import time
import logging
import re
import copy
from PyQt5 import QtCore
from PyQt5 import QtGui
from PyQt5 import QtWidgets
from sas.qtgui.Plotting.PlotterData import Data1D
from sas.qtgui.Plotting.Plotter import PlotterWidget
from sas.qtgui.Plotting.PlotterData import Data2D
from sas.qtgui.Plotting.Plotter2D import Plotter2DWidget
import sas.qtgui.Utilities.GuiUtils as GuiUtils
from .UI.DataOperationUtilityUI import Ui_DataOperationUtility
BG_WHITE = "background-color: rgb(255, 255, 255);"
BG_RED = "background-color: rgb(244, 170, 164);"
[docs]class DataOperationUtilityPanel(QtWidgets.QDialog, Ui_DataOperationUtility):
def __init__(self, parent=None):
super(DataOperationUtilityPanel, self).__init__()
self.setupUi(self)
self.manager = parent
self.communicator = self.manager.communicator()
# disable the context help icon
self.setWindowFlags(self.windowFlags() & ~QtCore.Qt.WindowContextHelpButtonHint)
# To store input datafiles
self.filenames = None
self.list_data_items = []
self.data1 = None
self.data2 = None
# To store the result
self.output = None
# To update content of comboboxes with files loaded in DataExplorer
self.communicator.sendDataToPanelSignal.connect(self.updateCombobox)
# change index of comboboxes
self.cbData1.currentIndexChanged.connect(self.onSelectData1)
self.cbData2.currentIndexChanged.connect(self.onSelectData2)
self.cbOperator.currentIndexChanged.connect(self.onSelectOperator)
# edit Coefficient text edit
self.txtNumber.textChanged.connect(self.onInputCoefficient)
self.txtOutputData.textChanged.connect(self.onCheckOutputName)
# push buttons
self.cmdClose.clicked.connect(self.onClose)
self.cmdHelp.clicked.connect(self.onHelp)
self.cmdCompute.clicked.connect(self.onCompute)
self.cmdReset.clicked.connect(self.onReset)
self.cmdCompute.setEnabled(False)
# validator for coefficient
self.txtNumber.setValidator(GuiUtils.DoubleValidator())
self.layoutOutput = QtWidgets.QHBoxLayout()
self.layoutData1 = QtWidgets.QHBoxLayout()
self.layoutData2 = QtWidgets.QHBoxLayout()
# Create default layout for initial graphs (when they are still empty)
self.newPlot(self.graphOutput, self.layoutOutput)
self.newPlot(self.graphData1, self.layoutData1)
self.newPlot(self.graphData2, self.layoutData2)
# Flag to enable Compute pushbutton
self.data2OK = False
self.data1OK = False
[docs] def updateCombobox(self, filenames):
""" Function to fill comboboxes with names of datafiles loaded in
DataExplorer. For Data2, there is the additional option of choosing
a number to apply to data1 """
self.filenames = filenames
if list(filenames.keys()):
# clear contents of comboboxes
self.cbData1.clear()
self.cbData1.addItems(['Select Data'])
self.cbData2.clear()
self.cbData2.addItems(['Select Data', 'Number'])
list_datafiles = []
for key_id in list(filenames.keys()):
if filenames[key_id].title:
# filenames with titles
new_title = filenames[key_id].title
list_datafiles.append(new_title)
self.list_data_items.append(new_title)
else:
# filenames without titles by removing time.time()
new_title = re.sub('\d{10}\.\d{2}', '', str(key_id))
self.list_data_items.append(new_title)
list_datafiles.append(new_title)
# update contents of comboboxes
self.cbData1.addItems(list_datafiles)
self.cbData2.addItems(list_datafiles)
[docs] def onHelp(self):
"""
Bring up the Data Operation Utility Documentation whenever
the HELP button is clicked.
Calls Documentation Window with the path of the location within the
documentation tree (after /doc/ ....".
