107 lines
3.2 KiB
Python
107 lines
3.2 KiB
Python
#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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"""
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Created on Fri Dec 15 23:36:50 2017
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@author: fh
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Simulation d'aglomération de particules
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"""
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def matrix_rand(L,C,d=0.10):
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from numpy import zeros
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from time import sleep
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from random import random as rand
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M=zeros([L,C],dtype=bool)
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for i in range(L):
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for j in range(C):
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r=rand()
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v=r<d
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M[i,j]=v
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return M
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def aglo(M):
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from numpy import size,array,zeros
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L=size(M[:,0])
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C=size(M[0,:])
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#Poids.
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P=array([[[ 0, 0, 0, 0, 0],#Poids en ligne.
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[ 0,-1, 0, 1, 0],
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[-1,-2, 0, 2, 1],
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[ 0,-1, 0, 1, 0],
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[ 0, 0, 0, 0, 0]],
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[[ 0, 0, 1, 0, 0],#Poids en colonne.
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[ 0, 1, 2, 1, 0],
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[ 0, 0, 0, 0, 0],
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[ 0,-1,-2,-1, 0],
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[ 0, 0,-1, 0, 0]]],dtype=int)
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#Fenêtre.
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F=zeros([2,5,5],dtype=int)
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for i in range(L):
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for j in range(C):
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#Indices périodiques.
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SSl=(i-2)%L
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Sl=(i-1)%L
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l=i%L
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Nl=(i+1)%L
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NNl=(i+2)%L
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OOc=(j-2)%C
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Oc=(j-1)%C
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c=j%C
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Ec=(j+1)%C
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EEc=(j+2)%C
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#Fenêtre.
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#Ligne à l'ouest.
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F[0,1,1]=P[0,1,1]*M[Nl ,Oc ]
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F[0,2,0]=P[0,2,0]*M[l ,OOc]
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F[0,2,1]=P[0,2,1]*M[l ,Oc ]
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F[0,3,1]=P[0,3,1]*M[Sl ,Oc ]
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#Ligne à l'est.
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F[0,1,3]=P[0,1,3]*M[Nl ,Ec ]
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F[0,2,3]=P[0,2,3]*M[l ,Ec ]
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F[0,2,4]=P[0,2,4]*M[l ,EEc]
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F[0,3,3]=P[0,3,3]*M[Sl ,Ec ]
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#Colonne au nord.
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F[1,0,2]=P[1,0,2]*M[NNl,c ]
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F[1,1,1]=P[1,1,1]*M[Nl ,Oc ]
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F[1,1,2]=P[1,1,2]*M[Nl ,c ]
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F[1,1,3]=P[1,1,3]*M[Nl ,Ec ]
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#Colonne au sud.
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F[1,3,1]=P[1,3,1]*M[Sl ,Oc ]
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F[1,3,2]=P[1,3,2]*M[Sl ,c ]
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F[1,3,3]=P[1,3,3]*M[Sl ,Ec ]
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F[1,4,2]=P[1,4,2]*M[SSl,c ]
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#Force verticale.
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Fy=F[0].sum()
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#Force horizontale.
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Fx=F[1].sum()
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if abs(Fy)>abs(Fx) and Fy>0 and (not M[Nl,c ]):#Au nord.
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#Centre->Nord.
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M[l,c],M[Nl,c ]=False,True
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elif abs(Fy)>abs(Fx) and Fy<0 and (not M[Sl,c ]):#Au sud.
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#Centre->Sud.
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M[l,c],M[Sl,c ]=False,True
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elif abs(Fx)>abs(Fy) and Fx>0 and (not M[l ,Ec]):#A l'est.
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#Centre->Est.
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M[l,c],M[l ,Ec]=False,True
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elif abs(Fx)>abs(Fy) and Fx<0 and (not M[l ,Oc]):#A l'ouest.
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#Centre->Ouest.
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M[l,c],M[l ,Oc]=False,True
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return M
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def aglo_test():
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M=matrix_rand(20,20)
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M1=M
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for t in range(1):
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M1=aglo(M1)
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print(M*1)
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print(M1*1)
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print("Sommes :",M.sum()," et ",M1.sum(),".")
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print("M=M1 :\n",(M==M1)*1)
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print("Densité : ",M.sum()/M.size)
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from matplotlib.pyplot import imshow,figure,pause,title
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figure("Graphe")
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for t in range(31):
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M=matrix_rand(200,200,0.8)
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imshow(M,cmap='gray',interpolation='nearest')
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ttr="Itération :{:d}".format(t)
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ttr+="\nDensité : {:03.1f}%".format(M.sum()*100/M.size)
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title(ttr)
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pause(0.99)
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