I am trying to rearrange some data file by making every column into it's own array and then manipulating it. Later I will use the index of the column arrays to reorder the rows, but for now, I am really confused about the loop and how to get the index to work.
My current code is as follows:
import csv as csv
import sys as sys
freq = []
J_i = []
w_i = []
n_i = []
J_f = []
w_f = []
n_f = []
infile = open('Rearrange Column Test.txt')
sys.stdout = open('Rearrange Column TestNEW.txt', 'w')
for line in csv.reader(infile, delimiter='\t'):
newline = [line[i] for i in [20, 0, 3, 4, 7, 9, 10]]
newline[2] = newline[2].split('=')[1]
newline[4] = newline[4].split('=')[1]
freq.append(float(newline[0]))
J_i.append(float(newline[1]))
w_i.append(float(newline[2]))
n_i.append(float(newline[3]))
J_f.append(float(newline[4]))
w_f.append(float(newline[5]))
n_f.append(float(newline[6]))
for j in freq, J_i, w_i, n_i, J_f, w_f, and n_f:
print freq[j], J_i[j], w_i[j], n_i[j], J_f[j], w_f[j], n_f[j]
if J_f[j] == J_i[j]:
if w_i[j] == 0.5 and w_f[j] == 0.5:
Tline = "Q_{+}^{+}("
elif w_i[j] == -0.5 and w_f[j] == 0.5:
Tline = "Q_{-}^{+}("
elif w_i[j] == -0.5 and w_f[j] == -0.5:
Tline = "Q_{-}^{-}("
elif J_f[j] - J_i[j] == 1:
if w_i[j] == 0.5 and w_f[j] == 0.5:
Tline = "R_{+}^{+}("
elif w_i[j] == -0.5 and w_f[j] == 0.5:
Tline = "R_{-}^{+}("
elif w_i[j] == -0.5 and w_f[j] == -0.5:
Tline = "R_{-}^{-}("
elif J_f[j] - J_i[j] == -1:
if w_i[j] == 0.5 and w_f[j] == 0.5:
Tline = "P_{+}^{+}("
elif w_i[j] == -0.5 and w_f[j] == 0.5:
Tline = "P_{-}^{+}("
elif w_i[j] == -0.5 and w_f[j] == -0.5:
Tline = "P_{-}^{-}("
print Tline, J_i[j], ")"
sys.stdout.close()
I am just really confused with the index that I can use. I want to make sure that I am printing the exact same position from each column array (5th value from freq and 5th value from J_i, etc), and also doing operations on the same index value in the J_i and J_f column arrays. Can someone please help me to get this loop to work correctly?
Example data:
0.5 0.6801 0.5 omi=-0.5 -1 ---> 1.5 0.5 omf= 0.5 -1.0 0.3301 frq= -0.3501 0.6667 0.5974 0 0 1.00 frq= 3723.6699 xint= 1.0667
1.5 0.3301 0.5 omi= 0.5 -1 ---> 0.5 0.5 omf=-0.5 -1.0 0.6801 frq= 0.3501 0.6667 0.7788 0 0 1.00 frq= 3724.3701 xint= 0.6667
0.5 -0.0044 0.5 omi= 0.5 1 ---> 0.5 0.5 omf= 0.5 -1.0 0.0216 frq= 0.0260 1.3333 1.0034 0 0 1.00 frq= 3724.0460 xint= 1.3333
Example Desired Output:
3723.6699 0.5 -0.5 -1 1.5 0.5 -1.0 R_{-}^{+}(0.5)
3724.3701 1.5 0.5 -1 0.5 -0.5 -1.0 P_{+}^{-}(1.5)
3724.0460 0.5 0.5 1 0.5 0.5 -1.0 Q_{+}^{+}(0.5)