class for creating binomial trees for options pricing
Reason this release was yanked:
requirements too specific
Project description
Binomial Tree for Options Pricing
Motivation:
Started as a project for learning in relation to school but turned out as a tool that could be useful for more.
What does it do?
This class will construct/calculate/make/whatever a binomial tree with given parameters and calculate option prices for both American and European Call and Put options.
- The class will make tree objects with Dataframe representation (except for non-recombining trees).
- The
write()
method will generate an Excel file with the result.
Dividends
The class can take dividends into account (dividend yield and discrete dividends). It has 2 ways of solving for discrete dividends, the 'F solution' and 'non-recombining'.
F solution
Subtracts the present value from current spot, and makes binomial tree based on this 'pre-paid forward'.
Non-recombining tree
As the name suggests, the tree does not recombine after dividend payout and calculates the option premium as normal (assumes that we can trade just before and after stock goes ex-div)
Installation and import
Installation
The project can be installed from pip with the command:
pip install binotree
Quickstart
Passing arguments
import binotree as bt
parameters = dict(fname = 'NormalTree',
spot = 50, strike = 50,
T = 3/12, dt = 1/12, dtfreq = 'm',
vola = 0.30, r = 0.03)
treeObject = bt.tree(params = parameters)
The class can also take in the parameters directly as keywords:
import binotree as bt
treeObject = bt.tree(fname = 'NormalTree',
spot = 50, strike = 50,
T = 3/12, dt = 1/12, dtfreq = 'm',
vola = 0.30, r = 0.03)
In the case of both a parameters dictionary and keywords, the two will merge,
and keywords will override any conflicting parameters:
import binotree as bt
parameters = dict(fname = 'NormalTree',
spot = 50, strike = 50,
T = 3/12, dt = 1/12, dtfreq = 'm',
vola = 0.30, r = 0.03)
treeObject = bt.tree(params = parameters, vola = 0.20)
(here the vola specification from the dictionary will be replaced with 0.20)
Access the binomial tree from console
European call/put and american call/put are all calculated by default
(can be changed through the maketrees
parameter).
The bt.tree object will store a tree object for each option type calculated.
Access the european call tree as such:
treeObject.ecTree
dt -> 0/12 1/12 2/12 3/12
Spot 64.834
[Intrinsic] [14.834]
(Premium) (14.834)
59.4555
[9.4555]
(9.5803)
54.5232 54.5232
[4.5232] [4.5232]
(5.8343) (4.5232)
50.0 50.0
[0.0] [0.0]
(3.4209) (2.2235)
45.8521 45.8521
[0.0] [0.0]
(1.093) (0.0)
42.0483
[0.0]
(0.0)
38.56
[0.0]
(0.0)
In case your tree is too big for a proper representation in the console,
you can access any node you want by calling the tree object:
treeObject.ecTree(up = 1, down = 0)
{'Spot': 54.5232,
'Intrinsic': 4.5232,
'Premium': 5.8343,
'Delta': 0.7781,
'Bond': -36.5877}
Write to excel file
Simply call the write()
method to write to excel file. Pass the direc
parameter
in construction to specify directory
(if none is passed, the working directory is used).
import binotree as bt
parameters = dict(fname = 'NormalTree',
spot = 50, strike = 50,
T = 3/12, dt = 1/12, dtfreq = 'm',
vola = 0.30, r = 0.03)
treeObject = bt.tree(params = parameters, direc = 'your/directory/here')
treeObject.write()
# The following print message will show where your file was made:
# File was made at: 'your/directory/here/NormalTree.xlsx
The file should look something like this:
(each option type is given its own sheet in the excel file)
Full parameter specification
How to pass parameters/arguments:
There are 2 ways of parsing arguments:
- A dictionary
- Keyword arguments (kwargs)
If both a dictionary and keyword arguments are parsed they will join together. Keyword arguments will override any parameters passed in both the dictionary and as keyword arguments.
Which parameters to pass:
If nothing is passed, the help()
method will print help for specifying parameters
Spot and strike
Both must be passed
spot
strike
Time and period specification
Must be in terms of years (e.g., maturity in 6 months would be T = 6/12 ).
The variable dtfreq
can be passed as a string ('d'
, 'w'
, or 'm'
) for
prettier formatting in output.
2 of 3 must be passed
T
dt
periods
Interest rate, dividend yield, and continuous compounding
0 of 3 must be passed
r
rcont
divyield
Volatility and up/down movements
1 of 3 must be passed
vola
u
d
For custom function for calculating up/down movements, see udfunc specification.
