TranShk = 1.1
cTranImpulseResponse = AggCons_impulseResponseInd(IndShockExample, PermShk,
TranShk, 100, 25)
plt.plot(cTranImpulseResponse)
print(
'Impulse response to a one time permanent and transitive shock to income of 10%:'
)
plt.show()
##########################################
# Now do aggregate shocks of a market
# Make an aggregate shocks consumer
AggShockExample = AggShockConsumerType(**Params.init_agg_shocks)
AggShockExample.cycles = 0
AggShockExample.sim_periods = 3000
AggShockExample.makeIncShkHist(
) # Simulate a history of idiosyncratic shocks
# Make a Cobb-Douglas economy for the agents
EconomyExample = CobbDouglasEconomy(agents=[AggShockExample],
act_T=AggShockExample.sim_periods,
**Params.init_cobb_douglas)
EconomyExample.makeAggShkHist() # Simulate a history of aggregate shocks
# Have the consumers inherit relevant objects from the economy
AggShockExample.getEconomyData(EconomyExample)
# Solve the microeconomic model for the aggregate shocks example type (and display results)
t_start = clock()
AggShockExample.solve()
t_end = clock()
###############################################################################
if __name__ == '__main__':
import ConsumerParameters as Params
from time import clock
from HARKutilities import plotFuncs
mystr = lambda number: "{:.4f}".format(number)
# Make an aggregate shocks sticky expectations consumer
StickyExample = AggShockStickyExpectationsConsumerType(
**Params.init_sticky_shocks)
NotStickyExample = AggShockConsumerType(**Params.init_sticky_shocks)
StickyExample.cycles = 0
NotStickyExample.cycles = 0
StickyExample.sim_periods = 3000
NotStickyExample.sim_periods = 3000
StickyExample.makeIncShkHist(
) # Simulate a history of idiosyncratic shocks
NotStickyExample.makeIncShkHist(
) # Simulate a history of idiosyncratic shocks
# Make a Cobb-Douglas economy for the agents
StickyEconomyExample = CobbDouglasEconomy(agents=[StickyExample],
act_T=StickyExample.sim_periods,
**Params.init_cobb_douglas)
NotStickyEconomyExample = CobbDouglasEconomy(
agents=[NotStickyExample],
act_T=NotStickyExample.sim_periods,
**Params.init_cobb_douglas)
StickyEconomyExample.makeAggShkHist(
) # Simulate a history of aggregate shocks
