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diff --git a/__pycache__/RotTable.cpython-36.pyc b/__pycache__/RotTable.cpython-36.pyc
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diff --git a/__pycache__/Traj3D.cpython-36.pyc b/__pycache__/Traj3D.cpython-36.pyc
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diff --git a/individu.py b/individu.py
index 380d40297e6d82986ca90d5a499f67c062807a61..d01e39b7818e6f09edc0766db823cb1798909f5b 100644
--- a/individu.py
+++ b/individu.py
@@ -1,36 +1,40 @@
-from Initialisation import table_rotation
+from RotTable import RotTable
 from Traj3D import *
 import numpy as np
 from math import sqrt
 
 class Individu():
 
-    def __init__(self, rot_table):
-        self.rot_table = rot_table
+    def __init__(self, table):
+        self.table = table
         self.score = None
     
     def evaluate(self, brin):
         traj = Traj3D()
-        traj.compute(brin, self.rot_table)
+        traj.compute(brin, self.table)
         traj_array = np.array(traj.getTraj())
 
-        first_nucleotide = traj_array[0, :]
-        last_nucleotide = traj_array[-1, :]
+        first_nucleotide = traj_array[0, 0:3]
+        last_nucleotide = traj_array[-1, 0:3]
         distance = sqrt(sum((first_nucleotide - last_nucleotide) ** 2))
 
         first_name = brin[0]
         last_name = brin[-1]
 
-        rot_computed = self.rot_table[last_name+first_name]
-        rot_traj = first_name - last_name
+        rot_computed = self.table.Rot_Table[last_name+first_name]
+        rot_traj = first_nucleotide - last_nucleotide
+        print(rot_traj)
+        print(rot_computed)
         diff_angle = sum(abs(rot_computed - rot_traj))
 
         self.score = 1/(distance + diff_angle)
         
     
-    # def mutation(self):
-
-    #     return mutation
-
-individu1 = Individu(table_rotation())
-print(individu1.rot_table.dict["AA"].x)
\ No newline at end of file
+    def mutation(self):
+        mutation = 0
+        return mutation
+
+table = RotTable()
+test = Individu(table)
+test.evaluate("AAAGGATCTTCTTGAGATCCTTTTTTTCTGCGCGTAATCTGCTGCCAGTAAACGAAAAAACCGCCTGGGGAGGCGGTTTAGTCGAA")
+print(test.score)