# ##########################################################
# FlatCAM: 2D Post-processing for Manufacturing #
# http://flatcam.org #
# Author: Juan Pablo Caram (c) #
# Date: 2/5/2014 #
# MIT Licence #
# ##########################################################
# ##########################################################
# File Modified (major mod): Marius Adrian Stanciu #
# Date: 3/10/2019 #
# ##########################################################
from PyQt5 import QtGui, QtCore, QtWidgets
from PyQt5.QtCore import Qt, pyqtSlot, pyqtSignal
from PyQt5.QtWidgets import QTextEdit, QCompleter, QAction
from PyQt5.QtGui import QKeySequence, QTextCursor
from copy import copy
import re
import logging
import html
import sys
import gettext
import appTranslation as fcTranslate
import builtins
log = logging.getLogger('base')
fcTranslate.apply_language('strings')
if '_' not in builtins.__dict__:
_ = gettext.gettext
EDIT_SIZE_HINT = 70
class RadioSet(QtWidgets.QWidget):
activated_custom = QtCore.pyqtSignal(str)
def __init__(self, choices, orientation='horizontal', parent=None, stretch=None):
"""
The choices are specified as a list of dictionaries containing:
* 'label': Shown in the UI
* 'value': The value returned is selected
:param choices: List of choices. See description.
:param orientation: 'horizontal' (default) of 'vertical'.
:param parent: Qt parent widget.
:type choices: list
"""
super(RadioSet, self).__init__(parent)
self.choices = copy(choices)
if orientation == 'horizontal':
layout = QtWidgets.QHBoxLayout()
else:
layout = QtWidgets.QVBoxLayout()
group = QtWidgets.QButtonGroup(self)
for choice in self.choices:
choice['radio'] = QtWidgets.QRadioButton(choice['label'])
group.addButton(choice['radio'])
layout.addWidget(choice['radio'], stretch=0)
choice['radio'].toggled.connect(self.on_toggle)
layout.setContentsMargins(0, 0, 0, 0)
if stretch is False:
pass
else:
layout.addStretch()
self.setLayout(layout)
self.group_toggle_fn = lambda: None
def on_toggle(self):
# log.debug("Radio toggled")
radio = self.sender()
if radio.isChecked():
self.group_toggle_fn()
ret_val = str(self.get_value())
self.activated_custom.emit(ret_val)
return
def get_value(self):
for choice in self.choices:
if choice['radio'].isChecked():
return choice['value']
log.error("No button was toggled in RadioSet.")
return None
def set_value(self, val):
for choice in self.choices:
if choice['value'] == val:
choice['radio'].setChecked(True)
return
log.error("Value given is not part of this RadioSet: %s" % str(val))
def setOptionsDisabled(self, options: list, val: bool) -> None:
for option in self.choices:
if option['label'] in options:
option['radio'].setDisabled(val)
# class RadioGroupChoice(QtWidgets.QWidget):
# def __init__(self, label_1, label_2, to_check, hide_list, show_list, parent=None):
# """
# The choices are specified as a list of dictionaries containing:
#
# * 'label': Shown in the UI
# * 'value': The value returned is selected
#
# :param choices: List of choices. See description.
# :param orientation: 'horizontal' (default) of 'vertical'.
# :param parent: Qt parent widget.
# :type choices: list
# """
# super().__init__(parent)
#
# group = QtGui.QButtonGroup(self)
#
# self.lbl1 = label_1
# self.lbl2 = label_2
# self.hide_list = hide_list
# self.show_list = show_list
#
# self.btn1 = QtGui.QRadioButton(str(label_1))
# self.btn2 = QtGui.QRadioButton(str(label_2))
# group.addButton(self.btn1)
# group.addButton(self.btn2)
#
# if to_check == 1:
# self.btn1.setChecked(True)
# else:
# self.btn2.setChecked(True)
#
# self.btn1.toggled.connect(lambda: self.btn_state(self.btn1))
# self.btn2.toggled.connect(lambda: self.btn_state(self.btn2))
#
# def btn_state(self, btn):
# if btn.text() == self.lbl1:
# if btn.isChecked() is True:
# self.show_widgets(self.show_list)
# self.hide_widgets(self.hide_list)
# else:
# self.show_widgets(self.hide_list)
# self.hide_widgets(self.show_list)
#
# def hide_widgets(self, lst):
# for wgt in lst:
# wgt.hide()
#
# def show_widgets(self, lst):
# for wgt in lst:
# wgt.show()
class FCTree(QtWidgets.QTreeWidget):
resize_sig = QtCore.pyqtSignal()
def __init__(self, parent=None, columns=2, header_hidden=True, extended_sel=False, protected_column=None):
super(FCTree, self).__init__(parent)
self.setColumnCount(columns)
self.setHeaderHidden(header_hidden)
self.header().setSectionResizeMode(QtWidgets.QHeaderView.ResizeToContents)
self.setSizePolicy(QtWidgets.QSizePolicy.Ignored, QtWidgets.QSizePolicy.Expanding)
palette = QtGui.QPalette()
palette.setColor(QtGui.QPalette.Inactive, QtGui.QPalette.Highlight,
palette.color(QtGui.QPalette.Active, QtGui.QPalette.Highlight))
# make inactive rows text some color as active; may be useful in the future
# palette.setColor(QtGui.QPalette.Inactive, QtGui.QPalette.HighlightedText,
# palette.color(QtGui.QPalette.Active, QtGui.QPalette.HighlightedText))
self.setPalette(palette)
if extended_sel:
self.setSelectionMode(QtWidgets.QAbstractItemView.ExtendedSelection)
self.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
self.protected_column = protected_column
self.itemDoubleClicked.connect(self.on_double_click)
self.header().sectionDoubleClicked.connect(self.on_header_double_click)
self.resize_sig.connect(self.on_resize)
def on_double_click(self, item, column):
# from here: https://stackoverflow.com/questions/2801959/making-only-one-column-of-a-qtreewidgetitem-editable
tmp_flags = item.flags()
if self.is_editable(column):
item.setFlags(tmp_flags | QtCore.Qt.ItemIsEditable)
elif tmp_flags & QtCore.Qt.ItemIsEditable:
item.setFlags(tmp_flags ^ QtCore.Qt.ItemIsEditable)
def on_header_double_click(self, column):
header = self.header()
header.setSectionResizeMode(column, QtWidgets.QHeaderView.ResizeToContents)
width = header.sectionSize(column)
header.setSectionResizeMode(column, QtWidgets.QHeaderView.Interactive)
header.resizeSection(column, width)
def is_editable(self, tested_col):
try:
ret_val = False if tested_col in self.protected_column else True
except TypeError:
ret_val = False
return ret_val
def addParent(self, parent, title, expanded=False, color=None, font=None):
item = QtWidgets.QTreeWidgetItem(parent, [title])
item.setChildIndicatorPolicy(QtWidgets.QTreeWidgetItem.ShowIndicator)
item.setExpanded(expanded)
if color is not None:
# item.setTextColor(0, color) # PyQt4
item.setForeground(0, QtGui.QBrush(color))
if font is not None:
item.setFont(0, font)
return item
def addParentEditable(self, parent, title, color=None, font=None, font_items=None, editable=False):
item = QtWidgets.QTreeWidgetItem(parent)
item.setChildIndicatorPolicy(QtWidgets.QTreeWidgetItem.DontShowIndicator)
if editable:
item.setFlags(item.flags() | QtCore.Qt.ItemIsEditable)
item.setFlags(item.flags() | QtCore.Qt.ItemIsSelectable)
for t in range(len(title)):
item.setText(t, title[t])
if color is not None:
# item.setTextColor(0, color) # PyQt4
item.setForeground(0, QtGui.QBrush(color))
if font and font_items:
try:
for fi in font_items:
item.setFont(fi, font)
except TypeError:
item.setFont(font_items, font)
elif font:
item.setFont(0, font)
return item
def addChild(self, parent, title, column1=None, font=None, font_items=None, editable=False):
item = QtWidgets.QTreeWidgetItem(parent)
if editable:
item.setFlags(item.flags() | QtCore.Qt.ItemIsEditable)
item.setText(0, str(title[0]))
if column1 is not None:
item.setText(1, str(title[1]))
if font and font_items:
try:
for fi in font_items:
item.setFont(fi, font)
except TypeError:
item.setFont(font_items, font)
def resizeEvent(self, event):
""" Resize all sections to content and user interactive """
super(FCTree, self).resizeEvent(event)
self.on_resize()
def on_resize(self):
header = self.header()
for column in range(header.count()):
header.setSectionResizeMode(column, QtWidgets.QHeaderView.ResizeToContents)
width = header.sectionSize(column)
header.setSectionResizeMode(column, QtWidgets.QHeaderView.Interactive)
header.resizeSection(column, width)
class FCLineEdit(QtWidgets.QLineEdit):
def __init__(self, *args, **kwargs):
super(FCLineEdit, self).__init__(*args, **kwargs)
self.menu = None
def contextMenuEvent(self, event):
self.menu = QtWidgets.QMenu()
# UNDO
undo_action = QAction('%s\t%s' % (_("Undo"), _('Ctrl+Z')), self)
self.menu.addAction(undo_action)
undo_action.triggered.connect(self.undo)
if self.isUndoAvailable() is False:
undo_action.setDisabled(True)
# REDO
redo_action = QAction('%s\t%s' % (_("Redo"), _('Ctrl+Y')), self)
self.menu.addAction(redo_action)
redo_action.triggered.connect(self.redo)
if self.isRedoAvailable() is False:
redo_action.setDisabled(True)
self.menu.addSeparator()
# CUT
cut_action = QAction('%s\t%s' % (_("Cut"), _('Ctrl+X')), self)
self.menu.addAction(cut_action)
cut_action.triggered.connect(self.cut_text)
if not self.hasSelectedText():
cut_action.setDisabled(True)
# COPY
copy_action = QAction('%s\t%s' % (_("Copy"), _('Ctrl+C')), self)
self.menu.addAction(copy_action)
copy_action.triggered.connect(self.copy_text)
if not self.hasSelectedText():
copy_action.setDisabled(True)
# PASTE
paste_action = QAction('%s\t%s' % (_("Paste"), _('Ctrl+V')), self)
self.menu.addAction(paste_action)
paste_action.triggered.connect(self.paste_text)
# DELETE
delete_action = QAction('%s\t%s' % (_("Delete"), _('Del')), self)
self.menu.addAction(delete_action)
delete_action.triggered.connect(self.del_)
self.menu.addSeparator()
# SELECT ALL
sel_all_action = QAction('%s\t%s' % (_("Select All"), _('Ctrl+A')), self)
self.menu.addAction(sel_all_action)
sel_all_action.triggered.connect(self.selectAll)
self.menu.exec_(event.globalPos())
def cut_text(self):
clipboard = QtWidgets.QApplication.clipboard()
txt = self.selectedText()
clipboard.clear()
clipboard.setText(txt)
self.del_()
def copy_text(self):
clipboard = QtWidgets.QApplication.clipboard()
txt = self.selectedText()
clipboard.clear()
clipboard.setText(txt)
def paste_text(self):
clipboard = QtWidgets.QApplication.clipboard()
txt = clipboard.text()
self.insert(txt)
class LengthEntry(FCLineEdit):
def __init__(self, output_units='IN', decimals=None, parent=None):
super(LengthEntry, self).__init__(parent)
self.output_units = output_units
self.format_re = re.compile(r"^([^\s]+)(?:\s([a-zA-Z]+))?$")
