analysisview.py 47.7 KB
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# -*- coding: utf-8 -*-
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#!/usr/bin/env python3
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"""
GEPARD - Gepard-Enabled PARticle Detection
Copyright (C) 2018  Lars Bittrich and Josef Brandt, Leibniz-Institut für 
Polymerforschung Dresden e. V. <bittrich-lars@ipfdd.de>    

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program, see COPYING.  
If not, see <https://www.gnu.org/licenses/>.
"""

from PyQt5 import QtCore, QtGui, QtWidgets
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import numpy as np
import pandas as pd
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import sys
import operator
import os
import random
import colorsys

from matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas
from matplotlib.figure import Figure
from matplotlib.backends.backend_qt5agg import NavigationToolbar2QT as NavigationToolbar

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from .loadresults import LoadWITecResults
from .editParticles import ParticleEditor
from .database import DataBaseWindow
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try:
    from analysis.sqlexport import SQLExport
    sqlEnabled = True
except:
    sqlEnabled = False
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class ParticleAnalysis(QtWidgets.QMainWindow):
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    def __init__(self, parent):
        super(ParticleAnalysis, self).__init__()
        self.setGeometry(100, 100, 1680, 1050)
        self.setWindowTitle('Results of polymer analysis')
        self.layout = QtWidgets.QHBoxLayout()
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        self.widget = QtWidgets.QWidget()
        self.widget.setLayout(self.layout)
        self.setCentralWidget(self.widget)
        
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        self.parent = parent
        if self.parent is not None:
            self.config = self.parent.dataset.resultParams
        
        self.editor = ParticleEditor(self)
        
        self.spectraResults = None                  #entire List of all spectra assignments
        self.additiveResults = None                 #entire List of all additives
        self.particlestats = None
        self.particleResults = None                 #final assignment for each particle
        
        self.currentPolymers = None                 #list of polymers after setting entries with low hqi to unknown
        self.currentAdditives = None                #same thing for the additives
        self.uniquePolymers = None                  #list of present polymer types
        self.spectra = None                         #acquired spectra
        self.indices = None                         #assignment of what spectra-indices belong to what substance
        self.additivePlot = None
        self.importWindow = None
        self.directory = None
        self.particles2spectra = None
        self.manualPolymers = {}
        self.manualAdditives = {}
        self.polymerCheckBoxes = []
        self.lastSelectedCheckBoxNames = []
        
        self.currentParticleIndex = 0
        self.currentSpectrumIndex = 0
        self.lastSpectrumInFocus = None
        
        self.typeHistogramCanvas = FigureCanvas(Figure())
        self.sizeHistogramCanvas = FigureCanvas(Figure())
       
        self.typeHist_ax = self.typeHistogramCanvas.figure.subplots()
        self.typeHist_ax.axis('off')
        sizeHistGroup = QtWidgets.QGroupBox()
        sizeHistLayout = QtWidgets.QHBoxLayout()
        self.sizeHist_ax = self.sizeHistogramCanvas.figure.subplots()
        self.sizeHist_ax.axis('off')
        self.sizeHistogramCanvas.figure.subplots_adjust(left=0.1, top=0.93, bottom=0.15, right=0.995)
        histNavigation = NavigationToolbar(self.sizeHistogramCanvas, self)
        histNavigation.setOrientation(QtCore.Qt.Vertical)
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        histNavigation.setFixedWidth(50)
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        sizeHistLayout.addWidget(histNavigation)
        sizeHistLayout.addWidget(self.sizeHistogramCanvas)
        sizeHistGroup.setLayout(sizeHistLayout)
        
        specGroup = QtWidgets.QGroupBox()
        specLayout = QtWidgets.QHBoxLayout()
        self.specCanvas = FigureCanvas(Figure())
        self.spec_ax = self.specCanvas.figure.subplots()
        self.spec_ax.axis("off")
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        self.ref_ax = self.spec_ax.twinx()
        self.specCanvas.figure.subplots_adjust(left=0.1, top=0.93, bottom=0.15, right=0.9)
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        specNavigation = NavigationToolbar(self.specCanvas, self)
        specNavigation.setOrientation(QtCore.Qt.Vertical)
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        specNavigation.setFixedWidth(50)
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        specLayout.addWidget(specNavigation)
        specLayout.addWidget(self.specCanvas)
        specGroup.setLayout(specLayout)
        
        viewLayout = QtWidgets.QVBoxLayout()
        self.menuLayout = QtWidgets.QVBoxLayout()
        
        splitter1 = QtWidgets.QSplitter(QtCore.Qt.Vertical)
        splitter1.addWidget(specGroup)
        splitter1.addWidget(sizeHistGroup)
        splitter2 = QtWidgets.QSplitter(QtCore.Qt.Horizontal)
        splitter2.addWidget(splitter1)
        splitter2.addWidget(self.typeHistogramCanvas)
        splitter2.setSizes([300, 150])
       
        self.navigationGroup = QtWidgets.QGroupBox('Navigate through polymers')
        self.navigationGroup.setDisabled(True)
        navigationLayout = QtWidgets.QHBoxLayout()
        self.polymerComboBox = QtWidgets.QComboBox()
        self.polymerComboBox.currentIndexChanged.connect(self.displayNewPolymerType)
        self.polymerComboBox.setMinimumWidth(150)
        self.particleSelector = QtWidgets.QSpinBox()
        self.particleSelector.valueChanged.connect(self.selectParticle)
        self.spectrumSelector = QtWidgets.QSpinBox()
        self.spectrumSelector.valueChanged.connect(self.selectSpectrum)
        for spinbox in [self.particleSelector, self.spectrumSelector]:
            spinbox.setMinimum(1)
            spinbox.setSingleStep(1)
            spinbox.setValue(1)
        
        navigationLayout.addWidget(QtWidgets.QLabel('Select Polymer Type:'))
        navigationLayout.addWidget(self.polymerComboBox)
        navigationLayout.addStretch()
        navigationLayout.addWidget(QtWidgets.QLabel('Select Particle'))
        navigationLayout.addWidget(self.particleSelector)
        navigationLayout.addWidget(QtWidgets.QLabel('Select Spectrum'))
        navigationLayout.addWidget(self.spectrumSelector)
        navigationLayout.addStretch()
        
        self.navigationGroup.setLayout(navigationLayout)
        
