I am trying to put a photo as the background in matplotlib. I manage to add the photo, the size of which is 273 x 272 pixels. Then I add a contour plot that is 30 x 30 large. If I comment out the line that plots the photo, the contour plot covers the whole plot area.
If I include the photo, the contour plot appears in the bottom left corner. It very much looks like it is plotted on a fraction that is about 30/272 of the whole canvas along each axes. What I want is to have the contour plot cover the whole photo.
These are the relevant parts of the code (not a complete working example):
# Matplotlib Figure object from matplotlib.figure import Figure # import the Qt4Agg FigureCanvas object, that binds Figure to # Qt4Agg backend. It also inherits from QWidget from matplotlib.backends.backend_qt4agg \ import FigureCanvasQTAgg as FigureCanvas from PIL import Image ..... class Qt4ContourCanvas(FigureCanvas): def __init__(self, Z_matrix, plot_freq, p2_freq, p2_power, ws_level, p2_patch_on, pmin, pmax, my_alpha, parent=None): global p2_frequency logger.debug("%s - created" % self.__class__.__name__) self.fig = Figure(facecolor='Lavender') self.axes = self.fig.add_subplot(111) #Reduce the size of the borders #http://stackoverflow.com/questions/1203639/how-do-i-limit-the-border-size-on-a-matplotlib-graph self.fig.subplots_adjust(left=0.05, bottom=0.05, right=0.95, top=1-0.05, wspace=0.01, hspace=0.01) # We need to keep a class variable of Z to prevent it going out of scope self.Z = Z_matrix ............ def drawContourPlot(self, Z_matrix, plot_freq, p2_freq, p2_power, ws_level, p2_patch_on, pmin, pmax, my_alpha): "Method to plot contour plots" global p2_frequency p2_frequency = p2_freq self.axes.cla() self.Z = Z_matrix map_dimensions = Z_matrix.shape my_xdim = map_dimensions my_ydim = map_dimensions levels = np.arange(pmin, pmax, 2.5) DIM = len(self.Z) x = y = np.arange(0, DIM, 1) X, Y = np.meshgrid(x, y) my_cm = ListedColormap(faramir_cm) # Background picture picture = Image.open('gondor.png') CSbkgr = self.axes.imshow(picture, origin='lower') # Swap X and Y to transpose the data, otherwise the click event # and the matrix coordinates do not agree CS = self.axes.contourf(Y, X, self.Z, levels, cmap=my_cm, alpha=my_alpha) CS2 = self.axes.contour(CS, levels=CS.levels, colors = 'r', hold='on') self.axes.clabel(CS2, fontsize=10, inline=1, fmt='%1.1f') CS3 = self.axes.contour(CS, levels=[ws_level], colors = 'black', hold='on', linestyles = 'solid', linewidths = 2) self.axes.clabel(CS3, fontsize=12, inline=1, fmt='%1.1f') self.axes.grid(True, color='white') self.fig.canvas.draw()