# Unit conversion table OUTPUT-INPUT
self.scales = {
'IN': {'IN': 1.0,
'MM': 1 / 25.4},
'MM': {'IN': 25.4,
'MM': 1.0}
}
self.readyToEdit = True
self.editingFinished.connect(self.on_edit_finished)
self.decimals = decimals if decimals is not None else 4
def on_edit_finished(self):
self.clearFocus()
def mousePressEvent(self, e, Parent=None):
super(LengthEntry, self).mousePressEvent(e) # required to deselect on 2e click
if self.readyToEdit:
self.selectAll()
self.readyToEdit = False
def focusOutEvent(self, e):
# don't focus out if the user requests an popup menu
if e.reason() != QtCore.Qt.PopupFocusReason:
super(LengthEntry, self).focusOutEvent(e) # required to remove cursor on focusOut
self.deselect()
self.readyToEdit = True
def returnPressed(self, *args, **kwargs):
val = self.get_value()
if val is not None:
self.set_text(str(val))
else:
log.warning("Could not interpret entry: %s" % self.get_text())
def get_value(self):
raw = str(self.text()).strip(' ')
# match = self.format_re.search(raw)
try:
units = raw[-2:]
units = self.scales[self.output_units][units.upper()]
value = raw[:-2]
return float(eval(value)) * units
except IndexError:
value = raw
return float(eval(value))
except KeyError:
value = raw
return float(eval(value))
except Exception:
log.warning("Could not parse value in entry: %s" % str(raw))
return None
def set_value(self, val, decimals=None):
dec_digits = decimals if decimals is not None else self.decimals
self.setText(str('%.*f' % (dec_digits, val)))
def sizeHint(self):
default_hint_size = super(LengthEntry, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class FloatEntry(FCLineEdit):
def __init__(self, decimals=None, parent=None):
super(FloatEntry, self).__init__(parent)
self.readyToEdit = True
self.editingFinished.connect(self.on_edit_finished)
self.decimals = decimals if decimals is not None else 4
def on_edit_finished(self):
self.clearFocus()
def mousePressEvent(self, e, Parent=None):
super(FloatEntry, self).mousePressEvent(e) # required to deselect on 2e click
if self.readyToEdit is True:
self.selectAll()
self.readyToEdit = False
def focusOutEvent(self, e):
# don't focus out if the user requests an popup menu
if e.reason() != QtCore.Qt.PopupFocusReason:
super(FloatEntry, self).focusOutEvent(e) # required to remove cursor on focusOut
self.deselect()
self.readyToEdit = True
def returnPressed(self, *args, **kwargs):
val = self.get_value()
if val is not None:
self.set_text(str(val))
else:
log.warning("Could not interpret entry: %s" % self.text())
def get_value(self):
raw = str(self.text()).strip(' ')
try:
evaled = eval(raw)
return float(evaled)
except Exception as e:
if raw != '':
log.error("Could not evaluate val: %s, error: %s" % (str(raw), str(e)))
return None
def set_value(self, val, decimals=None):
dig_digits = decimals if decimals is not None else self.decimals
if val is not None:
self.setText("%.*f" % (dig_digits, float(val)))
else:
self.setText("")
def sizeHint(self):
default_hint_size = super(FloatEntry, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class FloatEntry2(FCLineEdit):
def __init__(self, decimals=None, parent=None):
super(FloatEntry2, self).__init__(parent)
self.readyToEdit = True
self.editingFinished.connect(self.on_edit_finished)
self.decimals = decimals if decimals is not None else 4
def on_edit_finished(self):
self.clearFocus()
def mousePressEvent(self, e, Parent=None):
super(FloatEntry2, self).mousePressEvent(e) # required to deselect on 2e click
if self.readyToEdit:
self.selectAll()
self.readyToEdit = False
def focusOutEvent(self, e):
# don't focus out if the user requests an popup menu
if e.reason() != QtCore.Qt.PopupFocusReason:
super(FloatEntry2, self).focusOutEvent(e) # required to remove cursor on focusOut
self.deselect()
self.readyToEdit = True
def get_value(self):
raw = str(self.text()).strip(' ')
try:
evaled = eval(raw)
return float(evaled)
except Exception as e:
if raw != '':
log.error("Could not evaluate val: %s, error: %s" % (str(raw), str(e)))
return None
def set_value(self, val, decimals=None):
dig_digits = decimals if decimals is not None else self.decimals
self.setText("%.*f" % (dig_digits, val))
def sizeHint(self):
default_hint_size = super(FloatEntry2, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class IntEntry(FCLineEdit):
def __init__(self, parent=None, allow_empty=False, empty_val=None):
super(IntEntry, self).__init__(parent)
self.allow_empty = allow_empty
self.empty_val = empty_val
self.readyToEdit = True
self.editingFinished.connect(self.on_edit_finished)
def on_edit_finished(self):
self.clearFocus()
def mousePressEvent(self, e, Parent=None):
super(IntEntry, self).mousePressEvent(e) # required to deselect on 2e click
if self.readyToEdit:
self.selectAll()
self.readyToEdit = False
def focusOutEvent(self, e):
# don't focus out if the user requests an popup menu
if e.reason() != QtCore.Qt.PopupFocusReason:
super(IntEntry, self).focusOutEvent(e) # required to remove cursor on focusOut
self.deselect()
self.readyToEdit = True
def get_value(self):
if self.allow_empty:
if str(self.text()) == "":
return self.empty_val
# make the text() first a float and then int because if text is a float type,
# the int() can't convert directly a "text float" into a int type.
ret_val = float(self.text())
ret_val = int(ret_val)
return ret_val
def set_value(self, val):
if val == self.empty_val and self.allow_empty:
self.setText("")
return
self.setText(str(val))
def sizeHint(self):
default_hint_size = super(IntEntry, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class FCEntry(FCLineEdit):
def __init__(self, decimals=None, alignment=None, border_color=None, parent=None):
super(FCEntry, self).__init__(parent)
self.readyToEdit = True
self.editingFinished.connect(self.on_edit_finished)
self.decimals = decimals if decimals is not None else 4
if border_color:
self.setStyleSheet("QLineEdit {border: 1px solid %s;}" % border_color)
if alignment:
if alignment == 'center':
align_val = QtCore.Qt.AlignHCenter
elif alignment == 'right':
align_val = QtCore.Qt.AlignRight
else:
align_val = QtCore.Qt.AlignLeft
self.setAlignment(align_val)
def on_edit_finished(self):
self.clearFocus()
def mousePressEvent(self, e, parent=None):
super(FCEntry, self).mousePressEvent(e) # required to deselect on 2e click
if self.readyToEdit:
self.selectAll()
self.readyToEdit = False
def focusOutEvent(self, e):
if e.reason() != QtCore.Qt.PopupFocusReason:
super(FCEntry, self).focusOutEvent(e) # required to remove cursor on focusOut
self.deselect()
self.readyToEdit = True
def get_value(self):
return str(self.text())
def set_value(self, val, decimals=None):
decimal_digits = decimals if decimals is not None else self.decimals
if type(val) is float:
self.setText('%.*f' % (decimal_digits, val))
elif val is None:
self.setText('')
else:
self.setText(str(val))
def sizeHint(self):
default_hint_size = super(FCEntry, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class FCEntry2(FCEntry):
def __init__(self, parent=None):
super(FCEntry2, self).__init__(parent)
def set_value(self, val, decimals=4):
try:
fval = float(val)
except ValueError:
return
self.setText('%.*f' % (decimals, fval))
class FCEntry3(FCEntry):
def __init__(self, parent=None):
super(FCEntry3, self).__init__(parent)
def set_value(self, val, decimals=4):
try:
fval = float(val)
except ValueError:
return
self.setText('%.*f' % (decimals, fval))
def get_value(self):
value = str(self.text()).strip(' ')
try:
return float(eval(value))
except Exception as e:
log.warning("Could not parse value in entry: %s" % str(e))
return None
class EvalEntry(FCLineEdit):
def __init__(self, border_color=None, parent=None):
super(EvalEntry, self).__init__(parent)
self.readyToEdit = True
if border_color:
self.setStyleSheet("QLineEdit {border: 1px solid %s;}" % border_color)
self.editingFinished.connect(self.on_edit_finished)
def on_edit_finished(self):
self.clearFocus()
def mousePressEvent(self, e, parent=None):
super(EvalEntry, self).mousePressEvent(e) # required to deselect on 2e click
if self.readyToEdit:
self.selectAll()
self.readyToEdit = False
def focusOutEvent(self, e):
if e.reason() != QtCore.Qt.PopupFocusReason:
super(EvalEntry, self).focusOutEvent(e) # required to remove cursor on focusOut
self.deselect()
self.readyToEdit = True
def returnPressed(self, *args, **kwargs):
val = self.get_value()
if val is not None:
self.setText(str(val))
else:
log.warning("Could not interpret entry: %s" % self.get_text())
def get_value(self):
raw = str(self.text()).strip(' ')
try:
evaled = eval(raw)
except Exception as e:
if raw != '':
log.error("Could not evaluate val: %s, error: %s" % (str(raw), str(e)))
return None
return evaled
def set_value(self, val):
self.setText(str(val))
def sizeHint(self):
default_hint_size = super(EvalEntry, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class EvalEntry2(FCLineEdit):
def __init__(self, parent=None):
super(EvalEntry2, self).__init__(parent)
self.readyToEdit = True
self.editingFinished.connect(self.on_edit_finished)
def on_edit_finished(self):
self.clearFocus()
def mousePressEvent(self, e, parent=None):
super(EvalEntry2, self).mousePressEvent(e) # required to deselect on 2e click
if self.readyToEdit:
self.selectAll()
self.readyToEdit = False
def focusOutEvent(self, e):
if e.reason() != QtCore.Qt.PopupFocusReason:
super(EvalEntry2, self).focusOutEvent(e) # required to remove cursor on focusOut
self.deselect()
self.readyToEdit = True
def get_value(self):
raw = str(self.text()).strip(' ')
try:
evaled = eval(raw)
except Exception as e:
if raw != '':
log.error("Could not evaluate val: %s, error: %s" % (str(raw), str(e)))
return None
return evaled
def set_value(self, val):
self.setText(str(val))
def sizeHint(self):
default_hint_size = super(EvalEntry2, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class NumericalEvalEntry(FCEntry):
"""
Will evaluate the input and return a value. Accepts only float numbers and formulas using the operators: /,*,+,-,%
"""
def __init__(self, border_color=None):
super().__init__(border_color=border_color)
regex = QtCore.QRegExp("[0-9\/\*\+\-\%\.\,\s]*")
validator = QtGui.QRegExpValidator(regex, self)
self.setValidator(validator)
def get_value(self):
raw = str(self.text()).strip(' ')
raw = raw.replace(',', '.')
