def __init__(self, parent=None, plot=None): TableWidget.__init__(self, parent) _StatsWidgetBase.__init__(self, statsOnVisibleData=False, displayOnlyActItem=False) # Init for _displayOnlyActItem == False assert self._displayOnlyActItem is False self.setSelectionBehavior(qt.QAbstractItemView.SelectRows) self.setSelectionMode(qt.QAbstractItemView.SingleSelection) self.currentItemChanged.connect(self._currentItemChanged) self.setRowCount(0) self.setColumnCount(2) # Init headers headerItem = qt.QTableWidgetItem('Legend') headerItem.setData(qt.Qt.UserRole, self._LEGEND_HEADER_DATA) self.setHorizontalHeaderItem(0, headerItem) headerItem = qt.QTableWidgetItem('Kind') headerItem.setData(qt.Qt.UserRole, self._KIND_HEADER_DATA) self.setHorizontalHeaderItem(1, headerItem) self.setSortingEnabled(True) self.setPlot(plot)
def __init__(self, parent, plot): TableWidget.__init__(self, parent) _StatsWidgetBase.__init__(self, statsOnVisibleData=False, displayOnlyActItem=False) self.__region_edition_callback = {} """We need to keep trace of the roi signals connection because the roi emits the sigChanged during roi edition""" self._items = {} self.setRowCount(0) self.setColumnCount(3) # Init headers headerItem = qt.QTableWidgetItem(self._LEGEND_HEADER_DATA.title()) headerItem.setData(qt.Qt.UserRole, self._LEGEND_HEADER_DATA) self.setHorizontalHeaderItem(0, headerItem) headerItem = qt.QTableWidgetItem(self._KIND_HEADER_DATA.title()) headerItem.setData(qt.Qt.UserRole, self._KIND_HEADER_DATA) self.setHorizontalHeaderItem(1, headerItem) headerItem = qt.QTableWidgetItem(self._ROI_HEADER_DATA.title()) headerItem.setData(qt.Qt.UserRole, self._ROI_HEADER_DATA) self.setHorizontalHeaderItem(2, headerItem) self.setSortingEnabled(True) self.setPlot(plot) self.__plotItemToItems = {} """Key is plotItem, values is list of __RoiStatsItemWidget""" self.__roiToItems = {} """Key is roi, values is list of __RoiStatsItemWidget""" self.__roisKeyToRoi = {}
def __init__(self, *args, **kwargs): super(SampleTable, self).__init__(*args, **kwargs) self.mainLayout = qt.QVBoxLayout(self) self.setLayout(self.mainLayout) self.lbl = np.array([]) self.data = np.array([]) self.df = None self.column_labels = None self.filename = None self.addBtn = qt.QPushButton(self) self.addBtn.setFixedWidth(30) self.addBtn.setFixedHeight(30) self.addBtn.setIcon(getQIcon('shape-cross')) self.addBtn.setToolTip("Add sample below") self.addBtn.clicked.connect(self.addRecord) self.minusBtn = qt.QPushButton(self) self.minusBtn.setFixedWidth(30) self.minusBtn.setFixedHeight(30) self.minusBtn.setIcon(getQIcon('close')) self.minusBtn.setToolTip("Remove current row") self.minusBtn.clicked.connect(self.removeRecord) self.loadBtn = qt.QPushButton(self) self.loadBtn.setFixedWidth(30) self.loadBtn.setFixedHeight(30) self.loadBtn.setIcon(getQIcon('document-open')) self.loadBtn.clicked.connect(self.load) self.loadBtn.setToolTip("Load from the excel file") self.saveBtn = qt.QPushButton(self) self.saveBtn.setFixedWidth(30) self.saveBtn.setFixedHeight(30) self.saveBtn.setIcon(getQIcon('document-save')) self.saveBtn.clicked.connect(self.save) self.saveBtn.setToolTip("Save to the excel file") buttons = addWidgets( [self.addBtn, self.minusBtn, self.loadBtn, self.saveBtn], align='right') self.table = TableWidget(self) self.table.setAlternatingRowColors(True) # self.table.horizontalHeader().setSectionResizeMode(qt.QHeaderView.Stretch) self.mainLayout.addWidget(buttons) self.mainLayout.addWidget(self.table)
