concentracao.py 1.59 KB
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from pylab import *

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#xy0 = np.loadtxt('H2.py')
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#####################################################################################################
# Funcoes que corrigem erros de arredondamento
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def fix1(y, x):
    for k in arange(1, (len(y)-1)):
         if y[k] == 0:
            if y[k-1] and y[k+1] != 0:
                    y[k] = y[k-1]

def fix2(y, x):
    for k in arange(1, (len(y)-1)):
         if y[k] == 0:
            if y[k-1] and y[k+1] != 0:
                if y[k-1] == y[k+1]:
                    y[k] = y[k-1]
                else:
                    y[k] = (y[k+1]+y[k-1])/2

#####################################################################################################

def montaperfil( xy , step, modo):
    u = 0.
    yu = 0.

    profundidade = arange(0, max(xy[:,0]), step)
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    concent = profundidade*0

    if modo == 'step':
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        for i in xy:
            for j in arange (u, i[0], step):
                if j>max(xy[:,0])/2 :
                    concent[math.ceil(j/step)] = i[1]
                else :
                    concent[math.floor(j/step)] = i[1]
            u = i[0]
        fix1(concent, profundidade)
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    if modo == 'reta':
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        for i in xy:
            for j in arange (u, i[0], step):
                if j>max(xy[:,0])/2 :
                    concent[math.ceil(j/step)] = yu + (j-u)*(i[1] - yu)/(i[0] - u)
                else :
                    concent[math.floor(j/step)] = yu + (j-u)*(i[1] - yu)/(i[0] - u)
            u = i[0] 
            yu = i[1]   
        fix2(concent, profundidade)    
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    print concent
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    plot(profundidade, concent)
    show()
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