try:
evaled = eval(raw)
except Exception as e:
if raw != '':
log.error("Could not evaluate val: %s, error: %s" % (str(raw), str(e)))
return None
return evaled
class NumericalEvalTupleEntry(EvalEntry):
"""
Will return a text value. Accepts only float numbers and formulas using the operators: /,*,+,-,%
"""
def __init__(self, border_color=None):
super().__init__(border_color=border_color)
regex = QtCore.QRegExp("[0-9\/\*\+\-\%\.\s\,\[\]\(\)]*")
validator = QtGui.QRegExpValidator(regex, self)
self.setValidator(validator)
def get_value(self):
raw = str(self.text()).strip(' ')
try:
evaled = eval(raw)
except Exception as e:
if raw != '':
log.error("Could not evaluate val: %s, error: %s" % (str(raw), str(e)))
return None
return evaled
class FCColorEntry(QtWidgets.QFrame):
def __init__(self, **kwargs):
super().__init__(**kwargs)
self.entry = FCEntry()
regex = QtCore.QRegExp("[#A-Fa-f0-9]*")
validator = QtGui.QRegExpValidator(regex, self.entry)
self.entry.setValidator(validator)
self.button = QtWidgets.QPushButton()
self.button.setFixedSize(15, 15)
self.button.setStyleSheet("border-color: dimgray;")
self.layout = QtWidgets.QHBoxLayout()
self.layout.setAlignment(QtCore.Qt.AlignLeft | QtCore.Qt.AlignVCenter)
self.layout.setContentsMargins(0, 0, 0, 0)
self.layout.addWidget(self.entry)
self.layout.addWidget(self.button)
self.setLayout(self.layout)
self.entry.editingFinished.connect(self._sync_button_color)
self.button.clicked.connect(self._on_button_clicked)
self.editingFinished = self.entry.editingFinished
def get_value(self) -> str:
return self.entry.get_value()
def set_value(self, value: str):
self.entry.set_value(value)
self._sync_button_color()
def _sync_button_color(self):
value = self.get_value()
self.button.setStyleSheet("background-color:%s;" % self._extract_color(value))
def _on_button_clicked(self):
value = self.entry.get_value()
current_color = QtGui.QColor(self._extract_color(value))
color_dialog = QtWidgets.QColorDialog()
selected_color = color_dialog.getColor(initial=current_color, options=QtWidgets.QColorDialog.ShowAlphaChannel)
if selected_color.isValid() is False:
return
new_value = str(selected_color.name()) + self._extract_alpha(value)
self.set_value(new_value)
def _extract_color(self, value: str) -> str:
return value[:7]
def _extract_alpha(self, value: str) -> str:
return value[7:9]
class FCSliderWithSpinner(QtWidgets.QFrame):
def __init__(self, min=0, max=100, step=1, **kwargs):
super().__init__(**kwargs)
self.slider = QtWidgets.QSlider(QtCore.Qt.Horizontal)
self.slider.setMinimum(min)
self.slider.setMaximum(max)
self.slider.setSingleStep(step)
self.spinner = FCSpinner()
self.spinner.set_range(min, max)
self.spinner.set_step(step)
self.spinner.setMinimumWidth(70)
sizePolicy = QtWidgets.QSizePolicy(QtWidgets.QSizePolicy.Preferred, QtWidgets.QSizePolicy.Preferred)
self.spinner.setSizePolicy(sizePolicy)
self.layout = QtWidgets.QHBoxLayout()
self.layout.setAlignment(QtCore.Qt.AlignLeft | QtCore.Qt.AlignVCenter)
self.layout.setContentsMargins(0, 0, 0, 0)
self.layout.addWidget(self.slider)
self.layout.addWidget(self.spinner)
self.setLayout(self.layout)
self.slider.valueChanged.connect(self._on_slider)
self.spinner.valueChanged.connect(self._on_spinner)
self.valueChanged = self.spinner.valueChanged
def get_value(self) -> int:
return self.spinner.get_value()
def set_value(self, value: int):
self.spinner.set_value(value)
def _on_spinner(self):
spinner_value = self.spinner.value()
self.slider.setValue(spinner_value)
def _on_slider(self):
slider_value = self.slider.value()
self.spinner.set_value(slider_value)
class FCSpinner(QtWidgets.QSpinBox):
returnPressed = QtCore.pyqtSignal()
confirmation_signal = QtCore.pyqtSignal(bool, float, float)
def __init__(self, suffix=None, alignment=None, parent=None, callback=None, policy=True):
super(FCSpinner, self).__init__(parent)
self.readyToEdit = True
self.editingFinished.connect(self.on_edit_finished)
if callback:
self.confirmation_signal.connect(callback)
self.lineEdit().installEventFilter(self)
if suffix:
self.setSuffix(' %s' % str(suffix))
if alignment:
if alignment == 'center':
align_val = QtCore.Qt.AlignHCenter
elif alignment == 'right':
align_val = QtCore.Qt.AlignRight
else:
align_val = QtCore.Qt.AlignLeft
self.setAlignment(align_val)
self.prev_readyToEdit = True
self.menu = None
if policy:
sizePolicy = QtWidgets.QSizePolicy(QtWidgets.QSizePolicy.Ignored, QtWidgets.QSizePolicy.Preferred)
self.setSizePolicy(sizePolicy)
def eventFilter(self, object, event):
if event.type() == QtCore.QEvent.MouseButtonPress and self.prev_readyToEdit is True:
self.prev_readyToEdit = False
if self.isEnabled():
if self.readyToEdit:
self.lineEdit().selectAll()
self.readyToEdit = False
else:
self.lineEdit().deselect()
return True
return False
def keyPressEvent(self, event):
if event.key() == Qt.Key_Enter:
self.returnPressed.emit()
self.clearFocus()
else:
super().keyPressEvent(event)
def wheelEvent(self, *args, **kwargs):
# should work only there is a focus in the lineedit of the SpinBox
if self.readyToEdit is False:
super().wheelEvent(*args, **kwargs)
def on_edit_finished(self):
self.clearFocus()
self.returnPressed.emit()
# def mousePressEvent(self, e, parent=None):
# super(FCSpinner, self).mousePressEvent(e) # required to deselect on 2e click
# if self.readyToEdit:
# self.lineEdit().selectAll()
# self.readyToEdit = False
def focusOutEvent(self, e):
# don't focus out if the user requests an popup menu
if e.reason() != QtCore.Qt.PopupFocusReason:
super(FCSpinner, self).focusOutEvent(e) # required to remove cursor on focusOut
self.lineEdit().deselect()
self.readyToEdit = True
self.prev_readyToEdit = True
def contextMenuEvent(self, event):
self.menu = QtWidgets.QMenu()
line_edit = self.lineEdit()
# UNDO
undo_action = QAction('%s\t%s' % (_("Undo"), _('Ctrl+Z')), self)
self.menu.addAction(undo_action)
undo_action.triggered.connect(line_edit.undo)
if line_edit.isUndoAvailable() is False:
undo_action.setDisabled(True)
# REDO
redo_action = QAction('%s\t%s' % (_("Redo"), _('Ctrl+Y')), self)
self.menu.addAction(redo_action)
redo_action.triggered.connect(line_edit.redo)
if line_edit.isRedoAvailable() is False:
redo_action.setDisabled(True)
self.menu.addSeparator()
# CUT
cut_action = QAction('%s\t%s' % (_("Cut"), _('Ctrl+X')), self)
self.menu.addAction(cut_action)
cut_action.triggered.connect(self.cut_text)
if not line_edit.hasSelectedText():
cut_action.setDisabled(True)
# COPY
copy_action = QAction('%s\t%s' % (_("Copy"), _('Ctrl+C')), self)
self.menu.addAction(copy_action)
copy_action.triggered.connect(self.copy_text)
if not line_edit.hasSelectedText():
copy_action.setDisabled(True)
# PASTE
paste_action = QAction('%s\t%s' % (_("Paste"), _('Ctrl+V')), self)
self.menu.addAction(paste_action)
paste_action.triggered.connect(self.paste_text)
# DELETE
delete_action = QAction('%s\t%s' % (_("Delete"), _('Del')), self)
self.menu.addAction(delete_action)
delete_action.triggered.connect(line_edit.del_)
self.menu.addSeparator()
# SELECT ALL
sel_all_action = QAction('%s\t%s' % (_("Select All"), _('Ctrl+A')), self)
self.menu.addAction(sel_all_action)
sel_all_action.triggered.connect(line_edit.selectAll)
self.menu.addSeparator()
# STEP UP
step_up_action = QAction('%s\t%s' % (_("Step Up"), ''), self)
self.menu.addAction(step_up_action)
step_up_action.triggered.connect(self.stepUp)
# STEP DOWN
step_down_action = QAction('%s\t%s' % (_("Step Down"), ''), self)
self.menu.addAction(step_down_action)
step_down_action.triggered.connect(self.stepDown)
self.menu.exec_(event.globalPos())
def cut_text(self):
clipboard = QtWidgets.QApplication.clipboard()
line_edit = self.lineEdit()
txt = line_edit.selectedText()
clipboard.clear()
clipboard.setText(txt)
line_edit.del_()
def copy_text(self):
clipboard = QtWidgets.QApplication.clipboard()
line_edit = self.lineEdit()
txt = line_edit.selectedText()
clipboard.clear()
clipboard.setText(txt)
def paste_text(self):
clipboard = QtWidgets.QApplication.clipboard()
line_edit = self.lineEdit()
txt = clipboard.text()
line_edit.insert(txt)
def valueFromText(self, text):
txt = text.strip('%%')
try:
ret_val = int(txt)
except ValueError:
ret_val = 0
return ret_val
def get_value(self):
return int(self.value())
def set_value(self, val):
try:
k = int(val)
except Exception as e:
log.debug(str(e))
return
self.setValue(k)
def validate(self, p_str, p_int):
text = p_str
min_val = self.minimum()
max_val = self.maximum()
try:
if int(text) < min_val or int(text) > max_val:
self.confirmation_signal.emit(False, min_val, max_val)
return QtGui.QValidator.Intermediate, text, p_int
except ValueError:
pass
self.confirmation_signal.emit(True, min_val, max_val)
return QtGui.QValidator.Acceptable, p_str, p_int
def set_range(self, min_val, max_val):
self.blockSignals(True)
self.setRange(min_val, max_val)
self.blockSignals(False)
def set_step(self, p_int):
self.blockSignals(True)
self.setSingleStep(p_int)
self.blockSignals(False)
# def sizeHint(self):
# default_hint_size = super(FCSpinner, self).sizeHint()
# return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class FCDoubleSlider(QtWidgets.QSlider):
# frome here: https://stackoverflow.com/questions/42820380/use-float-for-qslider
# create our our signal that we can connect to if necessary
doubleValueChanged = pyqtSignal(float)
def __init__(self, decimals=3, orientation='horizontal', *args, **kargs):
if orientation == 'horizontal':
