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First I'd like to apologize for my english. It's not my first language.

This is for a program I'm developing to sort data resulting from a repeated load triaxial test. The first column is a segment. Three segment form a cycle. Load, unload, pause. Approx 50 data points for the load, the same for the unload and 100 for the pause. I start with a load at 121. For this section I need the maximum value of the load and unload phases of the fouth column (index 3).

There's g my array:

[[  1.21000000e+02   1.00313720e+02   2.00015190e-02 ...,   2.25933480e-01
2.95645450e-01  -3.33373370e-01]
[  1.21000000e+02   1.00318600e+02   2.00071220e-02 ...,   2.25933600e-01
2.95629110e-01  -3.33358880e-01]
[  1.21000000e+02   1.00323490e+02   2.00045150e-02 ...,   2.25932690e-01
2.95642500e-01  -3.33374260e-01]
..., 
[  1.50000000e+02   1.10347900e+02   2.00072340e-02 ...,   2.24460500e-01
2.94727620e-01  -3.38975370e-01]
[  1.50000000e+02   1.10352780e+02   1.99971700e-02 ...,   2.24458930e-01
2.94705120e-01  -3.38966550e-01]
[  1.50000000e+02   1.10357670e+02   2.00063640e-02 ...,   2.24455860e-01
2.94704710e-01  -3.38963510e-01]]

after I ran it through that loop:

g = np.loadtxt('test.txt')

Sigmad = []


DataCol = np.hsplit(g, g.shape[1])
DataCharge = DataCol[3] #Charge mean load
DataCycle = DataCol[0]


ld = 0 #ligne de début, start line of the load segment
fc = 0 #Fin de chargement, end line of the unload segment
seg1 = DataCycle[0] #Segment initial, numerical value of the first segment

chargemax = []
i = 0


while i < len(DataCycle):

    if DataCycle[i] == seg1 and DataCycle[i+1] == seg1 and DataCycle[i-1] == seg1 - 1:
        ld = i        

    elif DataCycle[i] == seg1 + 2 and DataCycle[i+1] ==  seg1 + 2 and DataCycle[i-1] == seg1 + 1 :

        fc = i
        print seg1
        chargemax.append(np.max(DataCharge[ld:fc]))
        ld = i + 1
        seg1 += 3

    i+=1

Sigmad.append(1000*np.mean(chargemax[:])/aire)

g is modified and I don't know why, g is now equal to :

[[  1.51000000e+02,   1.00313720e+02,   2.00020000e-02, ...,
      2.25933000e-01,   2.95645000e-01,  -3.33373000e-01],
   [  1.21000000e+02,   1.00318600e+02,   2.00070000e-02, ...,
      2.25934000e-01,   2.95629000e-01,  -3.33359000e-01],
   [  1.21000000e+02,   1.00323490e+02,   2.00050000e-02, ...,
      2.25933000e-01,   2.95642000e-01,  -3.33374000e-01],
   ..., 
   [  1.50000000e+02,   1.10347900e+02,   2.00070000e-02, ...,
      2.24460000e-01,   2.94728000e-01,  -3.38975000e-01],
   [  1.50000000e+02,   1.10352780e+02,   1.99970000e-02, ...,
      2.24459000e-01,   2.94705000e-01,  -3.38967000e-01],
   [  1.50000000e+02,   1.10357670e+02,   2.00060000e-02, ...,
      2.24456000e-01,   2.94705000e-01,  -3.38964000e-01]]

Can someone please explain to me why it does this. Some values in the 4th column also get modified.

Thanks!

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1 Answer 1

up vote 2 down vote accepted

In this section:

DataCol = np.hsplit(g, g.shape[1])
DataCharge = DataCol[3] #Charge mean load
DataCycle = DataCol[0]

[...]

seg1 = DataCycle[0]

You're not making copies, you're only giving new names to views of the original array. So when you do

seg1 += 3

inside the loop, you're modifying g itself. For example:

>>> a = np.array([[1,2,3], [4,5,6]])
>>> b = a[0]
>>> b
array([1, 2, 3])
>>> b += 100
>>> b
array([101, 102, 103])
>>> a
array([[101, 102, 103],
       [  4,   5,   6]])

If you want a copy, you can call .copy() explicitly:

>>> a = np.array([[1,2,3], [4,5,6]])
>>> b = a[0].copy()
>>> b
array([1, 2, 3])
>>> b += 1000
>>> b
array([1001, 1002, 1003])
>>> a
array([[1, 2, 3],
       [4, 5, 6]])
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Thanks! I didn't know that. –  Starter2 Jan 15 '13 at 3:15
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