def __init__(self, parent=None, plot=None): TableWidget.__init__(self, parent) """Next freeID for the curve""" self.plot = None self._displayOnlyActItem = False self._statsOnVisibleData = False self._lgdAndKindToItems = {} """Associate to a tuple(legend, kind) the items legend""" self.callbackImage = None self.callbackScatter = None self.callbackCurve = None """Associate the curve legend to his first item""" self._statsHandler = None self._legendsSet = [] """list of legends actually displayed""" self._resetColumns() self.setColumnCount(len(self._columns)) self.setSelectionBehavior(qt.QAbstractItemView.SelectRows) self.setPlot(plot) self.setSortingEnabled(True)
def __init__(self, *args, **kwargs): super(TableWindow, self).__init__(*args, **kwargs) self.mainLayout = qt.QVBoxLayout(self) self.setLayout(self.mainLayout) self.lbl = np.array([]) self.data = np.array([]) self.df = None self.column_labels = None self.filename = None self.loadBtn = qt.QPushButton(self) self.loadBtn.setFixedWidth(30) self.loadBtn.setFixedHeight(30) self.loadBtn.setIcon(getQIcon('document-open')) self.loadBtn.clicked.connect(self.load) self.saveBtn = qt.QPushButton(self) self.saveBtn.setFixedWidth(30) self.saveBtn.setFixedHeight(30) self.saveBtn.setIcon(getQIcon('document-save')) self.saveBtn.clicked.connect(self.save) self.loadDefaultBtn = qt.QPushButton(self) self.loadDefaultBtn.setFixedWidth(130) self.loadDefaultBtn.setFixedHeight(30) self.loadDefaultBtn.setText('Load Default') self.loadDefaultBtn.clicked.connect(self.loadDefault) buttons = addWidgets([self.loadBtn, self.saveBtn, self.loadDefaultBtn], align='right') self.table = TableWidget(self) self.table.setAlternatingRowColors(True) self.table.horizontalHeader().setSectionResizeMode( qt.QHeaderView.Stretch) # self.table.verticalHeader().setVisible(False) self.mainLayout.addWidget(buttons) self.mainLayout.addWidget(self.table)
def __init__(self, parent, numRows, numColumns, legList, motList): TableWidget.__init__(self, parent) self.setRowCount(0) self.setColumnCount(numColumns) self.currentComboBox = 1 self.legendsList = legList self.motorsList = motList self.motorNamesList = self.getAllMotorNames() self.motorNamesList.sort() self.infoDict = dict(zip(self.legendsList, self.motorsList)) self.header = MotorInfoHeader(self) self.setHorizontalHeader(self.header) self.setHorizontalHeaderItem(0, qt.QTableWidgetItem('Legend')) self.setSortingEnabled(True) self.verticalHeader().hide() self.setSelectionBehavior(qt.QAbstractItemView.SelectRows) self.setShowGrid(False) for idx in range(len(self.legendsList)): curveLegend = self.legendsList[idx] self.insertRow(idx) self.setItem(idx, 0, curveLegend) for jdx in range(1, self.columnCount()): self.setItem(0, jdx, '') self.sortByColumn(0, qt.Qt.AscendingOrder)
def __init__(self, parent, numRows, numColumns, legList, motList): TableWidget.__init__(self, parent) self.setRowCount(0) self.setColumnCount(numColumns) self.currentComboBox = 1 self.legendsList = legList self.motorsList = motList self.motorNamesList = self.getAllMotorNames() self.motorNamesList.sort() self.infoDict = dict( zip( self.legendsList, self.motorsList ) ) self.header = MotorInfoHeader(self) self.setHorizontalHeader(self.header) self.setHorizontalHeaderItem(0, qt.QTableWidgetItem('Legend')) self.setSortingEnabled(True) self.verticalHeader().hide() self.setSelectionBehavior(qt.QAbstractItemView.SelectRows) self.setShowGrid(False) for idx in range(len(self.legendsList)): curveLegend = self.legendsList[idx] self.insertRow(idx) self.setItem(idx, 0, curveLegend ) for jdx in range(1, self.columnCount()): self.setItem(0, jdx, '') self.sortByColumn(0, qt.Qt.AscendingOrder)