super(FCDoubleSlider, self).__init__(QtCore.Qt.Horizontal, *args, **kargs)
else:
super(FCDoubleSlider, self).__init__(QtCore.Qt.Vertical, *args, **kargs)
self._multi = 10 ** decimals
self.valueChanged.connect(self.emitDoubleValueChanged)
def emitDoubleValueChanged(self):
value = float(super(FCDoubleSlider, self).value()) / self._multi
self.doubleValueChanged.emit(value)
def value(self):
return float(super(FCDoubleSlider, self).value()) / self._multi
def get_value(self):
return self.value()
def setMinimum(self, value):
return super(FCDoubleSlider, self).setMinimum(value * self._multi)
def setMaximum(self, value):
return super(FCDoubleSlider, self).setMaximum(value * self._multi)
def setSingleStep(self, value):
return super(FCDoubleSlider, self).setSingleStep(value * self._multi)
def singleStep(self):
return float(super(FCDoubleSlider, self).singleStep()) / self._multi
def set_value(self, value):
super(FCDoubleSlider, self).setValue(int(value * self._multi))
def set_precision(self, decimals):
self._multi = 10 ** decimals
def set_range(self, min, max):
self.blockSignals(True)
self.setRange(min * self._multi, max * self._multi)
self.blockSignals(False)
class FCSliderWithDoubleSpinner(QtWidgets.QFrame):
def __init__(self, min=0, max=10000.0000, step=1, precision=4, orientation='horizontal', **kwargs):
super().__init__(**kwargs)
self.slider = FCDoubleSlider(orientation=orientation)
self.slider.setMinimum(min)
self.slider.setMaximum(max)
self.slider.setSingleStep(step)
self.slider.set_range(min, max)
self.spinner = FCDoubleSpinner()
self.spinner.set_range(min, max)
self.spinner.set_precision(precision)
self.spinner.set_step(step)
self.spinner.setMinimumWidth(70)
sizePolicy = QtWidgets.QSizePolicy(QtWidgets.QSizePolicy.Preferred, QtWidgets.QSizePolicy.Preferred)
self.spinner.setSizePolicy(sizePolicy)
self.layout = QtWidgets.QHBoxLayout()
self.layout.setAlignment(QtCore.Qt.AlignLeft | QtCore.Qt.AlignVCenter)
self.layout.setContentsMargins(0, 0, 0, 0)
self.layout.addWidget(self.slider)
self.layout.addWidget(self.spinner)
self.setLayout(self.layout)
self.slider.doubleValueChanged.connect(self._on_slider)
self.spinner.valueChanged.connect(self._on_spinner)
self.valueChanged = self.spinner.valueChanged
def set_precision(self, prec):
self.spinner.set_precision(prec)
def setSingleStep(self, step):
self.spinner.set_step(step)
def set_range(self, min, max):
self.spinner.set_range(min, max)
self.slider.set_range(min, max)
def set_minimum(self, min):
self.slider.setMinimum(min)
self.spinner.setMinimum(min)
def set_maximum(self, max):
self.slider.setMaximum(max)
self.spinner.setMaximum(max)
def get_value(self) -> float:
return self.spinner.get_value()
def set_value(self, value: float):
self.spinner.set_value(value)
def _on_spinner(self):
spinner_value = self.spinner.value()
self.slider.set_value(spinner_value)
def _on_slider(self):
slider_value = self.slider.value()
self.spinner.set_value(slider_value)
class FCButtonWithDoubleSpinner(QtWidgets.QFrame):
def __init__(self, min=0, max=100, step=1, decimals=4, button_text='', button_icon=None, callback=None, **kwargs):
super().__init__(**kwargs)
self.button = QtWidgets.QToolButton()
if button_text != '':
self.button.setText(button_text)
if button_icon:
self.button.setIcon(button_icon)
self.spinner = FCDoubleSpinner()
self.spinner.set_range(min, max)
self.spinner.set_step(step)
self.spinner.set_precision(decimals)
self.spinner.setMinimumWidth(70)
sizePolicy = QtWidgets.QSizePolicy(QtWidgets.QSizePolicy.MinimumExpanding, QtWidgets.QSizePolicy.Preferred)
self.spinner.setSizePolicy(sizePolicy)
self.layout = QtWidgets.QHBoxLayout()
self.layout.setAlignment(QtCore.Qt.AlignLeft | QtCore.Qt.AlignVCenter)
self.layout.setContentsMargins(0, 0, 0, 0)
self.layout.addWidget(self.spinner)
self.layout.addWidget(self.button)
self.setLayout(self.layout)
self.valueChanged = self.spinner.valueChanged
self._callback = callback
self.button.clicked.connect(self._callback)
def get_value(self) -> float:
return self.spinner.get_value()
def set_value(self, value: float):
self.spinner.set_value(value)
def set_callback(self, callback):
self._callback = callback
def set_text(self, txt: str):
if txt:
self.button.setText(txt)
def set_icon(self, icon: QtGui.QIcon):
self.button.setIcon(icon)
class FCDoubleSpinner(QtWidgets.QDoubleSpinBox):
returnPressed = QtCore.pyqtSignal()
confirmation_signal = QtCore.pyqtSignal(bool, float, float)
def __init__(self, suffix=None, alignment=None, parent=None, callback=None, policy=True):
"""
:param suffix: a char added to the end of the value in the LineEdit; like a '%' or '$' etc
:param alignment: the value is aligned to left or right
:param parent:
:param callback: called when the entered value is outside limits; the min and max value will be passed to it
"""
super(FCDoubleSpinner, self).__init__(parent)
self.readyToEdit = True
self.editingFinished.connect(self.on_edit_finished)
if callback:
self.confirmation_signal.connect(callback)
self.lineEdit().installEventFilter(self)
# by default don't allow the minus sign to be entered as the default for QDoubleSpinBox is the positive range
# between 0.00 and 99.00 (2 decimals)
self.lineEdit().setValidator(
QtGui.QRegExpValidator(QtCore.QRegExp("\+?[0-9]*[.,]?[0-9]{%d}" % self.decimals()), self))
if suffix:
self.setSuffix(' %s' % str(suffix))
if alignment:
if alignment == 'center':
align_val = QtCore.Qt.AlignHCenter
elif alignment == 'right':
align_val = QtCore.Qt.AlignRight
else:
align_val = QtCore.Qt.AlignLeft
self.setAlignment(align_val)
self.prev_readyToEdit = True
self.menu = None
if policy:
sizePolicy = QtWidgets.QSizePolicy(QtWidgets.QSizePolicy.Ignored, QtWidgets.QSizePolicy.Preferred)
self.setSizePolicy(sizePolicy)
def on_edit_finished(self):
self.clearFocus()
self.returnPressed.emit()
def eventFilter(self, object, event):
if event.type() == QtCore.QEvent.MouseButtonPress and self.prev_readyToEdit is True:
self.prev_readyToEdit = False
if self.isEnabled():
if self.readyToEdit:
self.cursor_pos = self.lineEdit().cursorPosition()
self.lineEdit().selectAll()
self.readyToEdit = False
else:
self.lineEdit().deselect()
return True
return False
def keyPressEvent(self, event):
if event.key() == Qt.Key_Enter:
self.returnPressed.emit()
self.clearFocus()
else:
super().keyPressEvent(event)
def wheelEvent(self, *args, **kwargs):
# should work only there is a focus in the lineedit of the SpinBox
if self.readyToEdit is False:
super().wheelEvent(*args, **kwargs)
def focusOutEvent(self, e):
# don't focus out if the user requests an popup menu
if e.reason() != QtCore.Qt.PopupFocusReason:
super(FCDoubleSpinner, self).focusOutEvent(e) # required to remove cursor on focusOut
self.lineEdit().deselect()
self.readyToEdit = True
self.prev_readyToEdit = True
def contextMenuEvent(self, event):
self.menu = QtWidgets.QMenu()
line_edit = self.lineEdit()
# UNDO
undo_action = QAction('%s\t%s' % (_("Undo"), _('Ctrl+Z')), self)
self.menu.addAction(undo_action)
undo_action.triggered.connect(line_edit.undo)
if line_edit.isUndoAvailable() is False:
undo_action.setDisabled(True)
# REDO
redo_action = QAction('%s\t%s' % (_("Redo"), _('Ctrl+Y')), self)
self.menu.addAction(redo_action)
redo_action.triggered.connect(line_edit.redo)
if line_edit.isRedoAvailable() is False:
redo_action.setDisabled(True)
self.menu.addSeparator()
# CUT
cut_action = QAction('%s\t%s' % (_("Cut"), _('Ctrl+X')), self)
self.menu.addAction(cut_action)
cut_action.triggered.connect(self.cut_text)
if not line_edit.hasSelectedText():
cut_action.setDisabled(True)
# COPY
copy_action = QAction('%s\t%s' % (_("Copy"), _('Ctrl+C')), self)
self.menu.addAction(copy_action)
copy_action.triggered.connect(self.copy_text)
if not line_edit.hasSelectedText():
copy_action.setDisabled(True)
# PASTE
paste_action = QAction('%s\t%s' % (_("Paste"), _('Ctrl+V')), self)
self.menu.addAction(paste_action)
paste_action.triggered.connect(self.paste_text)
# DELETE
delete_action = QAction('%s\t%s' % (_("Delete"), _('Del')), self)
self.menu.addAction(delete_action)
delete_action.triggered.connect(line_edit.del_)
self.menu.addSeparator()
# SELECT ALL
sel_all_action = QAction('%s\t%s' % (_("Select All"), _('Ctrl+A')), self)
self.menu.addAction(sel_all_action)
sel_all_action.triggered.connect(line_edit.selectAll)
self.menu.addSeparator()
# STEP UP
step_up_action = QAction('%s\t%s' % (_("Step Up"), ''), self)
self.menu.addAction(step_up_action)
step_up_action.triggered.connect(self.stepUp)
# STEP DOWN
step_down_action = QAction('%s\t%s' % (_("Step Down"), ''), self)
self.menu.addAction(step_down_action)
step_down_action.triggered.connect(self.stepDown)
self.menu.exec_(event.globalPos())
def cut_text(self):
clipboard = QtWidgets.QApplication.clipboard()
line_edit = self.lineEdit()
txt = line_edit.selectedText()
clipboard.clear()
clipboard.setText(txt)
line_edit.del_()
def copy_text(self):
clipboard = QtWidgets.QApplication.clipboard()
line_edit = self.lineEdit()
txt = line_edit.selectedText()
clipboard.clear()
clipboard.setText(txt)
def paste_text(self):
clipboard = QtWidgets.QApplication.clipboard()
line_edit = self.lineEdit()
txt = clipboard.text()
line_edit.insert(txt)
def valueFromText(self, p_str):
text = p_str.replace(',', '.')
text = text.strip('%%')
try:
ret_val = float(text)
except ValueError:
ret_val = 0.0
return ret_val
def validate(self, p_str, p_int):
text = p_str.replace(',', '.')
