TensorFlowInterface.py 文件源码

def plotFields(layer,fieldShape=None,channel=None,maxFields=25,figName='ReceptiveFields',cmap=None,padding=0.01):
    # Receptive Fields Summary
    W = layer.W
    wp = W.eval().transpose();
    if len(np.shape(wp)) < 4:       # Fully connected layer, has no shape
        fields = np.reshape(wp,list(wp.shape[0:-1])+fieldShape)
    else:           # Convolutional layer already has shape
        features, channels, iy, ix = np.shape(wp)
        if channel is not None:
            fields = wp[:,channel,:,:]
        else:
            fields = np.reshape(wp,[features*channels,iy,ix])

    fieldsN = min(fields.shape[0],maxFields)
    perRow = int(math.floor(math.sqrt(fieldsN)))
    perColumn = int(math.ceil(fieldsN/float(perRow)))

    fig = mpl.figure(figName); mpl.clf()

    # Using image grid
    from mpl_toolkits.axes_grid1 import ImageGrid
    grid = ImageGrid(fig,111,nrows_ncols=(perRow,perColumn),axes_pad=padding,cbar_mode='single')
    for i in range(0,fieldsN):
        im = grid[i].imshow(fields[i],cmap=cmap);

    grid.cbar_axes[0].colorbar(im)
    mpl.title('%s Receptive Fields' % layer.name)

    # old way
    # fields2 = np.vstack([fields,np.zeros([perRow*perColumn-fields.shape[0]] + list(fields.shape[1:]))])
    # tiled = []
    # for i in range(0,perColumn*perRow,perColumn):
    #   tiled.append(np.hstack(fields2[i:i+perColumn]))
    #
    # tiled = np.vstack(tiled)
    # mpl.figure(figOffset); mpl.clf(); mpl.imshow(tiled,cmap=cmap); mpl.title('%s Receptive Fields' % layer.name); mpl.colorbar();
    mpl.figure(figName+' Total'); mpl.clf(); mpl.imshow(np.sum(np.abs(fields),0),cmap=cmap); mpl.title('%s Total Absolute Input Dependency' % layer.name); mpl.colorbar()