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farmer.py
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farmer.py
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from land import Land
from datetime import date
from time import ctime
from utility import Utility
class Farmer():
''' This class creates a amount of plants to Farmer as a batch or groups of plants '''
farmerLandRid = 0
farmerRid = 1
def __init__(self):
self.farmerRid = Farmer.farmerRid
Farmer.farmerRid += 1
self.lands = {}
def __str__(self):
return 'Farmer(Plum): {}/{}/{}/{}'.format(self.batchRid, self.batchPlantName, self.batchDate, self.batch)
def __repr__(self):
return '{}()'.format(self.__class__.__name__)
# BEHAVIORS
def make_plan(self, landArea, plantName, productionBatches=1):
pass
def prepare_crop(self, landArea, plantName, productionBatches=1):
land = { '{}'.format( plantName ): Land(landArea, plantName, productionBatches) for oneFarm in range( 1 ) } # reduce line with func
self.lands.update(land)
print( self.info() )
print('\n\n')
def land_info(self, land):
return self.lands[land].info()
def batch_info(self, land, batch):
return self.lands[land].bacthes[batch].info()
def info(self):
return 'FarmerID:{} - LandLIST: {}'.format(self.farmerRid, self.list())
def list(self):
return list( self.lands.keys() )
def get_land_list(self):
return list( self.lands.keys() )
def get_batch_list(self, landName):
return self.lands[landName].list()
def get_plant_list(self, landName, batchName):
return self.lands[landName].batches[batchName].list()
def land_data(self, cropName):
landData = self.lands[cropName].batches_data()
# print(landData)
return landData
# def get_batch_data_all(self):
# batchesData = ()
# for eachBatch in self.batches.keys():
# batchesData += self.batches[eachBatch].report_data()
# return batchesData
def sim_time(self, crop, qtyDays, mineralTag, mineralValue, water, hours):
self.lands[crop].sim_land(qtyDays, mineralTag, mineralValue, water, hours)
def calc_land_data(self, batchName):
batchQty, plantAmountTotal, landArea, yieldBachesCurrent, yieldBachesProjected, cropName = 0,0,0,0,0,0
for eachCrop in self.land_data(batchName):
batchQty += 1
plantAmountTotal += eachCrop['batchPlantAmount']
landArea += eachCrop['batchArea']
yieldBachesCurrent += eachCrop['batchYieldNow']
yieldBachesProjected += eachCrop['batchYieldProjected']
cropName = eachCrop['batchName']
reportHead = dict( batchQty=batchQty, cropName=cropName, yieldBachesProjected=round(yieldBachesProjected,2), plantAmountTotal=plantAmountTotal, landArea=landArea , yieldBachesCurrent=round(yieldBachesCurrent,2) )
print(reportHead)
return reportHead
def report(self, batchName):
landData = self.land_data(batchName)
reportHead = self.calc_land_data(batchName) # give data from all batches to compute land yields etc.
print(self.report_head(**reportHead))
for eachBatch in self.land_data(batchName):
print(self.report_body(**eachBatch))
print()
def report_head(self, cropName, plantAmountTotal, landArea, batchQty, yieldBachesCurrent, yieldBachesProjected):
return '''
############################################################
CROP REPORT
############################################################
{0}
{1} plants YIELD
{2} m2 Current: {4} kg
{3} Batches Projected: {5} kg
'''.format(cropName,plantAmountTotal,landArea,batchQty,yieldBachesCurrent,yieldBachesProjected)
def report_body(self, batchId, batchName, batchPlantAmount, batchArea, plantDensity, batchDaysHaverst, batchDaysGrowing, batchDaysCycle, batchYieldNow, batchYieldProjected):
return '''
####################
BATCH REPORT
####################
Batch ID {0}
{1} TIME YIELD
{2} plants {5} days to harvest {8} kg of current yield
Area of {3} m2 {6} days of current cultivation {9} kg of projected yield
Plant density of {4} m2 {7} days of cultivation
'''.format( batchId,
batchName,
batchPlantAmount,
batchArea,
plantDensity,
batchDaysHaverst,
batchDaysGrowing,
batchDaysCycle,
batchYieldNow,
batchYieldProjected
)
# feedData = {
# 'qtyDays' : 110,
# 'mineralTag' : 'Mg',
# 'mineralValue' : 3,
# 'water' : 250,
# 'hours' : 10,
# }
# TEST 1
# farmer1 = Farmer()
# farmer2 = Farmer()
# farmer3 = Farmer()
# farmer4 = Farmer()
# farmer1.prepare_crop(3, 'Cherry', 6)
# print()
# farmer3.prepare_crop(2, 'Pl', 3)
# print()
# farmer2.prepare_crop(2, 'Pl', 2)
# print()
# farmer4.prepare_crop(2, 'Pl', 2)
# print()
# farmer1.sim_time('Cherry',**feedData)
# print('\nLandLIST')
# print( farmer1.get_land_list() )
# print('\nbatchLIST')
# print( farmer1.get_batch_list('Cherry') )
# print('\nplantLIST')
# print( farmer1.get_plant_list('Cherry', 'Cherry1') )
# print('\nplantLIST')
# print( farmer1.get_plant_list('Cherry', 'Cherry2') )
# loco = farmer1.lands['Cherry'].list()
# # loco1 = farmer1.lands['Cherry'].batches['Cherry0'].batch
# loco2 = farmer1.lands['Cherry'].batches['Cherry1'].list()
# print(loco)
# # print(loco1)
# print(loco2)
# print('\n\n')
# print('LAND DATA')
# # for eachBatch in farmer1.land_data('Cherry'):
# # print('\nBATCH DATA')
# # print((eachBatch))
# # print( farmer1.land_data('Cherry') )
# farmer1.report('Cherry')
# TEST 2
# farmer1 = Farmer('Plum',10)
# farmer1.make_batch()
# print(farmer1.batch)
# farmer1.age_batch(170)
# print()
# print('START GROWING')
# days = 70
# for i in range(days):
# farmer1.grow_batch()
# print ('growing for {} days'.format(days))
# print('STOP GROWING..\n')
# print('batch_id')
# print(farmer1.batch_id())
# print(farmer1.yield_projected())
# # print('')
# # print('batch_age')
# print(farmer1.batch_age())
# print('')
# print('batch_fruiting')
# print(farmer1.batch_fruiting())
# print('')
# print('batch_yield')
# print(farmer1.batch_yield())
# print('')
# print('yield_projected')
# print(farmer1.yield_projected())
# print('')
# print('yield_current')
# print(farmer1.yield_current())
# print('')
# print('batch_duration')
# print(farmer1.batch_duration())
# print('')
# print('batch_duration_current')
# print(farmer1.batch_duration_current())
# print('')
# print('batch_duration_left')
# print(farmer1.batch_duration_left())
# print('')
# # print('make_batch')
# # print(farmer1.make_batch())
# # print('')
# print('grow_batch')
# print(farmer1.grow_batch())
# print('')
# print('age_batch')
# print(farmer1.age_batch(days = 0))
# print('')
# print('batch_fruiting')
# print(farmer1.batch_fruiting())
# print('')
# print('plant_area')
# print(farmer1.plant_area())
# print('')
# print('plant_density')
# print(farmer1.plant_density())
# print('')
# print('plant_num_per_area')
# print(farmer1.plant_num_per_area())
# print('')