def __init__(self, parent=None): TableWidget.__init__(self, parent) self.clear()
def testShow(self): table = TableWidget() table.setColumnCount(10) table.setRowCount(7) table.enableCut() table.enablePaste() table.show() table.hide() self.qapp.processEvents()
def __init__(self, parent=None, paramlist=None): TableWidget.__init__(self, parent) self.setContentsMargins(0, 0, 0, 0) labels = [ 'Parameter', 'Estimation', 'Fit Value', 'Sigma', 'Constraints', 'Min/Parame', 'Max/Factor/Delta' ] tooltips = [ "Fit parameter name", "Estimated value for fit parameter. You can edit this column.", "Actual value for parameter, after fit", "Uncertainty (same unit as the parameter)", "Constraint to be applied to the parameter for fit", "First parameter for constraint (name of another param or min value)", "Second parameter for constraint (max value, or factor/delta)" ] self.columnKeys = [ 'name', 'estimation', 'fitresult', 'sigma', 'code', 'val1', 'val2' ] """This list assigns shorter keys to refer to columns than the displayed labels.""" self.__configuring = False # column headers and associated tooltips self.setColumnCount(len(labels)) for i, label in enumerate(labels): item = self.horizontalHeaderItem(i) if item is None: item = qt.QTableWidgetItem(label, qt.QTableWidgetItem.Type) self.setHorizontalHeaderItem(i, item) item.setText(label) if tooltips is not None: item.setToolTip(tooltips[i]) # resize columns for col_key in ["name", "estimation", "sigma", "val1", "val2"]: col_idx = self.columnIndexByField(col_key) self.resizeColumnToContents(col_idx) # Initialize the table with one line per supplied parameter paramlist = paramlist if paramlist is not None else [] self.parameters = OrderedDict() """This attribute stores all the data in an ordered dictionary. New data can be added using :meth:`newParameterLine`. Existing data can be modified using :meth:`configureLine` Keys of the dictionary are: - 'name': parameter name - 'line': line index for the parameter in the table - 'estimation' - 'fitresult' - 'sigma' - 'code': constraint code (one of the elements of :attr:`code_options`) - 'val1': first parameter related to constraint, formatted as a string, as typed in the table - 'val2': second parameter related to constraint, formatted as a string, as typed in the table - 'cons1': scalar representation of 'val1' (e.g. when val1 is the name of a fit parameter, cons1 will be the line index of this parameter) - 'cons2': scalar representation of 'val2' - 'vmin': equal to 'val1' when 'code' is "QUOTED" - 'vmax': equal to 'val2' when 'code' is "QUOTED" - 'relatedto': name of related parameter when this parameter is constrained to another parameter (same as 'val1') - 'factor': same as 'val2' when 'code' is 'FACTOR' - 'delta': same as 'val2' when 'code' is 'DELTA' - 'sum': same as 'val2' when 'code' is 'SUM' - 'group': group index for the parameter - 'xmin': data range minimum - 'xmax': data range maximum """ for line, param in enumerate(paramlist): self.newParameterLine(param, line) self.code_options = [ "FREE", "POSITIVE", "QUOTED", "FIXED", "FACTOR", "DELTA", "SUM", "IGNORE", "ADD" ] """Possible values in the combo boxes in the 'Constraints' column. """ # connect signal self.cellChanged[int, int].connect(self.onCellChanged)
