# refactor code in order to use 3 values to make plot & tuple indices must be integers, not float

I have a code in which for 3 different values of D ,i have 3 different values of dx and so,3 different plots.

I want to do a plot which will have all 3 plots in one.

``````...
D=(0.133e-4,0.243e-4,0.283e-4)

dx=sc.zeros(3)
for i in D:
dx[i]=sc.sqrt(D[i]*dt/M)

plt.ion()
while n<N:
Vw_n=Vw_n1
C_n=C_n1
R2=(Vw_n+B1)/(Vw_0+B1)
Cc=C_n1[0]/C0
F2_1=10000/3*Pw*A*(C0*Vw_0/Vw_n1-C_n[1])
dV=F2_1*dt
Vw_n1=Vw_n+dV
C_n1[0]=C0*Vw_0/Vw_n1
F_i_2=-D[i]/dx[i]*(C_n[1:7]-C_n[0:6])
C_n1[0:6]=C_n[0:6]-F_i_2*A*dt/(L/(V0/A)*V0/5)
n+=1
ttime=n*0.02*1000

#-----PLOT AREA---------------------------------#

mylabels=('T=273','T=293','T=298')
colors=('-b','or','+k')

if x==1:
plt.plot(ttime,R2,mylabels[i],colors[i])
elif x==2:
plt.plot(ttime,Cc,mylabels[i],colors[i])
plt.draw()
plt.show()
``````

----------RUNNABLE--------------------------

``````import scipy as sc
import matplotlib.pyplot as plt

def graph(x):

A=1.67e-6
V0=88e-12
Vw_n1=71.7/100*V0
Pw=0.22
L=4e-4
B1=V0-Vw_n1

C7=0.447e-3

dt=0.2e-4
M=0.759e-1

C_n1=sc.zeros(7)
C_n1[0:6]=0.290e-3
C_n1[6]=0.447e-3

C0=C_n1[0]
Vw_0=Vw_n1

N=2000
n =1
D = ,0.243e-4
dx = sc.sqrt(D*dt/M)

plt.ion()
while n<N:
Vw_n=Vw_n1
C_n=C_n1
R2=(Vw_n+B1)/(Vw_0+B1)
Cc=C_n1[0]/C0
F2_1=10000/3*Pw*A*(C0*Vw_0/Vw_n1-C_n[1])
dV=F2_1*dt
Vw_n1=Vw_n+dV
C_n1[0]=C0*Vw_0/Vw_n1
F_i_2=-D/dx*(C_n[1:7]-C_n[0:6])
C_n1[0:6]=C_n[0:6]-F_i_2*A*dt/(L/(V0/A)*V0/5)
n+=1
ttime=n*0.02*1000

#-----PLOT AREA---------------------------------#

if x==1:
plt.plot(ttime,R2)
elif x==2:
plt.plot(ttime,Cc)
plt.draw()
plt.show()
``````

My problem is that i want to plot (ttime,R2) and (ttime,Cc). But i can't figure how to call R2 and Cc for the 3 different values of D (and dx).

Also, i am taking an error: tuple indices must be integers, not float

at dx[i]=sc.sqrt(D[i]*dt/M).

Thanks!

-

Consider these lines:

``````D=(0.133e-4,0.243e-4,0.283e-4)
for i in D:
dx[i]=sc.sqrt(D[i]*dt/M)
``````

`i` is a float. It can not be used as an index into the tuple `D`. (`D[i]` does not make sense.)

Perhaps you meant

``````D=(0.133e-4,0.243e-4,0.283e-4)
for i, dval in enumerate(D):
dx[i] = sc.sqrt(dval*dt/M)
``````

Or, simply

``````import scipy as sc
D = sc.array([0.133e-4,0.243e-4,0.283e-4])
dx = sc.sqrt(D*dt/M)
``````