min_val = self.minimum()
max_val = self.maximum()
try:
if float(text) < min_val or float(text) > max_val:
self.confirmation_signal.emit(False, min_val, max_val)
return QtGui.QValidator.Intermediate, text, p_int
except ValueError:
pass
self.confirmation_signal.emit(True, min_val, max_val)
return QtGui.QValidator.Acceptable, p_str, p_int
def get_value(self):
return float(self.value())
def set_value(self, val):
try:
k = float(val)
except Exception as e:
log.debug(str(e))
return
self.setValue(k)
def set_precision(self, val):
self.setDecimals(val)
# make sure that the user can't type more decimals than the set precision
if self.minimum() < 0 or self.maximum() <= 0:
self.lineEdit().setValidator(
QtGui.QRegExpValidator(QtCore.QRegExp("-?[0-9]*[.,]?[0-9]{%d}" % self.decimals()), self))
else:
self.lineEdit().setValidator(
QtGui.QRegExpValidator(QtCore.QRegExp("\+?[0-9]*[.,]?[0-9]{%d}" % self.decimals()), self))
def set_range(self, min_val, max_val):
if min_val < 0 or max_val <= 0:
self.lineEdit().setValidator(
QtGui.QRegExpValidator(QtCore.QRegExp("-?[0-9]*[.,]?[0-9]{%d}" % self.decimals()), self))
self.setRange(min_val, max_val)
def set_step(self, p_int):
self.blockSignals(True)
self.setSingleStep(p_int)
self.blockSignals(False)
# def sizeHint(self):
# default_hint_size = super(FCDoubleSpinner, self).sizeHint()
# return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class FCCheckBox(QtWidgets.QCheckBox):
def __init__(self, label='', parent=None):
super(FCCheckBox, self).__init__(str(label), parent)
def get_value(self):
return self.isChecked()
def set_value(self, val):
self.setChecked(val)
def toggle(self):
self.set_value(not self.get_value())
class FCTextArea(QtWidgets.QPlainTextEdit):
def __init__(self, parent=None):
super(FCTextArea, self).__init__(parent)
def set_value(self, val):
self.setPlainText(val)
def get_value(self):
return str(self.toPlainText())
def sizeHint(self, custom_sizehint=None):
default_hint_size = super(FCTextArea, self).sizeHint()
if custom_sizehint is None:
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
else:
return QtCore.QSize(custom_sizehint, default_hint_size.height())
class FCTextEdit(QtWidgets.QTextEdit):
def __init__(self, *args, **kwargs):
super(FCTextEdit, self).__init__(*args, **kwargs)
self.menu = None
self.undo_flag = False
self.redo_flag = False
self.undoAvailable.connect(self.on_undo_available)
self.redoAvailable.connect(self.on_redo_available)
def on_undo_available(self, val):
self.undo_flag = val
def on_redo_available(self, val):
self.redo_flag = val
def contextMenuEvent(self, event):
self.menu = QtWidgets.QMenu()
tcursor = self.textCursor()
txt = tcursor.selectedText()
# UNDO
undo_action = QAction('%s\t%s' % (_("Undo"), _('Ctrl+Z')), self)
self.menu.addAction(undo_action)
undo_action.triggered.connect(self.undo)
if self.undo_flag is False:
undo_action.setDisabled(True)
# REDO
redo_action = QAction('%s\t%s' % (_("Redo"), _('Ctrl+Y')), self)
self.menu.addAction(redo_action)
redo_action.triggered.connect(self.redo)
if self.redo_flag is False:
redo_action.setDisabled(True)
self.menu.addSeparator()
# CUT
cut_action = QAction('%s\t%s' % (_("Cut"), _('Ctrl+X')), self)
self.menu.addAction(cut_action)
cut_action.triggered.connect(self.cut_text)
if txt == '':
cut_action.setDisabled(True)
# COPY
copy_action = QAction('%s\t%s' % (_("Copy"), _('Ctrl+C')), self)
self.menu.addAction(copy_action)
copy_action.triggered.connect(self.copy_text)
if txt == '':
copy_action.setDisabled(True)
# PASTE
paste_action = QAction('%s\t%s' % (_("Paste"), _('Ctrl+V')), self)
self.menu.addAction(paste_action)
paste_action.triggered.connect(self.paste_text)
# DELETE
delete_action = QAction('%s\t%s' % (_("Delete"), _('Del')), self)
self.menu.addAction(delete_action)
delete_action.triggered.connect(self.delete_text)
self.menu.addSeparator()
# SELECT ALL
sel_all_action = QAction('%s\t%s' % (_("Select All"), _('Ctrl+A')), self)
self.menu.addAction(sel_all_action)
sel_all_action.triggered.connect(self.selectAll)
self.menu.exec_(event.globalPos())
def cut_text(self):
tcursor = self.textCursor()
clipboard = QtWidgets.QApplication.clipboard()
txt = tcursor.selectedText()
clipboard.clear()
clipboard.setText(txt)
tcursor.deleteChar()
def copy_text(self):
tcursor = self.textCursor()
clipboard = QtWidgets.QApplication.clipboard()
txt = tcursor.selectedText()
clipboard.clear()
clipboard.setText(txt)
def paste_text(self):
tcursor = self.textCursor()
clipboard = QtWidgets.QApplication.clipboard()
txt = clipboard.text()
tcursor.insertText(txt)
def delete_text(self):
tcursor = self.textCursor()
tcursor.deleteChar()
class FCTextAreaRich(FCTextEdit):
def __init__(self, parent=None):
super(FCTextAreaRich, self).__init__(parent)
def set_value(self, val):
self.setText(val)
def get_value(self):
return str(self.toPlainText())
def sizeHint(self):
default_hint_size = super(FCTextAreaRich, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
class FCTextAreaExtended(FCTextEdit):
def __init__(self, parent=None):
super().__init__(parent)
self.completer = MyCompleter()
self.model = QtCore.QStringListModel()
self.completer.setModel(self.model)
self.set_model_data(keyword_list=[])
self.completer.insertText.connect(self.insertCompletion)
self.completer.popup().clicked.connect(self.insert_completion_click)
self.completer_enable = False
def set_model_data(self, keyword_list):
self.model.setStringList(keyword_list)
def insert_completion_click(self):
self.completer.insertText.emit(self.completer.getSelected())
self.completer.setCompletionMode(QCompleter.PopupCompletion)
def insertCompletion(self, completion):
tc = self.textCursor()
extra = (len(completion) - len(self.completer.completionPrefix()))
# don't insert if the word is finished but add a space instead
if extra == 0:
tc.insertText(' ')
self.completer.popup().hide()
return
tc.movePosition(QTextCursor.Left)
tc.movePosition(QTextCursor.EndOfWord)
tc.insertText(completion[-extra:])
# add a space after inserting the word
tc.insertText(' ')
self.setTextCursor(tc)
self.completer.popup().hide()
def focusInEvent(self, event):
if self.completer:
self.completer.setWidget(self)
QTextEdit.focusInEvent(self, event)
def set_value(self, val):
self.setText(val)
def get_value(self):
self.toPlainText()
def insertFromMimeData(self, data):
"""
Reimplemented such that when SHIFT is pressed and doing click Paste in the contextual menu, the '\' symbol
is replaced with the '/' symbol. That's because of the difference in path separators in Windows and TCL
:param data:
:return:
"""
modifier = QtWidgets.QApplication.keyboardModifiers()
if modifier == Qt.ShiftModifier:
text = data.text()
text = text.replace('\\', '/')
self.insertPlainText(text)
else:
self.insertPlainText(data.text())
def keyPressEvent(self, event):
"""
Reimplemented so the CTRL + SHIFT + V shortcut key combo will paste the text but replacing '\' with '/'
:param event:
:return:
"""
key = event.key()
modifier = QtWidgets.QApplication.keyboardModifiers()
if modifier & Qt.ControlModifier and modifier & Qt.ShiftModifier:
if key == QtCore.Qt.Key_V:
clipboard = QtWidgets.QApplication.clipboard()
clip_text = clipboard.text()
clip_text = clip_text.replace('\\', '/')
self.insertPlainText(clip_text)
elif modifier & Qt.ControlModifier:
if key == Qt.Key_Slash:
self.comment()
tc = self.textCursor()
if (key == Qt.Key_Tab or key == Qt.Key_Enter or key == Qt.Key_Return) and self.completer.popup().isVisible():
self.completer.insertText.emit(self.completer.getSelected())
self.completer.setCompletionMode(QCompleter.PopupCompletion)
return
elif key == Qt.Key_BraceLeft:
tc.insertText('{}')
self.moveCursor(QtGui.QTextCursor.Left)
elif key == Qt.Key_BracketLeft:
tc.insertText('[]')
self.moveCursor(QtGui.QTextCursor.Left)
elif key == Qt.Key_ParenLeft:
tc.insertText('()')
self.moveCursor(QtGui.QTextCursor.Left)
elif key == Qt.Key_BraceRight:
tc.select(QtGui.QTextCursor.WordUnderCursor)
if tc.selectedText() == '}':
tc.movePosition(QTextCursor.Right)
self.setTextCursor(tc)
else:
tc.clearSelection()
self.textCursor().insertText('}')
elif key == Qt.Key_BracketRight:
tc.select(QtGui.QTextCursor.WordUnderCursor)
if tc.selectedText() == ']':
tc.movePosition(QTextCursor.Right)
self.setTextCursor(tc)
else:
tc.clearSelection()
self.textCursor().insertText(']')
elif key == Qt.Key_ParenRight:
tc.select(QtGui.QTextCursor.WordUnderCursor)
if tc.selectedText() == ')':
tc.movePosition(QTextCursor.Right)
self.setTextCursor(tc)
else:
tc.clearSelection()
self.textCursor().insertText(')')
else:
super(FCTextAreaExtended, self).keyPressEvent(event)
if self.completer_enable:
tc.select(QTextCursor.WordUnderCursor)
cr = self.cursorRect()
if len(tc.selectedText()) > 0:
self.completer.setCompletionPrefix(tc.selectedText())
popup = self.completer.popup()
popup.setCurrentIndex(self.completer.completionModel().index(0, 0))
cr.setWidth(self.completer.popup().sizeHintForColumn(0)
+ self.completer.popup().verticalScrollBar().sizeHint().width())
self.completer.complete(cr)
else:
self.completer.popup().hide()
def comment(self):
"""
Got it from here:
https://stackoverflow.com/questions/49898820/how-to-get-text-next-to-cursor-in-qtextedit-in-pyqt4
:return:
"""
pos = self.textCursor().position()
self.moveCursor(QtGui.QTextCursor.StartOfLine)
line_text = self.textCursor().block().text()
if self.textCursor().block().text().startswith(" "):
# skip the white space
self.moveCursor(QtGui.QTextCursor.NextWord)
self.moveCursor(QtGui.QTextCursor.NextCharacter, QtGui.QTextCursor.KeepAnchor)
character = self.textCursor().selectedText()
if character == "#":
# delete #
self.textCursor().deletePreviousChar()
# delete white space
self.moveCursor(QtGui.QTextCursor.NextWord, QtGui.QTextCursor.KeepAnchor)
self.textCursor().removeSelectedText()
else:
self.moveCursor(QtGui.QTextCursor.PreviousCharacter, QtGui.QTextCursor.KeepAnchor)
self.textCursor().insertText("# ")
cursor = QtGui.QTextCursor(self.textCursor())
cursor.setPosition(pos)
self.setTextCursor(cursor)
class FCPlainTextAreaExtended(QtWidgets.QPlainTextEdit):
def __init__(self, parent=None):
super().__init__(parent)