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        referenceGroup = QtWidgets.QGroupBox('Reference Spectra')
        referenceLayout = QtWidgets.QHBoxLayout()
        
        self.refSelector = QtWidgets.QComboBox()
        self.refSelector.setDisabled(True)
        self.dbWin = DataBaseWindow(self)
        self.dbWin.selectDataBase(refreshParent=True)  #this includes updating the refSelector
        
        self.refSelector.currentIndexChanged.connect(self.updateSpecPlot)
        referenceLayout.addWidget(QtWidgets.QLabel('Select Reference'))
        referenceLayout.addWidget(self.refSelector)
        referenceGroup.setLayout(referenceLayout)
        
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        topLayout = QtWidgets.QHBoxLayout()
        topLayout.addWidget(self.navigationGroup)
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        topLayout.addWidget(referenceGroup)
        topLayout.addStretch()
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        viewLayout.addLayout(topLayout)
        viewLayout.addWidget(splitter2)
        viewLayout.setStretch(1, 1)

        self.optionsGroup = QtWidgets.QGroupBox('Further Options')
        optionsLayout = QtWidgets.QFormLayout()
        
        self.hqiSpinBox = QtWidgets.QDoubleSpinBox()
        self.hqiSpinBox.setValue(75.0)
        self.hqiSpinBox.setDecimals(1)
        self.hqiSpinBox.setMinimum(0)
        optionsLayout.addRow(QtWidgets.QLabel('min HQI:'), self.hqiSpinBox)
        
        self.compHqiSpinBox = QtWidgets.QDoubleSpinBox()
        self.compHqiSpinBox.setValue(30.0)
        self.compHqiSpinBox.setDecimals(1)
        self.compHqiSpinBox.setMinimum(0)
        self.compHqiSpinBox.setDisabled(True)
        optionsLayout.addRow(QtWidgets.QLabel('min component HQI'), self.compHqiSpinBox)
        
        self.dispResultSpinBox = QtWidgets.QSpinBox()
        self.dispResultSpinBox.setValue(20)
        self.dispResultSpinBox.setMinimum(1)
        self.dispResultSpinBox.valueChanged.connect(self.updateHistogram)
        optionsLayout.addRow(QtWidgets.QLabel('Max. items in display:'), self.dispResultSpinBox)
        
        for spinbox in [self.hqiSpinBox, self.compHqiSpinBox]:
            spinbox.setMaximum(100)
            spinbox.setMaximumWidth(45)
        
        self.updateBtn = QtWidgets.QPushButton('Update Results')
        self.updateBtn.setDisabled(True)
        optionsLayout.addRow(self.updateBtn)
        
        self.optionsGroup.setLayout(optionsLayout)
        self.optionsGroup.setMinimumWidth(175)
        self.optionsGroup.setDisabled(True)
        
        self.resultScrollarea = QtWidgets.QScrollArea(self)
        self.resultScrollarea.setFixedWidth(250)
        self.resultScrollarea.setWidgetResizable(True)

        widget = QtWidgets.QWidget()
        self.resultScrollarea.setWidget(widget)
        self.layout_SArea = QtWidgets.QVBoxLayout(widget)

        self.resultCheckBoxes = QtWidgets.QGroupBox('Display Polymer Types:')
        self.resultCheckBoxesLayout = QtWidgets.QVBoxLayout()
        self.showTotalSelector = QtWidgets.QCheckBox('Show Total Distribution')
        self.showTotalSelector.setChecked(True)
        self.showTotalSelector.setDisabled(True)
        self.resultCheckBoxesLayout.addWidget(self.showTotalSelector)
       
        self.resultCheckBoxesLayout.addStretch()
        self.resultCheckBoxes.setLayout(self.resultCheckBoxesLayout)

        self.layout_SArea.addWidget(self.resultCheckBoxes)
#        self.layout_SArea.addStretch(1)

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#        self.menuLayout.addWidget(reloadGroup)
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        self.menuLayout.addWidget(self.optionsGroup)
        self.menuLayout.addWidget(self.resultScrollarea)
        
        self.layout.addLayout(self.menuLayout)
        self.layout.addLayout(viewLayout)
        
#        update config, if present:
        if self.parent is not None:
            if self.config['minHQI'] is not None:
                self.hqiSpinBox.setValue(self.config['minHQI'])
                self.compHqiSpinBox.setValue(self.config['compHQI'])
         
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        self.createActions()
        self.createMenus()
        
        self.updateData()
    
    def createActions(self):
        self.loadTrueMatchAct = QtWidgets.QAction("Load &TrueMatch Results", self)
        self.loadTrueMatchAct.triggered.connect(self.importTrueMatchResults)
        
        self.loadTextFileAct = QtWidgets.QAction("Load &ordered Text File", self)
        self.loadTextFileAct.setDisabled(True)
        
        self.noOverlayAct = QtWidgets.QAction("&No Overlay", self)
        self.selOverlayAct = QtWidgets.QAction("&Selected Overlay", self)
        self.fullOverlayAct = QtWidgets.QAction("&Full Overlay", self)
        
        self.transpAct = QtWidgets.QAction("&Transparent Overlay")
        self.transpAct.triggered.connect(self.createPolymerOverlay)
            
        self.hideLabelAct = QtWidgets.QAction('&Hide Polymer Numbers', self)
        self.hideLabelAct.triggered.connect(self.show_hide_labels)
        
        self.darkenAct = QtWidgets.QAction("&Darken Image", self)
        self.darkenAct.triggered.connect(self.darkenBackground)
        
        for act in [self.noOverlayAct, self.selOverlayAct, self.fullOverlayAct, self.hideLabelAct, self.transpAct, self.darkenAct]:
            act.setCheckable(True)
        self.fullOverlayAct.setChecked(True)
        