"""
location = "/user/qtgui/Calculators/data_operator_help.html"
self.manager.showHelp(location)
[docs] def onClose(self):
""" Close dialog """
self.onReset()
self.cbData1.clear()
self.cbData1.addItems(['No Data Available'])
self.cbData2.clear()
self.cbData2.addItems(['No Data Available'])
self.close()
[docs] def onCompute(self):
""" perform calculation """
# set operator to be applied
operator = self.cbOperator.currentText()
# calculate and send data to DataExplorer
output = None
try:
data1 = self.data1
data2 = self.data2
output = eval("data1 %s data2" % operator)
except Exception as ex:
logging.error(ex)
return
self.output = output
# if outputname was unused, write output result to it
# and display plot
if self.onCheckOutputName():
# add outputname to self.filenames
self.list_data_items.append(str(self.txtOutputData.text()))
# send result to DataExplorer
self.onPrepareOutputData()
# plot result
self.updatePlot(self.graphOutput, self.layoutOutput, self.output)
# Add the new plot to the comboboxes
self.cbData1.addItem(self.output.name)
self.cbData2.addItem(self.output.name)
self.filenames[self.output.name] = self.output
[docs] def onPrepareOutputData(self):
""" Prepare datasets to be added to DataExplorer and DataManager """
name = self.txtOutputData.text()
self.output.name = name
new_item = GuiUtils.createModelItemWithPlot(
self.output,
name=name)
new_datalist_item = {name + str(time.time()):
self.output}
self.communicator. \
updateModelFromDataOperationPanelSignal.emit(new_item, new_datalist_item)
[docs] def onSelectOperator(self):
""" Change GUI when operator changed """
self.lblOperatorApplied.setText(self.cbOperator.currentText())
self.newPlot(self.graphOutput, self.layoutOutput)
[docs] def onReset(self):
"""
Reset Panel to its initial state (default values) keeping
the names of loaded data
"""
self.txtNumber.setText('1.0')
self.txtOutputData.setText('MyNewDataName')
self.txtNumber.setEnabled(False)
self.cmdCompute.setEnabled(False)
self.cbData1.setCurrentIndex(0)
self.cbData2.setCurrentIndex(0)
self.cbOperator.setCurrentIndex(0)
self.data1OK = False
self.data2OK = False
# Empty graphs
self.newPlot(self.graphOutput, self.layoutOutput)
self.newPlot(self.graphData1, self.layoutData1)
self.newPlot(self.graphData2, self.layoutData2)
[docs] def onSelectData1(self):
""" Plot for selection of Data1 """
choice_data1 = str(self.cbData1.currentText())
wrong_choices = ['No Data Available', 'Select Data', '']
if choice_data1 in wrong_choices:
# check validity of choice: input = filename
self.newPlot(self.graphData1, self.layoutData1)
self.data1 = None
self.data1OK = False
self.cmdCompute.setEnabled(False) # self.onCheckChosenData())
return
else:
self.data1OK = True
# get Data1
key_id1 = self._findId(choice_data1)
self.data1 = self._extractData(key_id1)
# plot Data1
self.updatePlot(self.graphData1, self.layoutData1, self.data1)
# plot default for output graph
self.newPlot(self.graphOutput, self.layoutOutput)
# Enable Compute button only if Data2 is defined and data compatible
self.cmdCompute.setEnabled(self.onCheckChosenData())
[docs] def onSelectData2(self):
""" Plot for selection of Data2 """
choice_data2 = str(self.cbData2.currentText())
wrong_choices = ['No Data Available', 'Select Data', '']
if choice_data2 in wrong_choices:
self.newPlot(self.graphData2, self.layoutData2)
self.txtNumber.setEnabled(False)
self.data2OK = False
self.onCheckChosenData()
self.cmdCompute.setEnabled(False)
return
elif choice_data2 == 'Number':
self.data2OK = True
self.txtNumber.setEnabled(True)
self.data2 = float(self.txtNumber.text())
# Enable Compute button only if Data1 defined and compatible data
self.cmdCompute.setEnabled(self.onCheckChosenData())
# Display value of coefficient in graphData2
self.updatePlot(self.graphData2, self.layoutData2, self.data2)
# plot default for output graph
self.newPlot(self.graphOutput, self.layoutOutput)
self.onCheckChosenData()
else:
self.txtNumber.setEnabled(False)
self.data2OK = True
key_id2 = self._findId(choice_data2)
self.data2 = self._extractData(key_id2)
self.cmdCompute.setEnabled(self.onCheckChosenData())
# plot Data2
self.updatePlot(self.graphData2, self.layoutData2, self.data2)
# plot default for output graph
self.newPlot(self.graphOutput, self.layoutOutput)
[docs] def onCheckChosenData(self):
""" check that data1 and data2 are compatible """
if not all([self.data1OK, self.data2OK]):
return False
else:
if self.cbData2.currentText() == 'Number':
