import os, sys import pylab from copy import deepcopy import math,logging class Reader: """ Simple data reader for Igor data files """ ext=['.ASC'] def __init__(self, filename=None): """ Init @param filename: Name of Igor data file to read """ self.file = filename self.x = [] self.y = [] self.image = [] # Detector info self.wavelength = 0.0 self.distance = 0.0 self.center_x = 63.5 self.center_y = 63.5 def read(self,filename=None): """ Read file """ # Check if the file is there self.file=filename if not os.path.isfile(self.file): raise ValueError, \ "Specified file %s is not a regular file" % self.file # Read file f = open(self.file,'r') buf = f.read() # Get content dataStarted = False lines = buf.split('\n') itot = 0 self.x = [] self.y = [] self.image = [] ncounts = 0 #x = pylab.arange(0, 128, 1) #y = pylab.arange(0, 128, 1) x = pylab.arange(-.5, .5, 1.0/128) y = pylab.arange(-.5, .5, 1.0/128) X, Y = pylab.meshgrid(x, y) Z = deepcopy(X) xmin = None xmax = None ymin = None ymax = None i_x = 0 i_y = -1 isInfo = False isCenter = False for line in lines: # Find setup info line if isInfo: isInfo = False line_toks = line.split() # Wavelength in Angstrom try: wavelength = float(line_toks[1]) except: raise ValueError,"IgorReader: can't read this file, missing wavelength" # Distance in meters try: distance = float(line_toks[3]) except: raise ValueError,"IgorReader: can't read this file, missing distance" if line.count("LAMBDA")>0: isInfo = True # Find center info line if isCenter: isCenter = False line_toks = line.split() # Center in bin number center_x = float(line_toks[0]) center_y = float(line_toks[1]) if line.count("BCENT")>0: isCenter = True # Find data start if line.count("***")>0: dataStarted = True # Check that we have all the info if wavelength == None \ or distance == None \ or center_x == None \ or center_y == None: raise ValueError, "IgorReader:Missing information in data file" if dataStarted == True: try: value = float(line) except: continue # Get bin number if math.fmod(itot, 128)==0: i_x = 0 i_y += 1 else: i_x += 1 Z[i_y][i_x] = value ncounts += 1 # Det 640 x 640 mm # Q = 4pi/lambda sin(theta/2) # Bin size is 0.5 cm theta = (i_x-center_x+1)*0.5 / distance / 100.0 qx = 4.0*math.pi/wavelength * math.sin(theta/2.0) if xmin==None or qxxmax: xmax = qx theta = (i_y-center_y+1)*0.5 / distance / 100.0 qy = 4.0*math.pi/wavelength * math.sin(theta/2.0) if ymin==None or qyymax: ymax = qy if not qx in self.x: self.x.append(qx) if not qy in self.y: self.y.append(qy) itot += 1 theta = 0.25 / distance / 100.0 xstep = 4.0*math.pi/wavelength * math.sin(theta/2.0) theta = 0.25 / distance / 100.0 ystep = 4.0*math.pi/wavelength * math.sin(theta/2.0) # Store q max if xmax>ymax: self.qmax = xmax else: self.qmax = ymax #config.printEVT("Read %g points from file %s" % (ncounts, self.file)) self.wavelength = wavelength self.distance = distance*1000.0 self.center_x = center_x self.center_y = center_y from readInfo import ReaderInfo output = ReaderInfo() output.Z=Z output.xmin =xmin-xstep/2.0 output.xmax = xmax+xstep/2.0 output.ymin =ymin-ystep/2.0 output.ymax =ymax+ystep/2.0 output.type ="2D" logging.info("IgorReader reading %s"%self.file) return output