (mu)
        # .3 - underlying asset volatility 
        # 1/52 - time steps (dt)
        # 1 - time to maturity (annum)
        binary_call = MonteCarloBinaryCall(100, 50, 1000, .01, 100, 0, .3, 1/52, 1)
        binary_put = MonteCarloBinaryPut(100, 50, 1000, .01, 100, 0, .3, 1/52, 1)
        ```
        
        ```Python
        print(binary_call.price)
        print(binary_put.price)
        ```
        
        ```
        22.42462873441866
        27.869902820039087
        ```
        # Futures Pricing
        
Keywords: python,finance
Platform: UNKNOWN
Classifier: Development Status :: 1 - Planning
Classifier: Intended Audience :: Developers
Classifier: Programming Language :: Python :: 3
Classifier: Operating System :: Unix
Classifier: Operating System :: MacOS :: MacOS X
Classifier: Operating System :: Microsoft :: Windows
Description-Content-Type: text/markdown