• Don't call `plt.plot` once for each point. That road leads to sluggish behavior. Instead, accumulate an entire curve's worth of data points, and then call `plt.plot` once for the entire curve.
• To plot 3 curves on the same figure, simply call `plt.plot` 3 times. Do that first before calling `plt.show()`.
• The `while not flag` loop was not ending when you enter `1` for `x`, because `if x==2` should have been `elif x==2`.
• To animate a matplotlib plot, you should still try to avoid multiple calls to `plt.plot`. Instead, use `plt.plot` once to make a `Line2D` object, and then update the underlying data with calls to `line.set_xdata` and `line.set_ydata`. See Joe Kington's example and this example from the matplotlib docs.

``````import scipy as sc
import matplotlib.pyplot as plt

def graph(x):
plt.ion()
fig = plt.figure()
lines = []
D = (0.133e-4, 0.243e-4, 0.283e-4)
temperatures = ('T = 273','T = 293','T = 298')
N = 2000
linestyles = ('ob', '-r', '+m')
for dval, linestyle, temp in zip(D, linestyles, temperatures):
line, = ax.plot([], [], linestyle, label = temp)
lines.append(line)
plt.xlim((0, N*0.02*1000))
if x == 1:
plt.ylim((0.7, 1.0))
else:
plt.ylim((1.0, 1.6))
plt.legend(loc = 'best')
for dval, line in zip(D, lines):
A = 1.67e-6
V0 = 88e-12
Vw_n1 = 71.7/100*V0
Pw = 0.22
L = 4e-4
B1 = V0-Vw_n1
C7 = 0.447e-3
dt = 0.2e-4
M = 0.759e-1
C_n1 = sc.zeros(7)
C_n1[0:6] = 0.290e-3
C_n1[6] = 0.447e-3
C0 = C_n1[0]
Vw_0 = Vw_n1

tvals = []
yvals = []
dx = sc.sqrt(dval*dt/M)
for n in range(1, N+1, 1):
Vw_n = Vw_n1
C_n = C_n1
R2 = (Vw_n+B1)/(Vw_0+B1)
Cc = C_n1[0]/C0
F2_1 = 10000/3*Pw*A*(C0*Vw_0/Vw_n1-C_n[1])
dV = F2_1*dt
Vw_n1 = Vw_n+dV
C_n1[0] = C0*Vw_0/Vw_n1
F_i_2 = -dval/dx*(C_n[1:7]-C_n[0:6])
C_n1[0:6] = C_n[0:6]-F_i_2*A*dt/(L/(V0/A)*V0/5)
tvals.append(n*0.02*1000)
yvals.append(R2 if x == 1 else Cc)
if not len(yvals) % 50:
line.set_xdata(tvals)
line.set_ydata(yvals)
fig.canvas.draw()

if __name__ == "__main__":
flag = False
while not flag:
try:
x = int(raw_input("Give a choice 1  or 2  : "))
flag = True
if x == 1:
plt.title('Change in cell volume ratio as a function of time \n\
at various temperatures')
plt.xlabel('Time')
plt.ylabel('Ceil volume ratio (V/V0)')
graph(x)
elif x == 2:
plt.title('Increase of solute concentration at various temperatures')
plt.xlabel('Time')
plt.ylabel('Solute concentration in the Ceil (Cc)')
graph(x)
else:
flag = False
print("You must input 1 or 2")
except ValueError:
print("You must input 1 or 2")
raw_input('Press a key when done')
``````
-
:(i updated) I use scipy arrays.Now (weird why?) when i input "1",the program just shows the message "You must input 1 or 2" and doesn't run.Also,you didn't answer to my other question about how to to this "plt.plot(ttime,R2,mylabels[i],colors[i]) " to work for the 3 different values.I don't know how to manipulate R2.Thank you! –  George Jan 31 '12 at 17:26
Can you provide a short, simplified, runnable example? I have no idea what any of those many variables mean nor what is going wrong. –  HappyLeapSecond Jan 31 '12 at 18:20
:Ok,i gave you a runnable code.It works for one value of D.I want to do it able to run for the 3 values.(also,plot in one plot all 3 different plots fro the 3 values).If you see my previous code ,you will understand what i am trying to do.Thanks! –  George Jan 31 '12 at 20:38
:First of all ,thanks a lot!!Almost perfect!One thing.Calling plot as "plt.plot(tvals,yvals,'-')" results in mixing the plots.I tried sth like :colors=('ob','-r','+m'),but i don't know how to put it in the above call of plot.Is there a way? –  George Jan 31 '12 at 21:12
To conform with matplotlib terminology, I'm renaming `colors` --> `linestyles`. You can loop through the values of `D` and `linestyles` with `for dval, linestyle in zip(D,linestyles)`. The code above has been edited to show what I mean. –  HappyLeapSecond Jan 31 '12 at 21:19