self.completer = MyCompleter()
self.model = QtCore.QStringListModel()
self.completer.setModel(self.model)
self.set_model_data(keyword_list=[])
self.completer.insertText.connect(self.insertCompletion)
self.completer.popup().clicked.connect(self.insert_completion_click)
self.completer_enable = False
self.menu = None
self.undo_flag = False
self.redo_flag = False
self.undoAvailable.connect(self.on_undo_available)
self.redoAvailable.connect(self.on_redo_available)
def on_undo_available(self, val):
self.undo_flag = val
def on_redo_available(self, val):
self.redo_flag = val
def append(self, text):
"""
Added this to make this subclass compatible with FCTextAreaExtended
:param text: string
:return:
"""
self.appendPlainText(text)
def set_model_data(self, keyword_list):
self.model.setStringList(keyword_list)
def insert_completion_click(self):
self.completer.insertText.emit(self.completer.getSelected())
self.completer.setCompletionMode(QCompleter.PopupCompletion)
def insertCompletion(self, completion):
tc = self.textCursor()
extra = (len(completion) - len(self.completer.completionPrefix()))
# don't insert if the word is finished but add a space instead
if extra == 0:
tc.insertText(' ')
self.completer.popup().hide()
return
tc.movePosition(QTextCursor.Left)
tc.movePosition(QTextCursor.EndOfWord)
tc.insertText(completion[-extra:])
# add a space after inserting the word
tc.insertText(' ')
self.setTextCursor(tc)
self.completer.popup().hide()
def focusInEvent(self, event):
if self.completer:
self.completer.setWidget(self)
QtWidgets.QPlainTextEdit.focusInEvent(self, event)
def contextMenuEvent(self, event):
self.menu = QtWidgets.QMenu()
tcursor = self.textCursor()
txt = tcursor.selectedText()
# UNDO
undo_action = QAction('%s\t%s' % (_("Undo"), _('Ctrl+Z')), self)
self.menu.addAction(undo_action)
undo_action.triggered.connect(self.undo)
if self.undo_flag is False:
undo_action.setDisabled(True)
# REDO
redo_action = QAction('%s\t%s' % (_("Redo"), _('Ctrl+Y')), self)
self.menu.addAction(redo_action)
redo_action.triggered.connect(self.redo)
if self.redo_flag is False:
redo_action.setDisabled(True)
self.menu.addSeparator()
# CUT
cut_action = QAction('%s\t%s' % (_("Cut"), _('Ctrl+X')), self)
self.menu.addAction(cut_action)
cut_action.triggered.connect(self.cut_text)
if txt == '':
cut_action.setDisabled(True)
# COPY
copy_action = QAction('%s\t%s' % (_("Copy"), _('Ctrl+C')), self)
self.menu.addAction(copy_action)
copy_action.triggered.connect(self.copy_text)
if txt == '':
copy_action.setDisabled(True)
# PASTE
paste_action = QAction('%s\t%s' % (_("Paste"), _('Ctrl+V')), self)
self.menu.addAction(paste_action)
paste_action.triggered.connect(self.paste_text)
# DELETE
delete_action = QAction('%s\t%s' % (_("Delete"), _('Del')), self)
self.menu.addAction(delete_action)
delete_action.triggered.connect(self.delete_text)
self.menu.addSeparator()
# SELECT ALL
sel_all_action = QAction('%s\t%s' % (_("Select All"), _('Ctrl+A')), self)
self.menu.addAction(sel_all_action)
sel_all_action.triggered.connect(self.selectAll)
self.menu.exec_(event.globalPos())
def cut_text(self):
tcursor = self.textCursor()
clipboard = QtWidgets.QApplication.clipboard()
txt = tcursor.selectedText()
clipboard.clear()
clipboard.setText(txt)
tcursor.deleteChar()
def copy_text(self):
tcursor = self.textCursor()
clipboard = QtWidgets.QApplication.clipboard()
txt = tcursor.selectedText()
clipboard.clear()
clipboard.setText(txt)
def paste_text(self):
tcursor = self.textCursor()
clipboard = QtWidgets.QApplication.clipboard()
txt = clipboard.text()
tcursor.insertText(txt)
def delete_text(self):
tcursor = self.textCursor()
tcursor.deleteChar()
def set_value(self, val):
self.setPlainText(val)
def get_value(self):
self.toPlainText()
def insertFromMimeData(self, data):
"""
Reimplemented such that when SHIFT is pressed and doing click Paste in the contextual menu, the '\' symbol
is replaced with the '/' symbol. That's because of the difference in path separators in Windows and TCL
:param data:
:return:
"""
modifier = QtWidgets.QApplication.keyboardModifiers()
if modifier == Qt.ShiftModifier:
text = data.text()
text = text.replace('\\', '/')
self.insertPlainText(text)
else:
self.insertPlainText(data.text())
def keyPressEvent(self, event):
"""
Reimplemented so the CTRL + SHIFT + V shortcut key combo will paste the text but replacing '\' with '/'
:param event:
:return:
"""
key = event.key()
modifier = QtWidgets.QApplication.keyboardModifiers()
if modifier & Qt.ControlModifier and modifier & Qt.ShiftModifier:
if key == QtCore.Qt.Key_V:
clipboard = QtWidgets.QApplication.clipboard()
clip_text = clipboard.text()
clip_text = clip_text.replace('\\', '/')
self.insertPlainText(clip_text)
if modifier & Qt.ControlModifier and key == Qt.Key_Slash:
self.comment()
tc = self.textCursor()
if (key == Qt.Key_Tab or key == Qt.Key_Enter or key == Qt.Key_Return) and self.completer.popup().isVisible():
self.completer.insertText.emit(self.completer.getSelected())
self.completer.setCompletionMode(QCompleter.PopupCompletion)
return
elif key == Qt.Key_BraceLeft:
tc.insertText('{}')
self.moveCursor(QtGui.QTextCursor.Left)
elif key == Qt.Key_BracketLeft:
tc.insertText('[]')
self.moveCursor(QtGui.QTextCursor.Left)
elif key == Qt.Key_ParenLeft:
tc.insertText('()')
self.moveCursor(QtGui.QTextCursor.Left)
elif key == Qt.Key_BraceRight:
tc.select(QtGui.QTextCursor.WordUnderCursor)
if tc.selectedText() == '}':
tc.movePosition(QTextCursor.Right)
self.setTextCursor(tc)
else:
tc.clearSelection()
self.textCursor().insertText('}')
elif key == Qt.Key_BracketRight:
tc.select(QtGui.QTextCursor.WordUnderCursor)
if tc.selectedText() == ']':
tc.movePosition(QTextCursor.Right)
self.setTextCursor(tc)
else:
tc.clearSelection()
self.textCursor().insertText(']')
elif key == Qt.Key_ParenRight:
tc.select(QtGui.QTextCursor.WordUnderCursor)
if tc.selectedText() == ')':
tc.movePosition(QTextCursor.Right)
self.setTextCursor(tc)
else:
tc.clearSelection()
self.textCursor().insertText(')')
else:
super(FCPlainTextAreaExtended, self).keyPressEvent(event)
if self.completer_enable:
tc.select(QTextCursor.WordUnderCursor)
cr = self.cursorRect()
if len(tc.selectedText()) > 0:
self.completer.setCompletionPrefix(tc.selectedText())
popup = self.completer.popup()
popup.setCurrentIndex(self.completer.completionModel().index(0, 0))
cr.setWidth(self.completer.popup().sizeHintForColumn(0)
+ self.completer.popup().verticalScrollBar().sizeHint().width())
self.completer.complete(cr)
else:
self.completer.popup().hide()
def comment(self):
"""
Got it from here:
https://stackoverflow.com/questions/49898820/how-to-get-text-next-to-cursor-in-qtextedit-in-pyqt4
:return:
"""
pos = self.textCursor().position()
self.moveCursor(QtGui.QTextCursor.StartOfLine)
self.textCursor().block().text()
if self.textCursor().block().text().startswith(" "):
# skip the white space
self.moveCursor(QtGui.QTextCursor.NextWord)
self.moveCursor(QtGui.QTextCursor.NextCharacter, QtGui.QTextCursor.KeepAnchor)
character = self.textCursor().selectedText()
if character == "#":
# delete #
self.textCursor().deletePreviousChar()
# delete white space
self.moveCursor(QtGui.QTextCursor.NextWord, QtGui.QTextCursor.KeepAnchor)
self.textCursor().removeSelectedText()
else:
self.moveCursor(QtGui.QTextCursor.PreviousCharacter, QtGui.QTextCursor.KeepAnchor)
self.textCursor().insertText("# ")
cursor = QtGui.QTextCursor(self.textCursor())
cursor.setPosition(pos)
self.setTextCursor(cursor)
class FCComboBox(QtWidgets.QComboBox):
def __init__(self, parent=None, callback=None, policy=True):
super(FCComboBox, self).__init__(parent)
self.setFocusPolicy(QtCore.Qt.StrongFocus)
self.view = self.view()
self.view.viewport().installEventFilter(self)
self.view.setContextMenuPolicy(Qt.CustomContextMenu)
self._set_last = False
self._obj_type = None
if policy is True:
sizePolicy = QtWidgets.QSizePolicy(QtWidgets.QSizePolicy.Ignored, QtWidgets.QSizePolicy.Preferred)
self.setSizePolicy(sizePolicy)
# the callback() will be called on customcontextmenu event and will be be passed 2 parameters:
# pos = mouse right click click position
# self = is the combobox object itself
if callback:
self.view.customContextMenuRequested.connect(lambda pos: callback(pos, self))
def eventFilter(self, obj, event):
if event.type() == QtCore.QEvent.MouseButtonRelease:
if event.button() == Qt.RightButton:
return True
return False
def wheelEvent(self, *args, **kwargs):
pass
def get_value(self):
return str(self.currentText())
def set_value(self, val):
idx = self.findText(str(val))
if idx == -1:
self.setCurrentIndex(0)
return
self.setCurrentIndex(idx)
@property
def is_last(self):
return self._set_last
@is_last.setter
def is_last(self, val):
self._set_last = val
if self._set_last is True:
self.model().rowsInserted.connect(self.on_model_changed)
self.setCurrentIndex(1)
@property
def obj_type(self):
return self._obj_type
@obj_type.setter
def obj_type(self, val):
self._obj_type = val
def on_model_changed(self, parent, first, last):
if self.model().data(parent, QtCore.Qt.DisplayRole) == self.obj_type:
self.setCurrentIndex(first)
class FCComboBox2(FCComboBox):
def __init__(self, parent=None, callback=None):
super(FCComboBox2, self).__init__(parent=parent, callback=callback)
def get_value(self):
return int(self.currentIndex())
def set_value(self, val):
self.setCurrentIndex(val)
class FCInputDialog(QtWidgets.QInputDialog):
def __init__(self, parent=None, ok=False, val=None, title=None, text=None, min=None, max=None, decimals=None,
init_val=None):
super(FCInputDialog, self).__init__(parent)
self.allow_empty = ok
self.empty_val = val
self.val = 0.0
self.ok = ''
self.init_value = init_val if init_val else 0.0
if title is None:
self.title = 'title'
else:
self.title = title
if text is None:
self.text = 'text'
else:
self.text = text
if min is None:
self.min = 0
else:
self.min = min
if max is None:
self.max = 0
else:
self.max = max
if decimals is None:
self.decimals = 6
else:
self.decimals = decimals
def get_value(self):
self.val, self.ok = self.getDouble(self, self.title, self.text, min=self.min,