self.cbData1.setStyleSheet(BG_WHITE)
self.cbData2.setStyleSheet(BG_WHITE)
return True
elif self.data1.__class__.__name__ != self.data2.__class__.__name__:
self.cbData1.setStyleSheet(BG_RED)
self.cbData2.setStyleSheet(BG_RED)
print(self.data1.__class__.__name__ != self.data2.__class__.__name__)
logging.warning('Cannot compute data of different dimensions')
return False
elif self.data1.__class__.__name__ == 'Data1D'\
and (len(self.data2.x) != len(self.data1.x) or
not all(i == j for i, j in zip(self.data1.x, self.data2.x))):
logging.warning('Cannot compute 1D data of different lengths')
self.cbData1.setStyleSheet(BG_RED)
self.cbData2.setStyleSheet(BG_RED)
return False
elif self.data1.__class__.__name__ == 'Data2D' \
and (len(self.data2.qx_data) != len(self.data1.qx_data) \
or len(self.data2.qy_data) != len(self.data1.qy_data)
or not all(i == j for i, j in
zip(self.data1.qx_data, self.data2.qx_data))
or not all(i == j for i, j in
zip(self.data1.qy_data, self.data2.qy_data))
):
self.cbData1.setStyleSheet(BG_RED)
self.cbData2.setStyleSheet(BG_RED)
logging.warning('Cannot compute 2D data of different lengths')
return False
else:
self.cbData1.setStyleSheet(BG_WHITE)
self.cbData2.setStyleSheet(BG_WHITE)
return True
[docs] def onCheckOutputName(self):
""" Check that name of output does not already exist """
name_to_check = str(self.txtOutputData.text())
self.txtOutputData.setStyleSheet(BG_WHITE)
if name_to_check is None or name_to_check == '':
self.txtOutputData.setStyleSheet(BG_RED)
logging.warning('No output name')
return False
elif name_to_check in self.list_data_items:
self.txtOutputData.setStyleSheet(BG_RED)
logging.warning('The Output data name already exists')
return False
else:
self.txtOutputData.setStyleSheet(BG_WHITE)
return True
# ########
# Modification of inputs
# ########
def _findId(self, name):
""" find id of name in list of filenames """
isinstance(name, str)
for key_id in list(self.filenames.keys()):
# data with title
if self.filenames[key_id].title:
input = self.filenames[key_id].title
# data without title
else:
input = str(key_id)
if name in input:
return key_id
def _extractData(self, key_id):
""" Extract data from file with id contained in list of filenames """
data_complete = self.filenames[key_id]
dimension = data_complete.__class__.__name__
if dimension in ('Data1D', 'Data2D'):
return copy.deepcopy(data_complete)
else:
logging.warning('Error with data format')
return
# ########
# PLOTS
# ########
[docs] def newPlot(self, graph, layout):
""" Create template for graphs with default '?' layout"""
assert isinstance(graph, QtWidgets.QGraphicsView)
assert isinstance(layout, QtWidgets.QHBoxLayout)
# clear layout
if layout.count() > 0:
item = layout.takeAt(0)
layout.removeItem(item)
layout.setContentsMargins(0, 0, 0, 0)
layout.addWidget(self.prepareSubgraphWithData("?"))
graph.setLayout(layout)
[docs] def updatePlot(self, graph, layout, data):
""" plot data in graph after clearing its layout """
assert isinstance(graph, QtWidgets.QGraphicsView)
assert isinstance(layout, QtWidgets.QHBoxLayout)
# clear layout
if layout.count() > 0:
item = layout.takeAt(0)
layout.removeItem(item)
layout.setContentsMargins(0, 0, 0, 0)
if isinstance(data, Data2D):
# plot 2D data
plotter2D = Plotter2DWidget(self, quickplot=True)
plotter2D.scale = 'linear'
plotter2D.ax.tick_params(axis='x', labelsize=8)
plotter2D.ax.tick_params(axis='y', labelsize=8)
# Draw zero axis lines.
plotter2D.ax.axhline(linewidth=1)
plotter2D.ax.axvline(linewidth=1)
graph.setLayout(layout)
layout.addWidget(plotter2D)
# remove x- and ylabels
plotter2D.y_label = ''
plotter2D.x_label = ''
plotter2D.plot(data=data, show_colorbar=False)
plotter2D.show()
elif isinstance(data, Data1D):
# plot 1D data
plotter = PlotterWidget(self, quickplot=True)
data.scale = 'linear'
plotter.showLegend = False
graph.setLayout(layout)
layout.addWidget(plotter)
plotter.ax.tick_params(axis='x', labelsize=8)
plotter.ax.tick_params(axis='y', labelsize=8)
plotter.plot(data=data, hide_error=True, marker='.')
plotter.show()
elif float(data) and self.cbData2.currentText() == 'Number':
# display value of coefficient (to be applied to Data1)
# in graphData2
layout.addWidget(self.prepareSubgraphWithData(data))
graph.setLayout(layout)
[docs] def prepareSubgraphWithData(self, data):
""" Create graphics view containing scene with string """
scene = QtWidgets.QGraphicsScene()
scene.addText(str(data))
subgraph = QtWidgets.QGraphicsView()
subgraph.setScene(scene)
return subgraph