        self.seedAct = QtWidgets.QAction("&Set Color Seed", self)
        self.seedAct.triggered.connect(self.updateColorSeed)

        self.databaseAct = QtWidgets.QAction("&ManageDatabase", self)
        self.databaseAct.triggered.connect(self.launchDBManager)
        
        self.expExcelAct= QtWidgets.QAction("Export &Excel List", self)
        self.expExcelAct.setDisabled(True)
        self.expExcelAct.triggered.connect(self.exportToExcel)
        
        self.expSQLAct = QtWidgets.QAction("Export to &SQL Database", self)
        self.expSQLAct.setDisabled(True)
        self.expSQLAct.triggered.connect(self.exportToSQL)
    
    def createMenus(self):
        self.importMenu = QtWidgets.QMenu("&Import Results")
        self.importMenu.addActions([self.loadTrueMatchAct, self.loadTextFileAct])
        
        self.dispMenu = QtWidgets.QMenu("&Display", self)
        self.overlayActGroup = QtWidgets.QActionGroup(self.dispMenu)
        self.overlayActGroup.setExclusive(True)
        self.overlayActGroup.triggered.connect(self.createPolymerOverlay)
        self.overlayActGroup.triggered.connect(self.updateHistogram)
        
        for act in [self.noOverlayAct, self.selOverlayAct, self.fullOverlayAct]:
            self.dispMenu.addAction(act)
            self.overlayActGroup.addAction(act)
        
        self.dispMenu.addSeparator()
        self.dispMenu.addActions([self.transpAct, self.hideLabelAct, self.darkenAct, self.seedAct])
        
        self.refMenu = QtWidgets.QMenu("&References")
        self.refMenu.addAction(self.databaseAct)
        
        self.exportMenu = QtWidgets.QMenu("&Export", self)
        self.exportMenu.addAction(self.expExcelAct)
        self.exportMenu.addAction(self.expSQLAct)
        
        self.menuBar().addMenu(self.importMenu)
        self.menuBar().addMenu(self.dispMenu)
        self.menuBar().addMenu(self.refMenu)
        self.menuBar().addMenu(self.exportMenu)

    def launchDBManager(self):
        if self.dbWin.isHidden():
            self.dbWin.show()
    
    def populateRefSelector(self):
        #delete all present entries:
        self.refSelector.clear()
        
        if self.dbWin.activeDatabase is None:
            self.refSelector.setDisabled(True)
        else:
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            self.refSelector.addItem('')
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            self.refSelector.addItems(self.dbWin.activeDatabase.spectraNames)
            self.refSelector.setDisabled(False)
                
    
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    def loadSpectra(self, fname):
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        import time
        t0 = time.time()
        specfilename = self.parent.dataset.fname.split('.pkl')[0] + '_spectra.npy'
        if os.path.exists(specfilename):
            return np.load(specfilename)
        else:
            try:
                specs = np.loadtxt(fname)
                #if spectra are already in correct format (WITec, first column: wavenumbers, other columns, intensities), 
                #we take them, otherwise we have to convert from Renishaw export format...
                if not len(np.unique(specs[:, 0])) == len(specs[:, 0]): #--> only unique numbers -> this is the wavenumber column, we have the witec format
                    #Renishaw Convert  
                    #columns 0 and 1 are x and y coordinates. We dont need them...
                    startWavenumber = specs[0, 2]
                    startIndices = np.where(specs[:, 2] == startWavenumber)[0]
                    
                    spectra = np.zeros((startIndices[1], len(startIndices)+1))   #create array with shape (numWavenumbers, numSpectra+1) (first column holds wavenumbers)
                    spectra[:, 0] = specs[startIndices[0]:startIndices[1], 2]
                    for i in range(len(startIndices)-1):
                        spectra[:, i+1] = specs[startIndices[i]:startIndices[i+1], 3]
                    #aaand the last spectrum:
                    spectra[:, -1] = specs[startIndices[-1]:, 3]
                    specs = np.flip(spectra, 0)    #Renishaw goes from highest to lowest wavenumber, out of whatever reason...
                    
                #write spectra to binary file, that makes reloading them in future significantly faster
                np.save(specfilename, specs)
                print('loading specs:', time.time()-t0)
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                return specs
                
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            except:
                return None
            
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    def updateData(self):
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        print('updating data from', self.parent.dataset.name)
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        self.spectraResults = self.parent.dataset.results['polymers']
        self.additiveResults = self.parent.dataset.results['additives']
        self.hqis = self.parent.dataset.results['hqis']
        self.addhqis = self.parent.dataset.results['additive_hqis']
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        self.colorSeed = self.parent.dataset.colorSeed
        if type(self.colorSeed) != str:
            self.colorSeed = 'default'
        
        #load Spectra
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        if self.parent.dataset.spectraPath is None:
            fname = os.path.join(self.parent.dataset.path, self.parent.dataset.name + '_000_Spec.Data 1.txt')
        else:
            fname = self.parent.dataset.spectraPath
        self.spectra = self.loadSpectra(fname)
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        if self.spectra is None:
            fname = QtWidgets.QFileDialog.getOpenFileName(self, 'Select Spectra File', self.parent.dataset.path, 'text file (*.txt)')[0]
            self.spectra = self.loadSpectra(fname)
            if self.spectra is None:
                QtWidgets.QMessageBox.critical(self, 'ERROR!', 'spectra file could not be opened with np.loadtxt...')
                return
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        self.parent.dataset.spectraPath = fname
        self.specCanvas.draw()
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        self.loadParticleData()
        
    def loadParticleData(self):
        self.particlestats = np.array(self.parent.dataset.particlestats)
        pixelscale = (self.parent.dataset.pixelscale_df if self.parent.dataset.imagescanMode == 'df' else self.parent.dataset.pixelscale_bf)
        #convert to mikrometer scale
        for index in range(len(self.particlestats)):
            for subindex in range(5):
                self.particlestats[index][subindex] = self.particlestats[index][subindex] * pixelscale    #multiply by pixelscale
                if subindex == 4:
                    self.particlestats[index][subindex] = self.particlestats[index][subindex] * pixelscale  #again for the area...
        
