I have a piece of Python code which has been used for about a year without any issues (it reads, uncompresses/unpacks data, selects a window and plots it using Numpy/Matplotplib).
We recently got a new machine which stores the data in a 64-bit encoded format instead of a 32-bit encoding which should not be a real issue. I rewrote a few lines of the code to deal with this (both functions of interest are included below) but I keep getting an error that I do not quite understand.
Traceback (most recent call last): File "./3D_Visualizer.py", line 238, in <module> File "./3D_Visualizer.py", line 232, in main main() File "./3D_Visualizer.py", line 93, in plot_data ax.set_ylabel('Time (s)',color='r') File "/usr/lib/python2.7/dist-packages/numpy/core/fromnumeric.py", line 170, in reshape return _wrapit(a, 'reshape', newshape, order=order) File "/usr/lib/python2.7/dist-packages/numpy/core/fromnumeric.py", line 37, in _wrapit result = getattr(asarray(obj),method)(*args, **kwds) ValueError: total size of new array must be unchanged
I would love if someone is able to explain to me why this error occurs as to my understanding the numpy reshape function takes the size of the input array for the actual resize. The code of the 2 functions which lead to this error are listed below:
def numpy_array(data, peaks): """Fills the NumPy array 'data' with m/z-intensity values acquired from b64 decoding and unpacking the binary string read from the mzXML file, which is stored in the list 'peaks'. The m/z values are assumed to be ordered without validating this assumption. Note: This function is the performance bottleneck """ rt_counter=0 for x in peaks: if rt_counter %(len(peaks)/20) == 0: update_progress() peak_counter=0 data_buff=base64.b64decode(x) endian = '!' precision = 'd' buff_size = len(data_buff) / struct.calcsize(endian + precision) index=0 for y in struct.unpack(endian + precision * buff_size, data_buff[0:len(data_buff)]): if (index % 2 == 0): data[rt_counter][peak_counter]= y else: data[rt_counter][peak_counter]= y peak_counter+=1 index+=1 rt_counter+=1
The plotting function:
def plot_data(X,Y,Z): """Plots a 3D wireframe based on the x, y and z datapoints passed to this function in the python lists 'X', 'Y' and 'Z'. Custom labels are created for the Y (m/z) axis since matplotlib creates 'ugly' labels by default (TODO: labelling goes wrong). """ fig=plt.figure() x=sorted(set(X)) y=sorted(set(Y)) labels=['%.2f'%k for k in y] XX,YY=np.meshgrid(y,x) ZZ=np.reshape(Z,XX.shape) ax=fig.add_subplot(111,projection='3d') ax.plot_wireframe(XX,YY,ZZ) ax.set_title('3D projection of LC-MS region',size='large',color='r') ax.set_xlabel('m/z',color='r',style='italic') ax.set_xticklabels(labels) ax.set_ylabel('Time (s)',color='r') ax.set_zlabel('Intensity',color='r') plt.show()
-- 30/07/13 2:10 --
the X, Y and Z all have the same length in the test case that throws this error (namely 184). The length for x and y is 18 and 20 respectively after
set lines in the error test case while they were 18 and 11 after
set lines in the working test case.
example contents of
y in the error case (64-bit encoded):
[1398.51513671875, 1398.5152587890625, 1398.5225830078125, 1398.522705078125, 1398.530029296875, 1398.5301513671875, 1398.5374755859375, 1398.53759765625, 1398.5447998046875, 1398.544921875, 1398.55224609375, 1398.5523681640625, 1398.5596923828125, 1398.559814453125, 1398.567138671875, 1398.5672607421875, 1398.5745849609375, 1398.5819091796875, 1398.58203125, 1398.58935546875]
example contents of 'y' in the working case (32-bit encoded):
[1398.51171875, 1398.5191650390625, 1398.526611328125, 1398.533935546875, 1398.5413818359375, 1398.548828125, 1398.5562744140625, 1398.5635986328125, 1398.571044921875, 1398.5784912109375, 1398.5859375]
This shows that in the error case the decoding has issues regarding fitting the value, I think?
-- 31/07/13 10:20 --
I dove back into the raw data acquired from the actual machine and it showed that the measurement coordinates are not the same for all time points (something which was the case for all previous versions of the machine + controlling software). This has the effect that certain coordinates are ever so slightly shifted a litle bit (ie 1398.5152... vs 1398.5151) causing the reshape to fail.
I am currently in the process of just assigning each coordinate to an integer value (1, 2 ...) to 'hot fix' this for now.