class TableWindow(qt.QWidget): """ Customized ArrayTableWidget from silx.gui.data.ArrayTableWidget """ def __init__(self, *args, **kwargs): super(TableWindow, self).__init__(*args, **kwargs) self.mainLayout = qt.QVBoxLayout(self) self.setLayout(self.mainLayout) self.lbl = np.array([]) self.data = np.array([]) self.df = None self.column_labels = None self.filename = None self.loadBtn = qt.QPushButton(self) self.loadBtn.setFixedWidth(30) self.loadBtn.setFixedHeight(30) self.loadBtn.setIcon(getQIcon('document-open')) self.loadBtn.clicked.connect(self.load) self.saveBtn = qt.QPushButton(self) self.saveBtn.setFixedWidth(30) self.saveBtn.setFixedHeight(30) self.saveBtn.setIcon(getQIcon('document-save')) self.saveBtn.clicked.connect(self.save) self.loadDefaultBtn = qt.QPushButton(self) self.loadDefaultBtn.setFixedWidth(130) self.loadDefaultBtn.setFixedHeight(30) self.loadDefaultBtn.setText('Load Default') self.loadDefaultBtn.clicked.connect(self.loadDefault) buttons = addWidgets([self.loadBtn, self.saveBtn, self.loadDefaultBtn], align='right') self.table = TableWidget(self) self.table.setAlternatingRowColors(True) self.table.horizontalHeader().setSectionResizeMode( qt.QHeaderView.Stretch) # self.table.verticalHeader().setVisible(False) self.mainLayout.addWidget(buttons) self.mainLayout.addWidget(self.table) def loadDefault(self): filename = 'gap_and_taper_orig.xlsx' if os.path.exists(filename): try: self.df = loadExcel(filename) self.column_labels = list(self.df.columns) self.lbl, self.data = toArray(self.df) if len(self.lbl): self.setData() except: print("not available") def load(self, filename=None): if filename: self.filename = filename # pandas dataFrame if os.path.exists(self.filename): try: self.df = loadExcel(self.filename) self.column_labels = list(self.df.columns) self.lbl, self.data = toArray(self.df) if len(self.lbl): self.setData() except: print("not available") def save(self): self.getData() saveExcel(self.filename, self.df) self.load() def highlight(self, item): font = qt.QFont("Verdana") font.setBold(True) item.setFont(font) brush = qt.QBrush(qt.Qt.red) item.setForeground(brush) def setData(self): try: self.table.itemChanged.disconnect() except: pass # Delete data self.table.setRowCount(0) self.table.setColumnCount(len(self.column_labels)) self.table.setHorizontalHeaderLabels(self.column_labels) for row, label in enumerate(self.lbl): self.table.insertRow(row) item = qt.QTableWidgetItem(label) item.setTextAlignment(qt.Qt.AlignCenter | qt.Qt.AlignVCenter) self.table.setItem(row, 0, item) for n, data in enumerate(self.data[row]): item = qt.QTableWidgetItem(str(data)) item.setTextAlignment(qt.Qt.AlignCenter | qt.Qt.AlignVCenter) self.table.setItem(row, n + 1, item) self.table.itemChanged.connect(self.highlight) def getData(self): rows = self.table.rowCount() cols = self.table.columnCount() self.lbl = [] self.data = [] for row in range(rows): temp = [] for col in range(cols): if col == 0: self.lbl.append(self.table.item(row, col).text()) else: temp.append(float(self.table.item(row, col).text())) self.data.append(temp) # To numpy array self.data = np.array(self.data) # To DataFrame df = pd.DataFrame() for n, label in enumerate(self.column_labels): if n == 0: df[label] = self.lbl else: df[label] = self.data[:, n - 1] self.df = df return self.lbl, self.data
