def task_foo(self): LOG.debug('WARNME1 {!r}'.format(__name__)) #print repr(self.parameters), repr(self.URL), repr(self.foo1) sys.system('touch {}'.format(fn(self.foo2))) script_fn = 'noop.sh' open(script_fn, 'w').write('echo NOOP raw') self.generated_script_fn = script_fn
def __init__(self, system, network, traces, info=None, position=None): torus_2D.torus_2D.__init__(self, system, network, traces, info, position) if __name__ == "__main__": import system as sys import network as netw import traces as tra import info as nf import pylab as pl i = nf.info() s = sys.system(info=i) n = netw.network(info=i) t = tra.traces(s, n, info=i) tor = torus(s, n, t, info=i) pl.show()
import os import sys filename = sys.argv[1] from_id = int(sys.argv[2]) to_id = int(sys.argv[2]) for i in range(from_id, to_id + 1): sys.system("mv {0}.in{1} {0}{1}.in".format(filename, i)) sys.system("mv {0}.out{1} {0}{1}.out".format(filename, i))
if __name__ == "__main__": import pylab as pl import system as sys import network3N as netw import traces as tra import info as nf info = nf.info() system = sys.system(info=info) network = netw.network(info=info) traces = tra.traces(system, network, info=info) t = torus(system, network, traces, info=info) system.torus = t t.vectorField_prc() pl.show()
self.ax.set_xticks(ticks) self.ax.set_xticklabels(ticks) self.ax.set_xlim(t[0], t[-1]) self.fig.canvas.draw() return t, V_i if __name__ == "__main__": import system as sys s = sys.system() tra = traces(s) pl.show()
import sys sys.system('uname -a')
import thetax2 as model import torus_2D import numpy as np class torus(torus_2D.torus_2D): model = model V_trigger = np.pi / 2. def __init__(self, system, network, traces, info=None, position=None): torus_2D.torus_2D.__init__(self, system, network, traces, info, position) if __name__ == "__main__": import system as sys import network as netw import traces as tra import info as nf import pylab as pl i = nf.info() s = sys.system(info=i) n = netw.network(info=i) t = tra.traces(s, n, info=i) tor = torus(s, n, t, info=i) pl.show()
self.system.dt / float(self.system.stride), self.system.N_output(self.CYCLES), self.system.stride) t = self.system.dt * np.arange(V_i.shape[0]) ticks = np.asarray(t[::t.size / 10], dtype=int) self.li_b.set_data(t, V_i[:, 0]) self.li_g.set_data(t, V_i[:, 1] - 2.) self.li_r.set_data(t, V_i[:, 2] - 4.) self.li_y.set_data(t, V_i[:, 3] - 6.) self.ax.set_xticks(ticks) self.ax.set_xticklabels(ticks) self.ax.set_xlim(t[0], t[-1]) self.fig.canvas.draw() return t, V_i if __name__ == "__main__": import system as sys import network as netw s = sys.system() n = netw.network() tra = traces(s, n) pl.show()