def __init__(self, rhoNumber, phiNumber, tfNumber):
self.rhoNumber = rhoNumber
self.phiNumber = phiNumber
self.tfNumber = tfNumber
if rhoNumber == 0:
self.rho = TrivialField()
elif rhoNumber == 1:
datasetDir = "datasets/" + repr(rhoNumber)
self.rho = splineio.read(datasetDir + "/rho.json")
else:
self.rho = SineField()
if phiNumber == 0:
self.phi = TrivialGeometry()
elif phiNumber == 1:
datasetDir = "datasets/" + repr(phiNumber)
self.phi = splineio.read(datasetDir + "/phi.json")
else:
self.phi = SineGeometry()
if tfNumber == 0:
self.tf = trivialtransfer.createTransferFunction()
elif tfNumber == 1:
self.tf = simpletransfer.createTransferFunction()
else:
self.tf = peakstransfer.createTransferFunction()
from matplotlib.gridspec import GridSpec
import matplotlib.pyplot as plt
import numpy as np
from plotting.paramplotter import ParamPlotter
from dataset import Dataset
import datasets.peakstransfer as transfer
fig = plt.figure(figsize=[8, 6])
gs = GridSpec(1, 1)
ax = fig.add_subplot(gs[0, 0])
dataset = Dataset(1, 1)
splineInterval = np.array([0.0, 1.0])
t = transfer.createTransferFunction()
p = ParamPlotter(ax, splineInterval, precision=1000)
cax = p.plotScalarField(dataset.rho, t)
ax.set_aspect('equal')
cbar = fig.colorbar(cax, ticks=[0.0, 1.0])
cbar.ax.set_yticklabels(['0.0', '1.0']) # Workaround for the ticks being converted to integers
cbar.solids.set_edgecolor('face') # Removes buggy lines in vector graphics
fig.tight_layout()
plt.savefig("output/vg/scalartransfer.pdf", format="pdf", transparent=True)