        self.particles2spectra = self.parent.dataset.particles2spectra
        
        sortindices = self.parent.dataset.ramanscansortindex
        if self.particles2spectra is None:
            print('creating default particles2spectra list')
            #no assignment found, so we assume one measurement per particle and use ramanscansortindex for assignment
            self.particles2spectra = [[int(np.where(sortindices == i)[0])] for i in range(len(sortindices))]
        
        #check, if dataset already contains results. Otherwise load them...
        if self.spectraResults is None or (len(self.spectraResults) != len(sortindices)):
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            self.show()
            answer = QtWidgets.QMessageBox.question(self, 'Warning', 'No (or inconsistent) spectra results found, please run import dialog.\nPress OK to import or cancel to set to empty.', QtWidgets.QMessageBox.Ok | QtWidgets.QMessageBox.Cancel)
            if answer == QtWidgets.QMessageBox.Ok:
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                self.importTrueMatchResults()
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            elif answer == QtWidgets.QMessageBox.Cancel:
                self.spectraResults = ['empty']*(self.spectra.shape[1]-1)
                self.hqis = [100]*(self.spectra.shape[1]-1)
                self.updateBtn.clicked.connect(self.formatResults)
                self.formatResults()
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        else:
            self.updateBtn.clicked.connect(self.formatResults)
            self.formatResults()
        
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    def importTrueMatchResults(self):
        self.importWindow = LoadWITecResults(self)
        self.importWindow.show()
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    def getAdditivePlot(self, event):
        clickedindex = int(np.round(event.xdata))
        polymer = self.typehistogram[clickedindex][0]        #get the polymer name, that was clicked on
      
        if len(self.sorted_additives[clickedindex]) > 0:            
            self.additivePlot = AdditiveViewer(polymer, self.sorted_additives[clickedindex])
            self.additivePlot.show()
    
    def formatResults(self):
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        if self.spectraResults is not None:
            print('formatResults')
            self.updateBtn.setDisabled(False)
            self.optionsGroup.setDisabled(False)
            del self.currentPolymers, self.currentAdditives
            
            #convert to arrays (makes indexing easier...)
            self.currentPolymers, self.hqis = np.array(self.spectraResults), np.array(self.hqis)
            
            if self.additiveResults is not None:
                self.currentAdditives, self.addhqis = np.array(self.additiveResults), np.array(self.addhqis)
                self.compHqiSpinBox.setDisabled(False)
            else:
                self.currentAdditives = None
            
            #set poor HQI results to unknown
            self.currentPolymers[self.hqis < self.hqiSpinBox.value()] = 'unknown'
            
            if self.currentAdditives is not None:
                self.currentAdditives[self.addhqis < self.compHqiSpinBox.value()] = 'unknown'
            
            self.createHistogramData()
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    def createHistogramData(self):
        self.uniquePolymers = np.unique(self.currentPolymers)
        self.particleResults = [None]*len(self.particlestats)
        self.typehistogram = {i: 0 for i in self.uniquePolymers}
        
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        if len(self.particles2spectra) != len(self.particlestats):
            QtWidgets.QMessageBox.critical(self, 'Error', 'Inconsistent particle data. Please restore backup!')
            return
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        for particleID, specList in enumerate(self.particles2spectra):
            assignment = self.currentPolymers[specList[0]]   #we take the first result as particle result. Hence, all spectra per particle have to have the same result
            self.particleResults[particleID] = assignment
            self.typehistogram[assignment] += 1
            
        self.particleResults = np.array(self.particleResults)
        
        ##sort typehistogram, it will be converted into a list!!
        self.typehistogram = sorted(self.typehistogram.items(), key = operator.itemgetter(1), reverse = True)
        
        self.uniquePolymers = [i[0] for i in self.typehistogram]
        
        self.indices = []      #what particles belong to which polymer type?
        for polymer in self.uniquePolymers:
            self.indices.append(list(np.where(self.particleResults == polymer)[0]))
            

        ###generate additive array for each type in typehistogram:
        if self.currentAdditives is None:
            self.sorted_additives = None
        else:
            self.sorted_additives = []
            
            for polymer in self.typehistogram:  #get additives of each polymer type
                self.sorted_additives.append(self.currentAdditives[np.where(self.currentPolymers == polymer[0])])
            for i in range(len(self.sorted_additives)):         #sort out 'none' entries
                nonentries = np.where(self.sorted_additives[i] == 'none')
                self.sorted_additives[i] = np.delete(self.sorted_additives[i], nonentries)
        
        ###Handle Checkboxes for all polymers...
        self.menuLayout.removeWidget(self.resultScrollarea)
        for i in [self.resultCheckBoxes, self.resultCheckBoxesLayout, self.resultScrollarea, self.layout_SArea]:
            i.setParent(None)
            del i

        for i in self.polymerCheckBoxes:        #remove present boxlabels
            i.setParent(None)
            del i
        self.showTotalSelector.setParent(None)
        self.showTotalSelector.setDisabled(False)
        self.showTotalSelector.stateChanged.connect(self.updateHistogram)
        
        del self.resultCheckBoxes
        del self.resultCheckBoxesLayout
        del self.resultScrollarea
        del self.layout_SArea
        
        self.resultScrollarea = QtWidgets.QScrollArea(self)
        self.resultScrollarea.setFixedWidth(250)
        self.resultScrollarea.setWidgetResizable(True)

        widget = QtWidgets.QWidget()
        self.resultScrollarea.setWidget(widget)
        self.layout_SArea = QtWidgets.QVBoxLayout(widget)