Dividends
0 of 2 must be passed
discdiv
nonrec
Directory for Excel output
0 of 4 must be passed
direc
folname
fname
write
Various
0 of 5 must be passed
collapsed
maketrees
headerformat
rounding
makedfs
portfolios
showIntrinsic
Examples of use
imports
import binotree as bt
Normal tree
Simple 3-period binomial tree:
parsNormal = dict(fname = 'NormalTree',
spot = 100, strike = 95,
dt = 1/12, periods = 3,
vola = 0.20, r = 0.05,
showIntrinsic = True, # True is default
dtfreq = 'm', rounding = 4)
binoNormal = bt.tree(params = parsNormal)
Tree preview
The binomial tree for the European Call is accessed by binoNormal.ecTree
Callable tree
In case your binomial tree is big and won't print neatly you can access each node by
calling the tree object with up
and down
passed:
write()
method
typing binoNormal.write()
in the console an Excel file will be generated. Either in the
current working directory, or passed directory through the direc
parameter.
The location of the file should be printed.
binoNormal.write(fname_override = 'NEW_FILENAME',
width = int("{your file window width}"), height = int("{file window height}"))
File was made at: {your directory here}/NEW_FILENAME.xlsx
Plotting methods
The plotting methods can take in keywords to alter the original parameters
Plotting deltas w.r.t. current spot:
binoNormal.ecPlotDeltas()
Changing periods for plot to make it smoother:
binoNormal.ecPlotDeltas(periods = 30)
Plotting price w.r.t. current spot:
binoNormal.ecPlotPrice()
Changing strike for plot:
binoNormal.ecPlotPrice(strike = 40)
Plotting price w.r.t. periods used in binomial tree:
binoNormal.ecPlotPeriods()
Plotting binomial spot tree with distribution of last period:
binoNormal.plotSpots()
Changing number of periods in tree (with T
remaining the same)
binoNormal.plotSpots(periods = 30)
Replicating portfolios
The program calculates option prices in each node through risk-neutral pricing,
then calculates the replicating portfolios after (it was faster that way).
Any difference between the risk-neutral pricing result, and the replicating portfolio pricing should
only be due to rounding errors.
Setting the portoflios
parameter to True
will include the replicating portfolios as
separate sheets in the Excel file. (This will slow down excecution, especially if periods
is high)
binoNormal = bt.tree(params = parsNormal,
rounding = 2,
portfolios = True,
write = True # setting write to True makes an Excel file from construction
)
**! The errors are to be fixed !**
Discrete dividends
Discrete dividends can be passed through the discdiv
parameter:
discdiv = [(1/12, 2)]
F tree
For discrete dividends, the F solution will be the default as it is faster than nonrec:
parsF = dict(fname = 'Ftree',
spot = 50, strike = 50,
dt = 1/12, periods = 3,
vola = 0.30, r = 0.03,
dtfreq = 'm')
binoF = bt.tree(params = parsF,
discdiv = [(1/12, 2)])
Non-recombining tree
For discrete dividends -> non-recombining tree.
Obtained by passing nonrec
as True
parsNonrec = dict(fname = 'nonrecTree',
spot = 50, strike = 50,
dt = 1/12, periods = 3,
vola = 0.30, r = 0.03,
dtfreq = 'm')
binoNonrec = bt.tree(params = parsNonrec,
discdiv = [(1/12, 2)], nonrec = True)
binoNonrec.write()
Object as callable
The tree object is callable, meaning an instance of the object can be
used as a function.
This can be handy for getting values in loops or quickly getting new values without
re-specifying all the parameters.
As a default the class will make american call and put, aswell as european call and put,
unless the maketrees
keyword states otherwise. If only one or some specific option types
are needed, it would be more efficient to specify which types to make.
Example:
As periods becomes large (i.e., dt becomes small), the rounding parameter needs to be sufficiently large to avoid miscalculation.
pars = dict(fname = 'myTree',
spot = 50, strike = 50,
dt = 1/12, periods = 3,
vola = 0.30, r = 0.03,
dtfreq = 'm', rounding = 8)
binoNormal = bt.tree(params = pars,
maketrees = ['ec', 'ep'])
ec_ep_50periods = binoNormal(['ecOptionPrice', 'epOptionPrice'], periods = 50)
ec_ep_50periods = {'ecOptionPrice': 3.15373942,
'epOptionPrice': 2.78014216}
Returns the european call and put price with all parameters remaining the same, except periods being 50.
In a loop:
ecList = []
for i in range(1, 100):
ecList.append(binoNormal(['ecOptionPrice'], maketrees = ['ec'], periods = i))
Makes a list of the european call price.
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