def __init__(self, parent=None, paramlist=None): TableWidget.__init__(self, parent) self.setContentsMargins(0, 0, 0, 0) labels = ['Parameter', 'Estimation', 'Fit Value', 'Sigma', 'Constraints', 'Min/Parame', 'Max/Factor/Delta'] tooltips = ["Fit parameter name", "Estimated value for fit parameter. You can edit this column.", "Actual value for parameter, after fit", "Uncertainty (same unit as the parameter)", "Constraint to be applied to the parameter for fit", "First parameter for constraint (name of another param or min value)", "Second parameter for constraint (max value, or factor/delta)"] self.columnKeys = ['name', 'estimation', 'fitresult', 'sigma', 'code', 'val1', 'val2'] """This list assigns shorter keys to refer to columns than the displayed labels.""" self.__configuring = False # column headers and associated tooltips self.setColumnCount(len(labels)) for i, label in enumerate(labels): item = self.horizontalHeaderItem(i) if item is None: item = qt.QTableWidgetItem(label, qt.QTableWidgetItem.Type) self.setHorizontalHeaderItem(i, item) item.setText(label) if tooltips is not None: item.setToolTip(tooltips[i]) # resize columns for col_key in ["name", "estimation", "sigma", "val1", "val2"]: col_idx = self.columnIndexByField(col_key) self.resizeColumnToContents(col_idx) # Initialize the table with one line per supplied parameter paramlist = paramlist if paramlist is not None else [] self.parameters = OrderedDict() """This attribute stores all the data in an ordered dictionary. New data can be added using :meth:`newParameterLine`. Existing data can be modified using :meth:`configureLine` Keys of the dictionary are: - 'name': parameter name - 'line': line index for the parameter in the table - 'estimation' - 'fitresult' - 'sigma' - 'code': constraint code (one of the elements of :attr:`code_options`) - 'val1': first parameter related to constraint, formatted as a string, as typed in the table - 'val2': second parameter related to constraint, formatted as a string, as typed in the table - 'cons1': scalar representation of 'val1' (e.g. when val1 is the name of a fit parameter, cons1 will be the line index of this parameter) - 'cons2': scalar representation of 'val2' - 'vmin': equal to 'val1' when 'code' is "QUOTED" - 'vmax': equal to 'val2' when 'code' is "QUOTED" - 'relatedto': name of related parameter when this parameter is constrained to another parameter (same as 'val1') - 'factor': same as 'val2' when 'code' is 'FACTOR' - 'delta': same as 'val2' when 'code' is 'DELTA' - 'sum': same as 'val2' when 'code' is 'SUM' - 'group': group index for the parameter - 'xmin': data range minimum - 'xmax': data range maximum """ for line, param in enumerate(paramlist): self.newParameterLine(param, line) self.code_options = ["FREE", "POSITIVE", "QUOTED", "FIXED", "FACTOR", "DELTA", "SUM", "IGNORE", "ADD"] """Possible values in the combo boxes in the 'Constraints' column. """ # connect signal self.cellChanged[int, int].connect(self.onCellChanged)
class SampleTable(qt.QWidget): """ Customized ArrayTableWidget from silx.gui.data.ArrayTableWidget """ def __init__(self, *args, **kwargs): super(SampleTable, self).__init__(*args, **kwargs) self.mainLayout = qt.QVBoxLayout(self) self.setLayout(self.mainLayout) self.lbl = np.array([]) self.data = np.array([]) self.df = None self.column_labels = None self.filename = None self.addBtn = qt.QPushButton(self) self.addBtn.setFixedWidth(30) self.addBtn.setFixedHeight(30) self.addBtn.setIcon(getQIcon('shape-cross')) self.addBtn.setToolTip("Add sample below") self.addBtn.clicked.connect(self.addRecord) self.minusBtn = qt.QPushButton(self) self.minusBtn.setFixedWidth(30) self.minusBtn.setFixedHeight(30) self.minusBtn.setIcon(getQIcon('close')) self.minusBtn.setToolTip("Remove