        self.resultCheckBoxes = QtWidgets.QGroupBox('Show Polymer Types:')
        self.resultCheckBoxesLayout = QtWidgets.QVBoxLayout()
        self.resultCheckBoxesLayout.addWidget(self.showTotalSelector)
        #generate new checkboxes 
        self.polymerCheckBoxes = []
        for index, polymer in enumerate(self.uniquePolymers):
            self.polymerCheckBoxes.append(QtWidgets.QCheckBox(self))
            self.polymerCheckBoxes[index].setText(polymer)
            self.resultCheckBoxesLayout.addWidget(self.polymerCheckBoxes[index])
            if polymer in self.lastSelectedCheckBoxNames:
                self.polymerCheckBoxes[index].setChecked(True)
            
            self.polymerCheckBoxes[index].stateChanged.connect(self.updateHistogram)
            self.polymerCheckBoxes[index].stateChanged.connect(self.createPolymerOverlay)

        self.resultCheckBoxesLayout.addStretch()
        self.resultCheckBoxes.setLayout(self.resultCheckBoxesLayout)
        
        self.layout_SArea.addWidget(self.resultCheckBoxes)
        
        self.menuLayout.addWidget(self.resultScrollarea)
        
        if self.currentAdditives is not None:
            self.typeHistogramCanvas.setCursor(QtGui.QCursor(QtCore.Qt.WhatsThisCursor))
            self.typeHistogramCanvas.mpl_connect('button_press_event', self.getAdditivePlot)
        
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        self.expExcelAct.setDisabled(False)
        if sqlEnabled:
            self.expSQLAct.setDisabled(False)
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        self.navigationGroup.setEnabled(True)
        self.polymerComboBox.currentIndexChanged.disconnect()
        self.polymerComboBox.clear()
        self.polymerComboBox.addItems(self.uniquePolymers)
        self.polymerComboBox.currentIndexChanged.connect(self.displayNewPolymerType)
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        self.polymerIndex = self.polymerComboBox.currentIndex()
        if self.lastSpectrumInFocus is not None:
            self.currentSpectrumIndex = self.lastSpectrumInFocus
            self.displayNewPolymerType(resetCurrentIndex=False)
        else:
            self.displayNewPolymerType()
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        self.updateHistogram()
        self.createPolymerOverlay()
    
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    def exportToExcel(self):
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        expWin = ExpExcelDialog(self)
        expWin.exec()
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    def exportToSQL(self):
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        sqlexp = SQLExport(self)
        sqlexp.exec()
        
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    def updateSpecPlot(self, centerOn=True, highlightContour=True):
        #draw Sample Spectrum
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        specIndex = self.currentSpectrumIndex
        self.spec_ax.axis("on")
        self.spec_ax.clear()
        self.spec_ax.plot(self.spectra[:, 0], self.spectra[:, specIndex+1])
        self.spec_ax.tick_params(axis='both', which='both', labelsize=15)
        self.spec_ax.set_xlabel('Wavenumber (cm-1)', fontsize = 15)
        self.spec_ax.set_ylabel('Counts', fontsize = 15)
        self.spec_ax.set_title('ScanPoint Number {}, Size = {} µm'.format(specIndex+1, np.round(self.particlestats[self.currentParticleIndex][2], 1)))
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        self.spec_ax.set_xbound(100, (3400 if self.spectra[-1, 0] > 3400 else self.spectra[-1, 0]))
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        wavenumber_diff = list(self.spectra[:, 0]-100)
        y_start = wavenumber_diff.index(min(wavenumber_diff))
        y_min = min(self.spectra[y_start:, specIndex+1])
        y_max = max(self.spectra[y_start:, specIndex+1])
        self.spec_ax.set_ybound(0.9*y_min, 1.1*y_max)
        
        #draw Reference
        self.ref_ax.clear()
        if self.refSelector.isEnabled() and self.refSelector.currentText() != '':
            self.ref_ax.tick_params(axis='both', which='both', labelsize=15)
            refID = self.dbWin.activeDatabase.spectraNames.index(self.refSelector.currentText())
            ref = self.dbWin.activeDatabase.spectra[refID]
            self.ref_ax.plot(ref[:, 0], ref[:, 1], color = 'r')
            self.ref_ax.set_ylabel('Ref. Intensity', fontsize = 15, color = 'r')
            self.ref_ax.tick_params('y', colors = 'r')
            self.ref_ax.set_xbound(100, (3400 if self.spectra[-1, 0] > 3400 else self.spectra[-1, 0]))
#            wavenumber_diff = list(ref[:, 0]-100)
#            y_start = wavenumber_diff.index(min(wavenumber_diff))
#            y_min = min(ref[y_start:, specIndex+1])
#            y_max = max(ref[y_start:, specIndex+1])
            
            
        
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        self.spec_ax.figure.canvas.draw()
        self.parent.centerOnRamanIndex(specIndex, centerOn=centerOn, highlightContour=highlightContour)
        self.parent.highLightRamanIndex(specIndex)
        self.lastSpectrumInFocus = specIndex
    
    def displayNewPolymerType(self, resetCurrentIndex=True):
        self.polymerIndex = self.polymerComboBox.currentIndex()
        self.particleSelector.setMaximum(len(self.indices[self.polymerIndex]))
        if resetCurrentIndex:
            self.particleSelector.setValue(1)
            self.spectrumSelector.setValue(1)
            self.spectrumSelector.setMaximum(len(self.particles2spectra[self.currentParticleIndex]))
            self.currentParticleIndex = self.indices[self.polymerIndex][self.particleSelector.value()-1]
            self.currentSpectrumIndex = self.particles2spectra[self.currentParticleIndex][self.spectrumSelector.value()-1]
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            self.updateSpecPlot(centerOn=True)
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        else:    
            self.currentParticleIndex = self.indices[self.polymerIndex][self.particleSelector.value()-1]
            self.currentSpectrumIndex = self.particles2spectra[self.currentParticleIndex][self.spectrumSelector.value()-1]
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            self.updateSpecPlot(centerOn=False)
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    def selectParticle(self, resetSpectrumCount=True):
        if self.particles2spectra is not None:
            self.currentParticleIndex = self.indices[self.polymerIndex][self.particleSelector.value()-1]
            self.spectrumSelector.setMaximum(len(self.particles2spectra[self.currentParticleIndex]))
            if resetSpectrumCount:
                self.spectrumSelector.setValue(1)
            self.currentSpectrumIndex = self.particles2spectra[self.currentParticleIndex][self.spectrumSelector.value()-1]
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            self.updateSpecPlot()
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        else:
            print('no spectrum assignment found...')
    
