Data from a MATLAB .fig file using Python?
Here is my update from Sascha's post. Now it can:
- display rotated, tex labels
- display xticks and yticks
- better handling of markers
- grid on/off
- better axes and legend enumeration handling
- maintain figure size
The code is below:
from scipy.io import loadmat
import numpy as np
import matplotlib.pyplot as plt
def plotFig(filename,fignr=1):
d = loadmat(filename,squeeze_me=True, struct_as_record=False)
matfig = d['hgS_070000']
childs = matfig.children
ax1 = [c for c in childs if c.type == 'axes']
if(len(ax1) > 0):
ax1 = ax1[0]
legs = [c for c in childs if c.type == 'scribe.legend']
if(len(legs) > 0):
legs = legs[0]
else:
legs=0
pos = matfig.properties.Position
size = np.array([pos[2]-pos[0],pos[3]-pos[1]])/96
plt.figure(fignr,figsize=size)
plt.clf()
plt.hold(True)
counter = 0
for line in ax1.children:
if line.type == 'graph2d.lineseries':
if hasattr(line.properties,'Marker'):
mark = "%s" % line.properties.Marker
if(mark != "none"):
mark = mark[0]
else:
mark = '.'
if hasattr(line.properties,'LineStyle'):
linestyle = "%s" % line.properties.LineStyle
else:
linestyle = '-'
if hasattr(line.properties,'Color'):
r,g,b = line.properties.Color
else:
r = 0
g = 0
b = 1
if hasattr(line.properties,'MarkerSize'):
marker_size = line.properties.MarkerSize
else:
marker_size = -1
x = line.properties.XData
y = line.properties.YData
if(mark == "none"):
plt.plot(x,y,linestyle=linestyle,color=[r,g,b])
elif(marker_size==-1):
plt.plot(x,y,marker=mark,linestyle=linestyle,color=[r,g,b])
else:
plt.plot(x,y,marker=mark,linestyle=linestyle,color=[r,g,b],ms=marker_size)
elif line.type == 'text':
if counter == 0:
plt.xlabel("$%s$" % line.properties.String,fontsize =16)
elif counter == 1:
plt.ylabel("$%s$" % line.properties.String,fontsize = 16)
elif counter == 3:
plt.title("$%s$" % line.properties.String,fontsize = 16)
counter += 1
plt.grid(ax1.properties.XGrid)
if(hasattr(ax1.properties,'XTick')):
if(hasattr(ax1.properties,'XTickLabelRotation')):
plt.xticks(ax1.properties.XTick,ax1.properties.XTickLabel,rotation=ax1.properties.XTickLabelRotation)
else:
plt.xticks(ax1.properties.XTick,ax1.properties.XTickLabel)
if(hasattr(ax1.properties,'YTick')):
if(hasattr(ax1.properties,'YTickLabelRotation')):
plt.yticks(ax1.properties.YTick,ax1.properties.YTickLabel,rotation=ax1.properties.YTickLabelRotation)
else:
plt.yticks(ax1.properties.YTick,ax1.properties.YTickLabel)
plt.xlim(ax1.properties.XLim)
plt.ylim(ax1.properties.YLim)
if legs:
leg_entries = tuple(['$' + l + '$' for l in legs.properties.String])
py_locs = ['upper center','lower center','right','left','upper right','upper left','lower right','lower left','best','best']
MAT_locs=['North','South','East','West','NorthEast', 'NorthWest', 'SouthEast', 'SouthWest','Best','none']
Mat2py = dict(zip(MAT_locs,py_locs))
location = legs.properties.Location
plt.legend(leg_entries,loc=Mat2py[location])
plt.hold(False)
plt.show()
.fig files are .mat files (containing a struct), see http://undocumentedmatlab.com/blog/fig-files-format/
As the reference you give states, structs are only supported up to v7.1: http://www.scipy.org/Cookbook/Reading_mat_files
So, in MATLAB I save using -v7:
plot([1 2],[3 4])
hgsave(gcf,'c','-v7');
Then in Python 2.6.4 I use:
>>> from scipy.io import loadmat
>>> x = loadmat('c.fig')
>>> x
{'hgS_070000': array([[<scipy.io.matlab.mio5.mat_struct object at 0x1500e70>]], dtype=object), '__version__': '1.0', '__header__': 'MATLAB 5.0 MAT-file, Platform: MACI64, Created on: Fri Nov 18 12:02:31 2011', '__globals__': []}
>>> x['hgS_070000'][0,0].__dict__
{'handle': array([[1]], dtype=uint8), 'children': array([[<scipy.io.matlab.mio5.mat_struct object at 0x1516030>]], dtype=object), '_fieldnames': ['type', 'handle', 'properties', 'children', 'special'], 'type': array([u'figure'], dtype='<U6'), 'properties': array([[<scipy.io.matlab.mio5.mat_struct object at 0x1500fb0>]], dtype=object), 'special': array([], shape=(1, 0), dtype=float64)}
Where I used .__dict__ to see how to traverse the structure. E.g. to get XData and YData I can use:
>>> x['hgS_070000'][0,0].children[0,0].children[0,0].properties[0,0].XData
array([[1, 2]], dtype=uint8)
>>> x['hgS_070000'][0,0].children[0,0].children[0,0].properties[0,0].YData
array([[3, 4]], dtype=uint8)
Showing that I'd used plot([1 2],[3 4]) in MATLAB (the child is the axis and the grandchild is the lineseries).