max=self.max, decimals=self.decimals, value=self.init_value)
return [self.val, self.ok]
# "Transform", "Enter the Angle value:"
def set_value(self, val):
pass
class FCInputDoubleSpinner(QtWidgets.QDialog):
def __init__(self, parent=None, title=None, text=None,
min=0.0, max=100.0000, step=1, decimals=4, init_val=None):
super(FCInputDoubleSpinner, self).__init__(parent)
self.val = 0.0
self.init_value = init_val if init_val else 0.0
self.setWindowTitle(title) if title else self.setWindowTitle('title')
self.text = text if text else 'text'
self.min = min
self.max = max
self.step = step
self.decimals = decimals
self.lbl = FCLabel(self.text)
if title is None:
self.title = 'title'
else:
self.title = title
if text is None:
self.text = 'text'
else:
self.text = text
self.wdg = FCDoubleSpinner()
self.wdg.set_precision(self.decimals)
self.wdg.set_range(self.min, self.max)
self.wdg.set_step(self.step)
self.wdg.set_value(self.init_value)
QBtn = QtWidgets.QDialogButtonBox.Ok | QtWidgets.QDialogButtonBox.Cancel
self.buttonBox = QtWidgets.QDialogButtonBox(QBtn)
self.buttonBox.accepted.connect(self.accept)
self.buttonBox.rejected.connect(self.reject)
self.layout = QtWidgets.QVBoxLayout()
self.layout.addWidget(self.lbl)
self.layout.addWidget(self.wdg)
self.layout.addWidget(self.buttonBox)
self.buttonBox.button(QtWidgets.QDialogButtonBox.Ok).setText(_("Ok"))
self.buttonBox.button(QtWidgets.QDialogButtonBox.Cancel).setText(_("Cancel"))
self.setLayout(self.layout)
def set_title(self, txt):
self.setWindowTitle(txt)
def set_text(self, txt):
self.lbl.set_value(txt)
def set_icon(self, icon):
self.setWindowIcon(icon)
def set_min(self, val):
self.wdg.setMinimum(val)
def set_max(self, val):
self.wdg.setMaximum(val)
def set_range(self, min, max):
self.wdg.set_range(min, max)
def set_step(self, val):
self.wdg.set_step(val)
def set_value(self, val):
self.wdg.set_value(val)
def get_value(self):
if self.exec_() == QtWidgets.QDialog.Accepted:
return self.wdg.get_value(), True
else:
return None, False
class FCInputSpinner(QtWidgets.QDialog):
def __init__(self, parent=None, title=None, text=None, min=None, max=None, decimals=4, step=1, init_val=None):
super().__init__(parent)
self.val = 0.0
self.ok = ''
self.init_value = init_val if init_val else 0.0
self.setWindowTitle(title) if title else self.setWindowTitle('title')
self.text = text if text else 'text'
self.min = min if min else 0
self.max = max if max else 255
self.step = step if step else 1
self.lbl = FCLabel(self.text)
self.wdg = FCDoubleSpinner()
self.wdg.set_value(self.init_value)
self.wdg.set_range(self.min, self.max)
self.wdg.set_step(self.step)
self.wdg.set_precision(decimals)
sizePolicy = QtWidgets.QSizePolicy(QtWidgets.QSizePolicy.Preferred, QtWidgets.QSizePolicy.Preferred)
self.wdg.setSizePolicy(sizePolicy)
QBtn = QtWidgets.QDialogButtonBox.Ok | QtWidgets.QDialogButtonBox.Cancel
self.buttonBox = QtWidgets.QDialogButtonBox(QBtn)
self.buttonBox.accepted.connect(self.accept)
self.buttonBox.rejected.connect(self.reject)
self.buttonBox.button(QtWidgets.QDialogButtonBox.Ok).setText(_("Ok"))
self.buttonBox.button(QtWidgets.QDialogButtonBox.Cancel).setText(_("Cancel"))
self.layout = QtWidgets.QVBoxLayout()
self.layout.addWidget(self.lbl)
self.layout.addWidget(self.wdg)
self.layout.addWidget(self.buttonBox)
self.setLayout(self.layout)
def set_title(self, txt):
self.setWindowTitle(txt)
def set_text(self, txt):
self.lbl.set_value(txt)
def set_min(self, val):
self.wdg.spinner.setMinimum(val)
def set_max(self, val):
self.wdg.spinner.setMaximum(val)
def set_range(self, min, max):
self.wdg.spinner.set_range(min, max)
def set_step(self, val):
self.wdg.spinner.set_step(val)
def get_value(self):
if self.exec_() == QtWidgets.QDialog.Accepted:
return [self.wdg.get_value(), True]
else:
return [None, False]
class FCInputDialogSlider(QtWidgets.QDialog):
def __init__(self, parent=None, title=None, text=None, min=None, max=None, step=1, init_val=None):
super().__init__(parent)
self.val = 0.0
self.init_value = init_val if init_val else 0.0
self.setWindowTitle(title) if title else self.setWindowTitle('title')
self.text = text if text else 'text'
self.min = min if min else 0
self.max = max if max else 255
self.step = step if step else 1
self.lbl = FCLabel(self.text)
self.wdg = FCSliderWithSpinner(min=self.min, max=self.max, step=self.step)
self.wdg.set_value(self.init_value)
QBtn = QtWidgets.QDialogButtonBox.Ok | QtWidgets.QDialogButtonBox.Cancel
self.buttonBox = QtWidgets.QDialogButtonBox(QBtn)
self.buttonBox.accepted.connect(self.accept)
self.buttonBox.rejected.connect(self.reject)
self.buttonBox.button(QtWidgets.QDialogButtonBox.Ok).setText(_("Ok"))
self.buttonBox.button(QtWidgets.QDialogButtonBox.Cancel).setText(_("Cancel"))
self.layout = QtWidgets.QVBoxLayout()
self.layout.addWidget(self.lbl)
self.layout.addWidget(self.wdg)
self.layout.addWidget(self.buttonBox)
self.setLayout(self.layout)
def set_title(self, txt):
self.setWindowTitle(txt)
def set_text(self, txt):
self.lbl.set_value(txt)
def set_min(self, val):
self.wdg.spinner.setMinimum(val)
def set_max(self, val):
self.wdg.spinner.setMaximum(val)
def set_range(self, min, max):
self.wdg.spinner.set_range(min, max)
def set_step(self, val):
self.wdg.spinner.set_step(val)
def get_results(self):
if self.exec_() == QtWidgets.QDialog.Accepted:
return self.wdg.get_value(), True
else:
return None, False
class FCInputDialogSpinnerButton(QtWidgets.QDialog):
def __init__(self, parent=None, title=None, text=None, min=None, max=None, step=1, decimals=4, init_val=None,
button_text='', button_icon=None, callback=None):
super().__init__(parent)
self.val = 0.0
self.init_value = init_val if init_val else 0.0
self.setWindowTitle(title) if title else self.setWindowTitle('title')
self.text = text if text else 'text'
self.min = min if min else 0
self.max = max if max else 255
self.step = step if step else 1
self.decimals = decimals if decimals else 4
self.lbl = FCLabel(self.text)
self.wdg = FCButtonWithDoubleSpinner(min=self.min, max=self.max, step=self.step, decimals=decimals,
button_text=button_text, button_icon=button_icon, callback=callback)
self.wdg.set_value(self.init_value)
QBtn = QtWidgets.QDialogButtonBox.Ok | QtWidgets.QDialogButtonBox.Cancel
self.buttonBox = QtWidgets.QDialogButtonBox(QBtn)
self.buttonBox.accepted.connect(self.accept)
self.buttonBox.rejected.connect(self.reject)
self.buttonBox.button(QtWidgets.QDialogButtonBox.Ok).setText(_("Ok"))
self.buttonBox.button(QtWidgets.QDialogButtonBox.Cancel).setText(_("Cancel"))
self.layout = QtWidgets.QVBoxLayout()
self.layout.addWidget(self.lbl)
self.layout.addWidget(self.wdg)
self.layout.addWidget(self.buttonBox)
self.setLayout(self.layout)
def set_title(self, txt):
self.setWindowTitle(txt)
def set_text(self, txt):
self.lbl.set_value(txt)
def set_icon(self, icon):
self.setWindowIcon(icon)
def set_min(self, val):
self.wdg.spinner.setMinimum(val)
def set_max(self, val):
self.wdg.spinner.setMaximum(val)
def set_range(self, min, max):
self.wdg.spinner.set_range(min, max)
def set_step(self, val):
self.wdg.spinner.set_step(val)
def set_value(self, val):
self.wdg.spinner.set_value(val)
def get_results(self):
if self.exec_() == QtWidgets.QDialog.Accepted:
return self.wdg.get_value(), True
else:
return None, False
class FCButton(QtWidgets.QPushButton):
def __init__(self, text=None, checkable=None, click_callback=None, parent=None):
super(FCButton, self).__init__(text, parent)
if checkable is not None:
self.setCheckable(checkable)
if not click_callback is None:
self.clicked.connect(click_callback)
def get_value(self):
return self.isChecked()
def set_value(self, val):
self.setText(str(val))
class FCLabel(QtWidgets.QLabel):
clicked = QtCore.pyqtSignal(bool)
right_clicked = QtCore.pyqtSignal(bool)
middle_clicked = QtCore.pyqtSignal(bool)
def __init__(self, parent=None):
super(FCLabel, self).__init__(parent)
# for the usage of this label as a clickable label, to know that current state
self.clicked_state = False
self.middle_clicked_state = False
self.right_clicked_state = False
def mousePressEvent(self, event):
if event.button() == Qt.LeftButton:
self.clicked_state = not self.clicked_state
self.clicked.emit(self.clicked_state)
elif event.button() == Qt.RightButton:
self.right_clicked_state = not self.right_clicked_state
self.right_clicked.emit(True)
elif event.button() == Qt.MiddleButton:
self.middle_clicked_state = not self.middle_clicked_state
self.middle_clicked.emit(True)
def get_value(self):
return self.text()
def set_value(self, val):
self.setText(str(val))
class FCMenu(QtWidgets.QMenu):
def __init__(self):
super().__init__()
self.mouse_is_panning = False
self.popup_active = False
def popup(self, pos, action=None):
super().popup(pos)
self.mouse_is_panning = False
self.popup_active = True
class FCTab(QtWidgets.QTabWidget):
def __init__(self, parent=None):
super(FCTab, self).__init__(parent)
self.setTabsClosable(True)
self.tabCloseRequested.connect(self.closeTab)
def deleteTab(self, currentIndex):
widget = self.widget(currentIndex)
if widget is not None:
widget.deleteLater()
self.removeTab(currentIndex)
def closeTab(self, currentIndex):
self.removeTab(currentIndex)
def protectTab(self, currentIndex):
self.tabBar().setTabButton(currentIndex, QtWidgets.QTabBar.RightSide, None)
# class FCTabBar(QtWidgets.QTabBar):
# def tabSizeHint(self, index):
# size =QtWidgets.QTabBar.tabSizeHint(self, index)
# w = int(self.width()/self.count())
# return QtCore.QSize(w, size.height())
class FCDetachableTab(QtWidgets.QTabWidget):
"""
From here:
https://stackoverflow.com/questions/47267195/in-pyqt4-is-it-possible-to-detach-tabs-from-a-qtabwidget
"""
tab_detached = QtCore.pyqtSignal(str)
tab_attached = QtCore.pyqtSignal(str)
def __init__(self, protect=None, protect_by_name=None, parent=None):
super().__init__(parent=parent)
self.tabBar = self.FCTabBar(self)
self.tabBar.onMoveTabSignal.connect(self.moveTab)
self.tabBar.onCloseTabSignal.connect(self.on_closetab_middle_button)
self.tabBar.detachedTabDropSignal.connect(self.detachedTabDrop)
self.set_detachable(val=True)
self.setTabBar(self.tabBar)