    def selectSpectrum(self):
        if self.particles2spectra is not None:
            self.currentSpectrumIndex = self.particles2spectra[self.currentParticleIndex][self.spectrumSelector.value()-1]
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            self.updateSpecPlot()
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    def updateHistogram(self):
        self.sizeHist_ax.clear()
        self.typeHist_ax.clear()
        
        self.typeHist_ax.axis('on')
        self.sizeHist_ax.axis('on')
  
        #draw the general histogram
        colorList = []
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        if self.selOverlayAct.isChecked():
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            abundancyList = []
            for index, checkbox in enumerate(self.polymerCheckBoxes):
                if checkbox.isChecked():
                    abundancyList.append(self.typehistogram[index][1])
                    curColor = self.getColorFromName(self.typehistogram[index][0], base255 = False)
                    colorList.append(curColor)

        else:
            abundancyList = [i[1] for i in self.typehistogram]
            for polymer in self.typehistogram:
                curColor = self.getColorFromName(polymer[0], base255 = False)
                colorList.append(curColor)                    
                
        self.typeHist_ax.barh(range(len(abundancyList)), abundancyList, color=colorList)
        itemsInPlot = (len(abundancyList) if len(abundancyList) < self.dispResultSpinBox.value() else self.dispResultSpinBox.value())
        self.typeHist_ax.set_ylim([itemsInPlot, -1])    #plot in inverse order (have index 0 (highest abundancy) at top)
        
        ###add text labels
        self.histPlotTextLabels = []
        y_label_position = 0
        for index, i in enumerate(self.typehistogram):
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            if not self.selOverlayAct.isChecked() or self.polymerCheckBoxes[index].isChecked():
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                if self.sorted_additives is None:
                    numads = ''
                else:
                    numads = len(np.unique(self.sorted_additives[index]))    
                    if numads == 0: 
                        numads = ''
                    else:
                        numads = '(' + str(numads) + ')'
                numpolymers = i[1]
                label = ('{} x ' + self.typehistogram[index][0] + ' {}').format(numpolymers, numads) 
                x_label_position = self.typeHist_ax.get_xlim()[1]*0.05
                self.histPlotTextLabels.append(self.typeHist_ax.text(x_label_position, y_label_position, label, fontsize = 15, rotation = 0, verticalalignment = 'bottom'))
                y_label_position += 1
            
        for label in self.histPlotTextLabels:
            pos = label.get_position()
            curLimits = self.typeHist_ax.get_ylim()
            if curLimits[1] < pos[1] < curLimits[0]:
                label.set_alpha(1)
            else:
                label.set_alpha(0)
                
        self.typeHist_ax.set_title('Polymer Type Distribution', fontsize = 15)
        self.typeHist_ax.tick_params(axis='y', which='both', left=False, labelleft=False)        
        self.typeHist_ax.tick_params(axis='both', which='both', labelsize=15)
        self.typeHist_ax.set_ylabel('Polymer Type', fontsize = 15)
        self.typeHist_ax.set_xlabel('Number', fontsize = 15)
        
        if len(self.typehistogram) > self.dispResultSpinBox.value():
            
            def wheelScroll(event):
                step = -0.05*event.step*self.dispResultSpinBox.value()
                ymin, ymax = self.typeHist_ax.get_ylim()
                if ymin > ymax:
                    ymin, ymax = ymax, ymin
                self.typeHist_ax.set_ylim([ymax+step, ymin+step])
                
                for label in self.histPlotTextLabels:
                    pos = label.get_position()
                    if ymin+step < pos[1] < ymax+step:
                        label.set_alpha(1)
                    else:
                        label.set_alpha(0)                
                self.typeHist_ax.figure.canvas.draw()
            
            self.typeHistogramCanvas.mpl_connect('scroll_event', wheelScroll)
        
        self.typeHist_ax.figure.canvas.draw()
        
        #general size histogram
        self.bins = np.logspace(0.1, 3, 20)
        self.sizes = [i[0] if np.isnan(i[2]) else i[2] for i in self.particlestats]      #extract long size (if ellipse fit is nan -> box fit)
        sizehist = np.histogram(self.sizes, self.bins)
        self.totalhistx = []
        for i in range(19):
            self.totalhistx.append(np.mean((sizehist[1][i], sizehist[1][i+1])))
        self.totalhisty = sizehist[0]
        
        self.sizeHist_ax.tick_params(axis='both', which='both', labelsize=15)
        self.sizeHist_ax.set_xlabel('Size (µm)', fontsize = 15)
        self.sizeHist_ax.set_ylabel('Number', fontsize = 15)
        self.sizeHist_ax.set_xlim(3, 1100)        
        self.sizeHist_ax.figure.canvas.draw()
        
        if self.showTotalSelector.isChecked():
            self.sizeHist_ax.semilogx(self.totalhistx, self.totalhisty, label = 'total')
            
