All Samples(271632) | Call(269305) | Derive(2324) | Import(3)
str(object) -> string Return a nice string representation of the object. If the argument is a string, the return value is the same object.
src/w/x/wxmap2-HEAD/trunk/app/src/python/pexpect-2.3/examples/monitor.py wxmap2(Download)
optlist, args = getopt.getopt(sys.argv[1:], 'h?s:u:p:', ['help','h','?'])
except Exception, e:
print str(e)
exit_with_usage()
options = dict(optlist)
#
child = pexpect.spawn('ssh -l %s %s'%(user, host))
i = child.expect([pexpect.TIMEOUT, SSH_NEWKEY, COMMAND_PROMPT, '(?i)password'])
if i == 0: # Timeout
print 'ERROR! could not login with SSH. Here is what SSH said:'
print child.before, child.after
print str(child)
# Now we are either at the command prompt or
# the login process is asking for our terminal type.
i = child.expect ([COMMAND_PROMPT, TERMINAL_PROMPT])
if i == 1:
child.sendline (TERMINAL_TYPE)
src/q/u/quickflash-HEAD/trunk/examples/raytracer/pytracer_partask.py quickflash(Download)
# Species names
dens_name = str("dens")
poly_name = "poly"
for index in range(start_pixel, (start_pixel + num_pixels)) :
value = raytracer.get_pixel_value(index)
pixel_values.append(str(value))
# Set up return string : start_pixel pixel1 [ pixel2 ...]
ret_str = "Start " + str(start_pixel) + " " + str(pixel_values)
from optparse import OptionParser
usage = str("%prog input_task_list output_task_list data_file [options]")
version = str("%prog 0.1")
src/q/u/quickflash-HEAD/rtflame/examples/raytracer/pytracer_partask.py quickflash(Download)
# Species names
dens_name = str("dens")
poly_name = "poly"
for index in range(start_pixel, (start_pixel + num_pixels)) :
value = raytracer.get_pixel_value(index)
pixel_values.append(str(value))
# Set up return string : start_pixel pixel1 [ pixel2 ...]
ret_str = "Start " + str(start_pixel) + " " + str(pixel_values)
from optparse import OptionParser
usage = str("%prog input_task_list output_task_list data_file [options]")
version = str("%prog 0.1")
src/q/u/quickflash-HEAD/netcdf/examples/raytracer/pytracer_partask.py quickflash(Download)
# Species names
dens_name = str("dens")
poly_name = "poly"
for index in range(start_pixel, (start_pixel + num_pixels)) :
value = raytracer.get_pixel_value(index)
pixel_values.append(str(value))
# Set up return string : start_pixel pixel1 [ pixel2 ...]
ret_str = "Start " + str(start_pixel) + " " + str(pixel_values)
from optparse import OptionParser
usage = str("%prog input_task_list output_task_list data_file [options]")
version = str("%prog 0.1")
src/g/o/google-data-api-HEAD/samples/oauth/oauth_on_appengine/appengine_utilities/cron.py google-data-api(Download)
before = datetime.datetime.now()
for r in results:
if re.search(':' + APPLICATION_PORT, r.url):
r.url = re.sub(':' + APPLICATION_PORT, ':' + CRON_PORT, r.url)
#result = urlfetch.fetch(r.url)
diff = datetime.datetime.now() - before
if int(diff.seconds) < 1:
if memcache.add(str(r.key), "running"):
r.next_run = self._get_next_run(pickle.loads(r.cron_compiled))
r.put()
memcache.delete(str(r.key))
else:
break
src/q/u/quickflash-HEAD/branch_tags/octave-swig/QuickFlash-1.0.0-Octave-1.0/examples/flame_struct/plot_flame_dist.py quickflash(Download)
## Set up the command line parser
usage = str("%prog [ options ] output_prefix input_file1[,legend_1] ...")
version = str("%prog 0.1")
argparser = OptionParser(usage, version=version)
output_extension_str = str("output-extension")
argparser.set_defaults(output_format=None)
plot_title_str = str("plot-title")
argparser.add_option("--" + plot_title_str, type="string",
dest="plot_title",
help="Text for plot titles")
argparser.set_defaults(plot_title=None)
time_legend_str = str("time-legend")
src/q/u/quickflash-HEAD/trunk/examples/flame_struct/build_Q_r_h_table.py quickflash(Download)
if (num_elems > 0) :
ret_val = str(vect[0])
for i in range(1, num_elems) :
ret_val += "," + str(vect[i])
## Set up the command line parser
usage = str("%prog [ options ] metadata_file_list")
version = str("%prog 0.1")
argptr = int(0)
metadata_file_list_file = str(args[argptr])
argptr += 1
src/q/u/quickflash-HEAD/rtflame/examples/flame_struct/build_Q_r_h_table.py quickflash(Download)
if (num_elems > 0) :
ret_val = str(vect[0])
for i in range(1, num_elems) :
ret_val += "," + str(vect[i])
## Set up the command line parser
usage = str("%prog [ options ] metadata_file_list")
version = str("%prog 0.1")
argptr = int(0)
metadata_file_list_file = str(args[argptr])
argptr += 1
src/q/u/quickflash-HEAD/netcdf/examples/flame_struct/build_Q_r_h_table.py quickflash(Download)
if (num_elems > 0) :
ret_val = str(vect[0])
for i in range(1, num_elems) :
ret_val += "," + str(vect[i])
## Set up the command line parser
usage = str("%prog [ options ] metadata_file_list")
version = str("%prog 0.1")
argptr = int(0)
metadata_file_list_file = str(args[argptr])
argptr += 1
src/p/y/PyOFTK-HEAD/PyOFTK/examples/nlfbg3.py PyOFTK(Download)
elapsed = time.time() - t1 print "********* Parametre de la simulation ********* " print "Energie de l'impulsion en entree: " + str(pow(abs(pulse),2).sum()*dt) + " nJ" print "Energie de l'impulsion en sortie: " + str(pow(abs(u_plus),2).sum()*dt) + " nJ" print "Longueur du reseau: " + str(fbg1.length) + " m" print "Nombre d'iterations temporelles: " + str(nt) print "Duree totale: " + str(nt*dt) + " ps"
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