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QuatPlotTypes_QtDemo.py
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QuatPlotTypes_QtDemo.py
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import time
import os, os.path
import sys
import numpy
from PyQt4.QtCore import *
from PyQt4.QtGui import *
import operator
import matplotlib
from matplotlib.backends.backend_qt4agg import FigureCanvasQTAgg as FigureCanvas
from matplotlib.backends.backend_qt4agg import NavigationToolbar2QTAgg as NavigationToolbar
from matplotlib.figure import Figure
import numpy.ma as ma
import matplotlib.colors as colors
import matplotlib.cm as cm
import matplotlib.mlab as mlab
import pylab
import pickle
#from fcns_math import *
#from fcns_io import *
#from fcns_ui import *
#PyCodePath=os.path.split(os.path.split(os.path.realpath(__file__))[0])[0]
matplotlib.rcParams['backend.qt4'] = 'PyQt4'
wd=os.getcwd()
#sys.path.append(os.path.join(PyCodePath,'PythonCompositionPlots'))
from myternaryutility import TernaryPlot
from myquaternaryutility import QuaternaryPlot
from quaternary_FOM_stackedtern2 import *
from quaternary_FOM_stackedtern5 import *
from quaternary_FOM_stackedtern20 import *
from quaternary_FOM_stackedtern30 import *
from quaternary_FOM_stackedtern9of100 import *
from quaternary_ternary_faces import *
from quaternary_faces_shells import *
from quaternary_folded_ternaries import *
# self.plotw_stack.fig.clf()
# self.plotw_stack_axl, self.plotw_stack_stpl=makefcn(fig=self.plotw_stack.fig, ellabels=self.ellabels)
# self.cbax_stack=self.plotw_stack.fig.add_axes(self.plotw_stack_cbaxrect)
class plottypeDialog(QDialog):
def __init__(self, parent=None, ellabels=['A', 'B', 'C', 'D']):
super(plottypeDialog, self).__init__(parent)
mainlayout=QVBoxLayout()
self.ellabels=ellabels
self.plotw=plotwidget(self)
self.plotw.fig.clf()
mainlayout.addWidget(self.plotw)
self.plottypeComboBox = QComboBox(self)
mainlayout.addWidget(self.plottypeComboBox)
QObject.connect(self.plottypeComboBox,SIGNAL("activated(QString)"),self.plot)
self.setLayout(mainlayout)
self.ternaryfaceoptions=[\
('tern. layered shells', ternaryfaces_shells), \
('folded tern. layers', ternaryfaces_folded), \
('only tern. faces', ternaryfaces), \
]
self.ternaryface_uiinds=[1, 2, 3]
self.stackedternoptions=[\
('20% interv ternaries', (make5ternaxes, scatter_5axes)), \
('10% interv ternaries', (make10ternaxes, scatter_10axes)), \
('5% interv ternaries', (make20ternaxes, scatter_20axes)), \
('3.3% interv ternaries', (make30ternaxes, scatter_30axes)), \
('9 plots at 1% interv', (make9of100ternaxes, scatter_9of100axes)), \
]
self.stackedtern_uiinds=[4, 5, 6, 7, 8]
self.fillplotoptions()
def fillplotoptions(self):
self.plottypeComboBox.clear()
self.plottypeComboBox.insertItem(0, 'none')
for count, tup in enumerate(self.ternaryfaceoptions):
self.plottypeComboBox.insertItem(999, tup[0])
for count, tup in enumerate(self.stackedternoptions):
self.plottypeComboBox.insertItem(999, tup[0])
self.plottypeComboBox.setCurrentIndex(1)
def loadplotdata(self, quatcomps, cols, nintervals=None):
self.cols=cols
self.quatcomps=quatcomps
if nintervals is None:
pairwisediffs=(((quatcomps[1:]-quatcomps[:-1])**2).sum(axis=1))**.5/2.**.5
mindiff=(pairwisediffs[pairwisediffs>0.005]).min()
self.nintervals=round(1./mindiff)
else:
self.nintervals=nintervals
def plot(self, **kwargs):
self.plotw.fig.clf()
i=self.plottypeComboBox.currentIndex()
if i in self.ternaryface_uiinds:
selclass=self.ternaryfaceoptions[self.ternaryface_uiinds.index(i)][1]
self.ternaryfaceplot(selclass, **kwargs)
if i in self.stackedtern_uiinds:
makefcn, scatterfcn=self.stackedternoptions[self.stackedtern_uiinds.index(i)][1]
self.stackedternplot(makefcn, scatterfcn, **kwargs)
self.plotw.fig.canvas.draw()
def ternaryfaceplot(self, plotclass, **kwargs):
ax=self.plotw.fig.add_axes((0, 0, 1, 1))
tf=plotclass(ax, nintervals=self.nintervals)
tf.label()
tf.scatter(self.quatcomps, self.cols, **kwargs)
def stackedternplot(self, makefcn, scatterfcn, **kwargs):
self.axl, self.stpl=makefcn(fig=self.plotw.fig, ellabels=self.ellabels)
scatterfcn(self.quatcomps, self.cols, self.stpl, edgecolor='none', **kwargs)
class plotwidget(FigureCanvas):
def __init__(self, parent, width=12, height=6, dpi=72, projection3d=False):
#plotdata can be 2d array for image plot or list of 2 1d arrays for x-y plot or 2d array for image plot or list of lists of 2 1D arrays
self.fig=Figure(figsize=(width, height), dpi=dpi)
if projection3d:
self.axes=self.fig.add_subplot(111, navigate=True, projection='3d')
else:
self.axes=self.fig.add_subplot(111, navigate=True)
self.axes.hold(True)
FigureCanvas.__init__(self, self.fig)
self.setParent(parent)
#self.parent=parent
FigureCanvas.setSizePolicy(self, QSizePolicy.Expanding, QSizePolicy.Expanding)
FigureCanvas.updateGeometry(self)
#NavigationToolbar(self, parent)
self.toolbar=NavigationToolbar(self.figure.canvas, self)
self.toolbar.setMovable(True)#DOESNT DO ANYTHING
self.mpl_connect('button_press_event', self.myclick)
self.clicklist=[]
def myclick(self, event):
if not (event.xdata is None or event.ydata is None):
arrayxy=[event.xdata, event.ydata]
print 'clicked on image: array indeces ', arrayxy, ' using button', event.button
self.clicklist+=[arrayxy]
self.emit(SIGNAL("genericclickonplot"), [event.xdata, event.ydata, event.button])
if __name__ == "__main__":
class MainMenu(QMainWindow):
def __init__(self, previousmm, execute=True, **kwargs):
super(MainMenu, self).__init__(None)
self.ui=plottypeDialog(self, **kwargs)
intervs=20
compsint=[[b, c, (intervs-a-b-c), a] for a in numpy.arange(0,intervs+1)[::-1] for b in numpy.arange(0,intervs+1-a) for c in numpy.arange(0,intervs+1-a-b)][::-1]
print len(compsint)
comps=numpy.float32(compsint)/intervs
pylab.figure()
stpquat=QuaternaryPlot(111)
cols=stpquat.rgb_comp(comps)
self.ui.loadplotdata(comps, cols)
if execute:
self.ui.exec_()
mainapp=QApplication(sys.argv)
form=MainMenu(None)
form.show()
form.setFocus()
mainapp.exec_()