        #get selected boxes
        selected = []
        for i in self.polymerCheckBoxes:
            if i.isChecked() == True:
                selected.append(i.text())
        
        for i in selected:
            sizes = [self.sizes[index] for index in range(len(self.sizes)) if self.currentPolymers[index] == i]
            sizehist = np.histogram(sizes, self.bins)
            self.sizeHist_ax.semilogx(self.totalhistx, sizehist[0], label = i, color = self.getColorFromName(i, base255 = False))    
        
        self.sizeHist_ax.legend(prop = {'size': 15})
        self.sizeHist_ax.tick_params(axis='both', which='both', labelsize=15)
        self.sizeHist_ax.set_xlabel('Size (µm)', fontsize = 15)
        self.sizeHist_ax.set_ylabel('Number', fontsize = 15)
        self.sizeHist_ax.set_xlim(3, 1100)        
        self.sizeHist_ax.figure.canvas.draw()
        
        self.lastSelectedCheckBoxNames = [checkbox.text() for checkbox in self.polymerCheckBoxes if checkbox.isChecked()]
        
     
    def darkenBackground(self):
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        self.parent.darkenPixmap = self.darkenAct.isChecked()
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        if self.darkenAct.isChecked():
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            self.parent.scene().setBackgroundBrush(QtGui.QColor(5, 5, 5))
            self.parent.item.setOpacity(0.2)
        else:
            self.parent.scene().setBackgroundBrush(QtCore.Qt.darkGray)
            self.parent.item.setOpacity(1)

    def updateColorSeed(self):
        text, ok = QtWidgets.QInputDialog.getText(self, 'Color Seed', 'Enter New Seed here', text=self.colorSeed)
        if ok:
            self.colorSeed = text
            self.parent.dataset.colorSeed = text
            self.updateHistogram()
            self.createPolymerOverlay()

    def getColorFromName(self, name, base255=True):
        random.seed(self.colorSeed + name)
        hue = random.random()
        random.seed((self.colorSeed + name)*2)
        saturation = random.random()/4 + 0.75      #i.e., between 0.75 and 1
        random.seed((self.colorSeed + name)*3)
        value = random.random()/5 + 0.8     #i.e., between 0.8 and 1
        color = colorsys.hsv_to_rgb(hue, saturation, value)
        if base255:
            color = list(color)
            for i in range(3):
                color[i] = np.round(color[i]*255)
            color = tuple(color)
        return color
    
    def createPolymerOverlay(self):  
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        if not self.noOverlayAct.isChecked() and self.indices is not None:
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            if len(self.indices) > 0:
                
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                alpha = (128 if self.transpAct.isChecked() else 255)
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                #get colors for each polymer type
                colorList = [QtGui.QColor(255, 255, 255, alpha=50)]*len(self.particleResults)
                legendItems = []
                    
                for index, indexList in enumerate(self.indices):
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                    if self.fullOverlayAct.isChecked() or (self.selOverlayAct.isChecked() and self.polymerCheckBoxes[index].isChecked()):
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                        color = self.getColorFromName(self.uniquePolymers[index], base255=True)
                        color = QtGui.QColor(color[0], color[1], color[2], alpha=alpha)
                        legendItems.append((self.uniquePolymers[index], color))
                        for i in indexList:
                            colorList[i] = color
            
            self.parent.contouritem.colorList = colorList
            self.parent.contouritem.update()
            
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            self.parent.imparent.legend.setTextColorItems(legendItems)
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            self.parent.imparent.legend.show()
            
        else:
            self.parent.contouritem.colorList = []
            self.parent.contouritem.update()
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            self.parent.imparent.legend.setTextColorItems([])
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            self.parent.imparent.legend.hide()
            
    def show_hide_labels(self):
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        hidden = self.hideLabelAct.isChecked()
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        for scanIndicator in self.parent.ramanscanitems:
            scanIndicator.hidden = hidden
            scanIndicator.update()
    
    def saveAnalysisResults(self):
        self.parent.dataset.results = {'polymers': self.spectraResults,
                                'hqis': self.hqis,
                                'additives': self.additiveResults,
                                'additive_hqis': self.addhqis}
        
        self.parent.dataset.resultParams = {'minHQI': self.hqiSpinBox.value(),
                                     'compHQI': self.compHqiSpinBox.value()}
        self.parent.dataset.save()
        print('saved dataset')
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    def closeEvent(self, event):
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        for window in [self.additivePlot, self.importWindow, self.dbWin]:
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            try: window.close()
            except: pass
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        self.parent.imparent.particelAnalysisAct.setChecked(False)
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        event.accept()
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class ExpExcelDialog(QtWidgets.QDialog):
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    def __init__(self, parent):
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        super(ExpExcelDialog, self).__init__()
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        self.setWindowTitle('Export Options')
        self.setGeometry(200,200, 300, 300)
        
        self.parent = parent
        self.particles = self.parent.particlestats
        self.polymers = self.parent.particleResults
        self.additives = self.parent.currentAdditives
        self.hqis = self.parent.hqis
        
        self.layout = QtWidgets.QHBoxLayout()
        self.setLayout(self.layout)

        excelvbox = QtWidgets.QVBoxLayout()
        excelvbox.addWidget(QtWidgets.QLabel('Select Parameters for Export'))
        excelgroup = QtWidgets.QGroupBox("Export to Excel", self)
        
        self.exportOptions = ['Polymer Type (mandatory)', 'Additives', 'Long Size (µm)', 'Short Size (µm)', 'Area (µm²)', 'HQI', 'Size Classes']
        self.checkBoxes = []
        self.sizeClasses = [5, 10, 20, 50, 100, 1e6]
        self.directory = self.parent.parent.dataset.path
        
        for index, option in enumerate(self.exportOptions):
            self.checkBoxes.append(QtWidgets.QCheckBox(self))
            self.checkBoxes[-1].setText(option)
            self.checkBoxes[-1].setChecked(True)
            
            if option == 'Polymer Type (mandatory)':
                self.checkBoxes[-1].setEnabled(False)           #is mandatory!!!
            
