def __init__(self, *args, **kwargs):
self.id = kwargs.get('id','')
self.desc = kwargs.get('desc','description n/a')
self.delay_start = kwargs.get('delay_start',0)
self.ignore_old = kwargs.get('ignore_old',True)
self.n = 0
self.order_mngr = Order_Manager(*args, **kwargs)
self.stats_mngr = Statistics(*args, **kwargs)
self.metrics = Environment()
self.metrics.funcs = OrderedDict()
self.now_dt = None
self.last_now = None
self.recorded_keys = None
self.last_recorded_dt = None
self.initialize(*args, **kwargs)
class Algorithm(object):
"""
Base class for trading algorithms. Inherit and overload
initialize() and process_data().
Parameters
----------
id : str , required
desc : str , default 'description n/a'
delay_start : int, optional, default 0
used to delay the processing of data by the algorithm
useful when an algorithm needs to access x data in past, which
may or may not exist yet.
i.e. eod[4] even though the data only goes back to eod[2]. Algorithm
could use delay_start=4 to prevent any key errors being thrown
Returns
-------
n/a
See Also
--------
quant.examples.example_algo
quant.example.sexample_suite
Notes
-----
self.delay_start is not needed majority of time.
If SPY data goes back to 1993-1-1, and simulation starts on 1993-1-2 and
algorithm checks eod[4].c > eod[0].c then an error would be thrown
Examples
--------
class MyAlgo(TradingAlgorithm):
def initialize(amount, *args, **kwargs):
self.shares = amount
def process_data(env):
eod = env['eod']['SPY']
self.order(eod, self.sharess)
"""
def __init__(self, *args, **kwargs):
self.id = kwargs.get('id','')
self.desc = kwargs.get('desc','description n/a')
self.delay_start = kwargs.get('delay_start',0)
self.ignore_old = kwargs.get('ignore_old',True)
self.n = 0
self.order_mngr = Order_Manager(*args, **kwargs)
self.stats_mngr = Statistics(*args, **kwargs)
self.metrics = Environment()
self.metrics.funcs = OrderedDict()
self.now_dt = None
self.last_now = None
self.recorded_keys = None
self.last_recorded_dt = None
self.initialize(*args, **kwargs)
def initialize_recorder(self, recorded_vars, cache=False, fn=''):
"""
Initializes recording functionality for algorithm.
Parameters
----------
recorded_vars : list or dict , required
use a list to initialize record() from algorithm.initialize()
The list should contain keys of the variables to store in the
order they should be listed in the record file where they are
used as headers.
Use a dict from within algorithm.process_data() where values
are keyed to the same key names used in initialization.
cache : bool, optional, default=False
used to determine if recorded variables should be stored in history
Maintaining a history of recorded variables is discouraged as it
uses a lot of memory and is not necessary. If you absolutely need to
keep track of a variable in history, use a metric
fn : string, optional, default=''
filename where recorded variables should be stored
Returns
-------
sets up self.recorded_keys and self.recorded and the output file
See Also
--------
n/a
Notes
-----
n/a
Examples
--------
class MyAlgo(TradingAlgorithm):
def initialize(amount, *args, **kwargs):
self.record(['gap_size', 'open_price', 'action'])
self.initialize_recorder(['gap_size', 'open_price', 'action'], cache=False, fn='myDir/records.csv')
"""
self.recorded = OrderedDict()
self.record_fn = fn if fn != '' else self.id+ '_record.csv'
with open(self.record_fn, 'w') as f:
f.write('Date,'+','.join(recorded_vars)+'\n')
self.recorded_keys = recorded_vars
self.cache_recorded = cache
def update_strat(self, env, *args, **kwargs):
self.now_dt = env.now_dt
if self.n < self.delay_start:
self.last_now = env.now_dt
return
self.order_mngr.update(env)
try:
self.process_data(env)
except Date_Not_In_History_Error as e:
if self.ignore_old:
return
else:
raise e
self.last_now = env.now_dt
self.stats_mngr.update(env,self.order_mngr.closed_pos[self.stats_mngr.n:])
if self.recorded_keys != None:
self.record({})
def add_metric(self, metrics):
if type(metrics) != list:
metrics = [metrics]
for m in metrics:
self.metrics.funcs[m.id] = m
self.metrics.add_data(m.id, OrderedDict())
def update_metrics(self, env):
self.n += 1
self.metrics.update(env.now_dt)
for k,m in self.metrics.funcs.items():
self.metrics.data[m.id][env.now_dt] = m.update(env)
def order(self, sid, shares, price, **kwargs):
"""
API
front end order_processer for quant.finances.algorith.process_data
this is only order method a user is allowed to access
"""
self.order_mngr.order(sid, shares, price, **kwargs)
def record(self, recorded_vars):
"""
Adds recording functionality to algorithms. Can record any number of
self defined variables. Can be called anywhere within algorithm
All variables will be stored according to date they were generated.
Parameters
----------
recorded_vars : list or dict , required
Use a dict from within algorithm.process_data() where values
are keyed to the same key names used in initialization.
Returns
-------
saves all recorded values to self.recorded, a dict keyed by datetime.
self.recorded is cleared out at each new day based on self.cache_recorded
Appends all recorded values in a csv file format to self.recorded_fn
See Also
--------
n/a
Notes
-----
Examples
--------
class MyAlgo(TradingAlgorithm):
def initialize(amount, *args, **kwargs):
self.initialize_recorder(['gap_size', 'open_price', 'action'], False, fn='mydir/record.csv')
def process_data(env):
eod = env['eod']['SPY']
self.record({'gap_size': eod.o - eod[1].c, 'open_price': eod.o})
self.record({'action': 'buy'})
"""
if len(recorded_vars) == 0 and self.last_recorded_dt in self.recorded:
f = open(self.record_fn, 'a')
f.write('%s,'%(self.last_recorded_dt))
for k in self.recorded_keys:
f.write('%s,' % self.recorded[self.last_recorded_dt].get(k,''))
f.write('\n')
f.close()
if not self.cache_recorded:
self.recorded.pop(self.last_recorded_dt)
self.last_recorded_dt = None
elif len(recorded_vars) == 0:
return
else:
if self.now_dt not in self.recorded:
self.recorded[self.now_dt] = OrderedDict()
for k, v in recorded_vars.items():
self.recorded[self.now_dt][k] = v
self.last_recorded_dt = self.now_dt
def initialize(self, *args, **kwargs):
"""
All Algorithm administrative actions take place here.
An example of things that should be done in initiliaze() are but not
limited to:
self.id = 'algorithm_title
self.desc = 'algorithm description'
self.add_metric()
initialize_recorder()
self.delay_start = 4
Parameters
----------
*args / **kwargs : any , optional
passed down from simulator
Returns
-------
n/a
See Also
--------
n/a
Notes
-----
n/a
Examples
--------
class MyAlgo(TradingAlgorithm):
def initialize(amount, *args, **kwargs):
self.id = 'myalgo'
self.desc = 'My super awesome algorithm'
self.add_metric(Min(id='8daylow',window=8,func=lambda env: env.c),['SPY'])
self.delay_start = 3
self.initialize_recorder(['gap_size', 'open_price', 'action'])
"""
pass
def process_data(self, env, *args, **kwargs):
pass
