def spitout(line): dat=[] # initialize list for dec,inc,slat,slon line.replace('\t',' ') rec=line.split() # split each line on space to get records for element in rec : # step through dec,inc, int dat.append(float(element)) # append floating point variable to dat list dec,inc=pmag.vgp_di(dat[0],dat[1],dat[2],dat[3]) # call vgp_di function from pmag module print '%7.1f %7.1f'%(dec,inc) # print out returned stuff return dec,inc
def main(): """ NAME vgp_di.py DESCRIPTION converts site latitude, longitude and pole latitude, longitude to declination, inclination SYNTAX vgp_di.py [-h] [-i] [-f FILE] [< filename] OPTIONS -h prints help message and quits -i interactive data entry -f FILE to specify file name on the command line INPUT for file entry: PLAT PLON SLAT SLON where: PLAT: pole latitude PLON: pole longitude (positive east) SLAT: site latitude (positive north) SLON: site longitude (positive east) OUTPUT D I where: D: declination I: inclination """ if '-h' in sys.argv: print main.__doc__ sys.exit() if '-i' in sys.argv: # if one is -i while 1: try: ans=raw_input("Input Pole Latitude [positive north]: <cntrl-D to quit> ") plat=float(ans) # assign input to plat, after conversion to floating point ans=raw_input("Input Pole Longitude [positive east]: ") plon =float(ans) ans=raw_input("Input Site Latitude: ") slat =float(ans) ans=raw_input("Input Site Longitude: ") slong =float(ans) dec,inc=pmag.vgp_di(plat,plon,slat,slong) # call vgp_di function from pmag module print '%7.1f %7.1f'%(dec,inc) # print out returned stuff except EOFError: print "\n Good-bye\n" sys.exit() elif '-f' in sys.argv: # manual input of file name ind=sys.argv.index('-f') file=sys.argv[ind+1] f=open(file,'rU') input = f.readlines() # read from standard input for line in input: # read in the data (as string variable), line by line dec,inc= spitout(line) else: input = sys.stdin.readlines() # read from standard input for line in input: # read in the data (as string variable), line by line spitout(line)
def spitout(data): pole_lat,pole_lon=pmag.bc02(data) dec,inc=pmag.vgp_di(pole_lat,pole_lon,data[1],data[2]) paleo_lat=pmag.magnetic_lat(inc) return ' %7.1f %7.1f %7.1f %7.1f %7.1f %7.1f\n' %(data[3],paleo_lat,dec,inc,pole_lat,pole_lon)