#declare coefficients & initial settings
coef, set, sol = declare_coef() #1
#to plot interactively
plt.ion()
while set['t'] <= set['T'] and set['k'] < set['Nt']:
if set['con'] == True:
sol = main.continuous_iter(coef, set, sol)
'''PRINTING RESULT AS CONTROL'''
print 'at Time', set['t']
if not coef['Si'] == 0:
print 'NILAI C, b, n MAX', sol['c'].max(),',', sol['b'].max(),',', sol['n'].max()
print 'NILAI C, b, n MIN', sol['c'].min(),',', sol['b'].min(),',', sol['n'].min()
else:
sol = main.boolean_1_iter(coef, set, sol) #2
if sol['stop_iter'] >=100000:
set['k'] = sol['stop_iter']
'''PRINTING RESULT AS CONTROL'''
print 'at Time', set['t']
print 'Total Tips:', len(sol['matrix_tip'])
print 'Total Stop Tips:', len(sol['sp_stop'])
if not coef['C_2'] == 0:
print 'NILAI C, b, n MAX', sol['c'].max(),',', sol['b'].max(),',', sol['n'].max()
print 'NILAI C, b, n MIN', sol['c'].min(),',', sol['b'].min(),',', sol['n'].min()
else:
print 'NILAI C MAX', sol['c'].max()
print 'NILAI C MIN', sol['c'].min()
#print sol['tip_cell']
import numpy
from timeit import default_timer as timer
import time
import matplotlib.pyplot as plt
#declare coefficients & initial settings
coef, set, sol = declare_coef() #1
#to plot interactively
plt.ion()
while set['t'] <= set['T'] and set['k'] < set['Nt']:
if set['con'] == True:
sol = main2.con_(coef, set, sol)
else:
sol = main.boolean_1_iter(coef, set, sol) #2
if sol['stop_iter'] >=100000:
set['k'] = sol['stop_iter']
'''PRINTING RESULT AS CONTROL'''
print 'at Time', set['t']
print 'Total Tips:', len(sol['matrix_tip'])
print 'Total Stop Tips:', len(sol['sp_stop'])
if not coef['Si'] == 0:
print 'NILAI C, b MAX', sol['c'].max(),',', sol['b'].max()
print 'NILAI C, b MIN', sol['c'].min(),',', sol['b'].min()
else:
print 'NILAI C MAX', sol['c'].max()
print 'NILAI C MIN', sol['c'].min()
#print sol['tip_cell']
