def display1D(t, slot=0, gridPos=(0,0), gridSize=(-1,-1), bgBlend=1., var1='', var2='', r1=None, r2=None): """Display 1D plots. Usage: display1D(t, slot, ....)""" import Converter if len(t) > 0 and isinstance(t[0], numpy.ndarray): # as numpys if len(t) < 2: raise ValueError('display1D: requires at least two numpys [x,y]') x = t[0]; y = t[1] n = x.size array = Converter.array(var1+','+var2,n,1,1) array[1][0,:] = x[:] array[1][1,:] = y[:] arrays = [array] else: arrays = C.getAllFields(t, 'nodes') # as pyZone CPlot.display1D(arrays, slot, gridPos, gridSize, bgBlend, var1, var2, r1, r2)
# - display1D (array) - import Generator as G import CPlot import Transform as T import Converter as C import numpy # 1D data defined in arrays b = G.cart((0, 0, 0), (0.1, 1, 1), (50, 1, 1)) c = G.cart((5, 0, 0), (0.1, 1, 1), (50, 1, 1)) B = [b, c] CPlot.setState(gridSize=(1, 2)) for i in xrange(100): B = C.initVars(B, 'f=sin({x}+0.02*%d)' % i) B = C.initVars(B, 'g={x}') CPlot.display1D(B, slot=0, bgBlend=1., gridPos=(0, 0), var1='x', var2='f') # 1D data defined in numpys x = numpy.linspace(0, 2 * numpy.pi) y = numpy.sin(x) CPlot.display1D([x, y], slot=1, var1='x', var2='y', gridPos=(0, 1), bgBlend=0.)