            if option == 'Additives':
                if self.additives is None:
                    self.checkBoxes[-1].setEnabled(False)
                    self.checkBoxes[-1].setChecked(False)
                    
            excelvbox.addWidget(self.checkBoxes[-1])
        
        self.xlsFileName = QtWidgets.QLineEdit()
        self.xlsFileName.setText('{}_Particle_List'.format(self.parent.parent.dataset.name))
        excelvbox.addWidget(QtWidgets.QLabel('Filename:'))
        excelvbox.addWidget(self.xlsFileName)
        
        self.exlbtn = QtWidgets.QPushButton('Export to Excel')
        self.exlbtn.resize(self.exlbtn.sizeHint())
        self.exlbtn.clicked.connect(self.toExcel)
        
        excelvbox.addWidget(self.exlbtn)
        excelgroup.setLayout(excelvbox)
        
        self.layout.addWidget(excelgroup)

        self.show()
    
    def toExcel(self):
        requiredcolumns = []        
        self.sizes = np.round(np.array([i[0] if np.isnan(i[2]) else i[2] for i in self.particles]), 1)
        for box in self.checkBoxes:
            if box.isChecked() == True:
                if box.text() != 'Size Classes':
                    requiredcolumns.append(box.text())
                    if box.text() == 'Long Size (µm)':
                        longSize = self.sizes
                    elif box.text() == 'Short Size (µm)':
                        shortSize = np.round(np.array([i[1] if np.isnan(i[3]) else i[3] for i in self.particles]), 1)
                    elif box.text() == 'Area (µm²)':
                        area = np.array([np.round(float(entry[4]), 1) for entry in self.particles])
                else:
                    requiredcolumns.append('0 - 5 µm')
                    requiredcolumns.append('5 - 10 µm')
                    requiredcolumns.append('10 - 20 µm')
                    requiredcolumns.append('20 - 50 µm')
                    requiredcolumns.append('50 - 100 µm')
                    requiredcolumns.append('> 100 µm')
        
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        finalData = np.zeros((self.polymers.shape[0],len(requiredcolumns)-1))
        polymertypes = [""]*self.polymers.shape[0]
        rowindex = 0
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        for polymer in np.unique(self.polymers):
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            indices = self.polymers == polymer
            numentries = int(np.sum(indices))
            print("Num:", numentries)
            sys.stdout.flush()
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            for colindex, column in enumerate(requiredcolumns):
                if column == 'Polymer Type (mandatory)':
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                    polymertypes[rowindex:rowindex+numentries] = self.polymers[indices]    
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                if column == 'Additives':
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                    finalData[rowindex:rowindex+numentries, colindex-1] = self.additives[indices]                
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                if column == 'Long Size (µm)':
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                    finalData[rowindex:rowindex+numentries, colindex-1] = longSize[indices]
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                if column == 'Short Size (µm)':
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                    finalData[rowindex:rowindex+numentries, colindex-1] = shortSize[indices]
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                if column == 'Area (µm²)':
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                    finalData[rowindex:rowindex+numentries, colindex-1] = area[indices]
                # hit quality index array does not match the data size if particles have been combined
                #if column == 'HQI':
                #    finalData[rowindex:rowindex+numentries, colindex-1] = self.hqis[indices]
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            if '> 100 µm' in requiredcolumns:
                ##append size classes
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                numPrevCols = len(requiredcolumns) - 1 - len(self.sizeClasses)      #number of previous columns
                for tableindex, dataindex in enumerate(np.arange(len(indices))[indices]):    
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                    for classindex in range(len(self.sizeClasses)):
                        upLimit = self.sizeClasses[classindex]
                        if classindex == 0: lowLimit = 0
                        else: lowLimit = self.sizeClasses[classindex-1]
                        curSize = self.sizes[dataindex]
                        
                        if  curSize > lowLimit and curSize <= upLimit:
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                            finalData[rowindex+tableindex, numPrevCols + classindex] = np.int(1)
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                        else:
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                            finalData[rowindex+tableindex, numPrevCols + classindex] = np.int(0)               
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            rowindex = rowindex + numentries
            
        #dump into excel file
        xlsname = self.directory + '//' + self.xlsFileName.text() + '.xlsx'
        print('exporting excel to:\n file name:  {} in directory: {}'.format(self.xlsFileName.text(), self.directory))
        validFileName = False
        incr = 1
        while not validFileName:
            if not os.path.exists(xlsname):
                validFileName = True
            else:
                xlsname = self.directory + self.xlsFileName.text() + ' {}.xlsx'.format(incr)
                incr += 1
        
        writer = pd.ExcelWriter(xlsname, engine = 'xlsxwriter')
        
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        df = pd.DataFrame(finalData, columns=requiredcolumns[1:])
        df.insert(0, 'Polymer Type', polymertypes)
        df.to_excel(writer, sheet_name = 'Individual Particles', index = False)
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        if  '> 100 µm' in requiredcolumns:
            #generate particle statistics report
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            header = ['0 - 5 µm', '5 - 10 µm', '10 - 20 µm', '20 - 50 µm', '50 - 100 µm', '> 100 µm']
            index = np.unique(self.polymers)
            particleclasses = []
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            for polymer in index:
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                indices = np.where(self.polymers == polymer)[0]
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                sortind = np.searchsorted([5,10,20,50,100], self.sizes[indices], 'right')
                classes = np.bincount(sortind, minlength=6)
                particleclasses.append(classes)
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            particleclasses = np.array(particleclasses)
            report = pd.DataFrame(np.array(particleclasses), columns=header,
                                  dtype=int)
            report.insert(0, 'Polymer Type', index)
            report.insert(len(report.columns), 'Sum total', particleclasses.sum(axis=1))
            report.to_excel(writer, sheet_name = 'Particle Statistics', index=False)
        writer.save()
        self.accept()
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class AdditiveViewer(QtWidgets.QWidget):
    def __init__(self, polymername, sortedAdditives):
        super(AdditiveViewer, self).__init__()
        self.setGeometry(200,200, 800, 600)
        self.setWindowTitle('Additives of {}'.format(polymername))
        
        self.layout = QtWidgets.QGridLayout()
        self.setLayout(self.layout)
        
        self.canvas = FigureCanvas(Figure(figsize=(5, 3)))
        self.ax = self.canvas.figure.subplots()
        
        self.layout.addWidget(self.canvas, 0, 0)
        
        self.ax.hist(sortedAdditives)
        self.ax.set_ylabel('Number', fontsize = 15)
        self.ax.tick_params(axis='both', which='both', labelsize=15)


if __name__ == '__main__':
    def run():
        app = QtWidgets.QApplication(sys.argv)
        meas = ParticleAnalysis(None)
        meas.showMaximized()
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        return app.exec_()
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    run()