current row") self.minusBtn.clicked.connect(self.removeRecord) self.loadBtn = qt.QPushButton(self) self.loadBtn.setFixedWidth(30) self.loadBtn.setFixedHeight(30) self.loadBtn.setIcon(getQIcon('document-open')) self.loadBtn.clicked.connect(self.load) self.loadBtn.setToolTip("Load from the excel file") self.saveBtn = qt.QPushButton(self) self.saveBtn.setFixedWidth(30) self.saveBtn.setFixedHeight(30) self.saveBtn.setIcon(getQIcon('document-save')) self.saveBtn.clicked.connect(self.save) self.saveBtn.setToolTip("Save to the excel file") buttons = addWidgets( [self.addBtn, self.minusBtn, self.loadBtn, self.saveBtn], align='right') self.table = TableWidget(self) self.table.setAlternatingRowColors(True) # self.table.horizontalHeader().setSectionResizeMode(qt.QHeaderView.Stretch) self.mainLayout.addWidget(buttons) self.mainLayout.addWidget(self.table) def addRecord(self): currentRow = self.table.currentRow() self.table.insertRow(currentRow + 1) item = qt.QTableWidgetItem("SampleName") item.setTextAlignment(qt.Qt.AlignCenter | qt.Qt.AlignVCenter) self.table.setItem(currentRow + 1, 0, item) for n, data in enumerate([1, 1]): item = qt.QTableWidgetItem(str(data)) item.setTextAlignment(qt.Qt.AlignCenter | qt.Qt.AlignVCenter) self.table.setItem(currentRow + 1, n + 1, item) self.table.itemChanged.connect(self.check_validity) def removeRecord(self): currentRow = self.table.currentRow() self.table.removeRow(currentRow) self.table.itemChanged.connect(self.check_validity) def load(self, filename=None): if filename: self.filename = filename # pandas dataFrame if os.path.exists(self.filename): try: self.df = loadExcel(self.filename) self.column_labels = list(self.df.columns) self.lbl, self.data = toArray(self.df) if len(self.lbl): self.setData() except: print("not available") def save(self): self.getData() saveExcel(self.filename, self.df) self.load() def check_validity(self, item): text = item.text() if item.column() == 0: match = re.findall('[a-zA-Z0-9_]+', text) elif item.column() == 1: match = re.findall('[0-9]+', text) if len(match): if int(''.join(match)) > 390: match = ['390'] else: match = ['0'] else: match = re.findall('[0-9]+', text) if not len(match): match = ['1'] item.setText(''.join(match)) def setData(self): try: self.table.itemChanged.disconnect() except: pass # Delete data self.table.setRowCount(0) self.table.setColumnCount(len(self.column_labels)) self.table.setHorizontalHeaderLabels(self.column_labels) for row, label in enumerate(self.lbl): self.table.insertRow(row) item = qt.QTableWidgetItem(label) item.setTextAlignment(qt.Qt.AlignCenter | qt.Qt.AlignVCenter) self.table.setItem(row, 0, item) for n, data in enumerate(self.data[row]): item = qt.QTableWidgetItem(str(data)) item.setTextAlignment(qt.Qt.AlignCenter | qt.Qt.AlignVCenter) self.table.setItem(row, n + 1, item) self.table.itemChanged.connect(self.check_validity) def getData(self): rows = self.table.rowCount() cols = self.table.columnCount() self.lbl = [] self.data = [] for row in range(rows): temp = [] for col in range(cols): if col == 0: self.lbl.append(self.table.item(row, col).text()) else: temp.append(float(self.table.item(row, col).text())) self.data.append(temp) # To numpy array self.data = np.array(self.data) # To DataFrame df = pd.DataFrame() for n, label in enumerate(self.column_labels): if n == 0: df[label] = self.lbl else: df[label] = self.data[:, n - 1] self.df = df return self.lbl, self.data