# Used to keep a reference to detached tabs since their QMainWindow
# does not have a parent
self.detachedTabs = {}
# a way to make sure that tabs can't be closed after they attach to the parent tab
self.protect_tab = True if protect is not None and protect is True else False
self.protect_by_name = protect_by_name if isinstance(protect_by_name, list) else None
# Close all detached tabs if the application is closed explicitly
QtWidgets.qApp.aboutToQuit.connect(self.closeDetachedTabs) # @UndefinedVariable
# used by the property self.useOldIndex(param)
self.use_old_index = None
self.old_index = None
self.setTabsClosable(True)
self.tabCloseRequested.connect(self.closeTab)
def set_rmb_callback(self, callback):
"""
:param callback: Function to call on right mouse click on tab
:type callback: func
:return: None
"""
self.tabBar.right_click.connect(callback)
def set_detachable(self, val=True):
try:
self.tabBar.onDetachTabSignal.disconnect()
except TypeError:
pass
if val is True:
self.tabBar.onDetachTabSignal.connect(self.detachTab)
# the tab can be moved around
self.tabBar.can_be_dragged = True
else:
# the detached tab can't be moved
self.tabBar.can_be_dragged = False
return val
def setupContextMenu(self):
self.setContextMenuPolicy(QtCore.Qt.ActionsContextMenu)
def addContextMenu(self, entry, call_function, icon=None, initial_checked=False):
action_name = str(entry)
action = QtWidgets.QAction(self)
action.setCheckable(True)
action.setText(action_name)
if icon:
assert isinstance(icon, QtGui.QIcon), \
"Expected the argument to be QtGui.QIcon. Instead it is %s" % type(icon)
action.setIcon(icon)
action.setChecked(initial_checked)
self.addAction(action)
action.triggered.connect(call_function)
def useOldIndex(self, param):
if param:
self.use_old_index = True
else:
self.use_old_index = False
def deleteTab(self, currentIndex):
widget = self.widget(currentIndex)
if widget is not None:
widget.deleteLater()
self.removeTab(currentIndex)
def closeTab(self, currentIndex):
"""
Slot connected to the tabCloseRequested signal
:param currentIndex:
:return:
"""
self.removeTab(currentIndex)
def on_closetab_middle_button(self, current_index):
"""
:param current_index:
:return:
"""
# if tab is protected don't delete it
if self.tabBar.tabButton(current_index, QtWidgets.QTabBar.RightSide) is not None:
self.removeTab(current_index)
def protectTab(self, currentIndex):
# self.FCTabBar().setTabButton(currentIndex, QtWidgets.QTabBar.RightSide, None)
self.tabBar.setTabButton(currentIndex, QtWidgets.QTabBar.RightSide, None)
def setMovable(self, movable):
"""
The default movable functionality of QTabWidget must remain disabled
so as not to conflict with the added features
:param movable:
:return:
"""
pass
@pyqtSlot(int, int)
def moveTab(self, fromIndex, toIndex):
"""
Move a tab from one position (index) to another
:param fromIndex: the original index location of the tab
:param toIndex: the new index location of the tab
:return:
"""
widget = self.widget(fromIndex)
icon = self.tabIcon(fromIndex)
text = self.tabText(fromIndex)
self.removeTab(fromIndex)
self.insertTab(toIndex, widget, icon, text)
self.setCurrentIndex(toIndex)
# @pyqtSlot(int, QtCore.QPoint)
def detachTab(self, index, point):
"""
Detach the tab by removing it's contents and placing them in
a DetachedTab window
:param index: the index location of the tab to be detached
:param point: the screen position for creating the new DetachedTab window
:return:
"""
self.old_index = index
# Get the tab content and add name FlatCAM to the tab so we know on which app is this tab linked
name = "FlatCAM " + self.tabText(index)
icon = self.tabIcon(index)
if icon.isNull():
icon = self.window().windowIcon()
contentWidget = self.widget(index)
try:
contentWidgetRect = contentWidget.frameGeometry()
except AttributeError:
return
# Create a new detached tab window
detachedTab = self.FCDetachedTab(name, contentWidget)
detachedTab.setWindowModality(QtCore.Qt.NonModal)
detachedTab.setWindowIcon(icon)
detachedTab.setGeometry(contentWidgetRect)
detachedTab.onCloseSignal.connect(self.attachTab)
detachedTab.onDropSignal.connect(self.tabBar.detachedTabDrop)
detachedTab.move(point)
detachedTab.show()
# Create a reference to maintain access to the detached tab
self.detachedTabs[name] = detachedTab
self.tab_detached.emit(name)
def attachTab(self, contentWidget, name, icon, insertAt=None):
"""
Re-attach the tab by removing the content from the DetachedTab window,
closing it, and placing the content back into the DetachableTabWidget
:param contentWidget: the content widget from the DetachedTab window
:param name: the name of the detached tab
:param icon: the window icon for the detached tab
:param insertAt: insert the re-attached tab at the given index
:return:
"""
old_name = name
# Make the content widget a child of this widget
contentWidget.setParent(self)
# make sure that we strip the 'FlatCAM' part of the detached name otherwise the tab name will be too long
name = name.partition(' ')[2]
# helps in restoring the tab to the same index that it was before was detached
insert_index = self.old_index if self.use_old_index is True else insertAt
# Create an image from the given icon (for comparison)
if not icon.isNull():
try:
tabIconPixmap = icon.pixmap(icon.availableSizes()[0])
tabIconImage = tabIconPixmap.toImage()
except IndexError:
tabIconImage = None
else:
tabIconImage = None
# Create an image of the main window icon (for comparison)
if not icon.isNull():
try:
windowIconPixmap = self.window().windowIcon().pixmap(icon.availableSizes()[0])
windowIconImage = windowIconPixmap.toImage()
except IndexError:
windowIconImage = None
else:
windowIconImage = None
# Determine if the given image and the main window icon are the same.
# If they are, then do not add the icon to the tab
if tabIconImage == windowIconImage:
if insert_index is None:
index = self.addTab(contentWidget, name)
else:
index = self.insertTab(insert_index, contentWidget, name)
else:
if insert_index is None:
index = self.addTab(contentWidget, icon, name)
else:
index = self.insertTab(insert_index, contentWidget, icon, name)
obj_name = contentWidget.objectName()
self.tab_attached.emit(obj_name)
# on reattaching the tab if protect is true then the closure button is not added
if self.protect_tab is True:
self.protectTab(index)
# on reattaching the tab disable the closure button for the tabs with the name in the self.protect_by_name list
if self.protect_by_name is not None:
for tab_name in self.protect_by_name:
for index in range(self.count()):
if str(tab_name) == str(self.tabText(index)):
self.protectTab(index)
# Make this tab the current tab
if index > -1:
self.setCurrentIndex(insert_index) if self.use_old_index else self.setCurrentIndex(index)
# Remove the reference
# Unix-like OS's crash with segmentation fault after this. FOr whatever reason, they loose reference
if sys.platform == 'win32':
try:
del self.detachedTabs[old_name]
except KeyError:
pass
def removeTabByName(self, name):
"""
Remove the tab with the given name, even if it is detached
:param name: the name of the tab to be removed
:return:
"""
# Remove the tab if it is attached
attached = False
for index in range(self.count()):
if str(name) == str(self.tabText(index)):
self.removeTab(index)
attached = True
break
# If the tab is not attached, close it's window and
# remove the reference to it
if not attached:
for key in self.detachedTabs:
if str(name) == str(key):
self.detachedTabs[key].onCloseSignal.disconnect()
self.detachedTabs[key].close()
del self.detachedTabs[key]
break
@QtCore.pyqtSlot(str, int, QtCore.QPoint)
def detachedTabDrop(self, name, index, dropPos):
"""
Handle dropping of a detached tab inside the DetachableTabWidget
:param name: the name of the detached tab
:param index: the index of an existing tab (if the tab bar
# determined that the drop occurred on an
# existing tab)
:param dropPos: the mouse cursor position when the drop occurred
:return:
"""
# If the drop occurred on an existing tab, insert the detached
# tab at the existing tab's location
if index > -1:
# Create references to the detached tab's content and icon
contentWidget = self.detachedTabs[name].contentWidget
icon = self.detachedTabs[name].windowIcon()
# Disconnect the detached tab's onCloseSignal so that it
# does not try to re-attach automatically
self.detachedTabs[name].onCloseSignal.disconnect()
# Close the detached
self.detachedTabs[name].close()
# Re-attach the tab at the given index
self.attachTab(contentWidget, name, icon, index)
# If the drop did not occur on an existing tab, determine if the drop
# occurred in the tab bar area (the area to the side of the QTabBar)
else:
# Find the drop position relative to the DetachableTabWidget
tabDropPos = self.mapFromGlobal(dropPos)
# If the drop position is inside the DetachableTabWidget...
if self.rect().contains(tabDropPos):
# If the drop position is inside the tab bar area (the
# area to the side of the QTabBar) or there are not tabs
# currently attached...
if tabDropPos.y() < self.tabBar.height() or self.count() == 0:
# Close the detached tab and allow it to re-attach
# automatically
self.detachedTabs[name].close()
def closeDetachedTabs(self):
"""
Close all tabs that are currently detached.
:return:
"""
listOfDetachedTabs = []
for key in self.detachedTabs:
listOfDetachedTabs.append(self.detachedTabs[key])
for detachedTab in listOfDetachedTabs:
detachedTab.close()
class FCDetachedTab(QtWidgets.QMainWindow):
"""
When a tab is detached, the contents are placed into this QMainWindow. The tab
can be re-attached by closing the dialog or by dragging the window into the tab bar
"""
onCloseSignal = QtCore.pyqtSignal(QtWidgets.QWidget, str, QtGui.QIcon)
onDropSignal = QtCore.pyqtSignal(str, QtCore.QPoint)
def __init__(self, name, contentWidget):
QtWidgets.QMainWindow.__init__(self, None)
self.setObjectName(name)
self.setWindowTitle(name)
self.contentWidget = contentWidget
self.setCentralWidget(self.contentWidget)
self.contentWidget.show()
self.windowDropFilter = self.WindowDropFilter()
self.installEventFilter(self.windowDropFilter)
self.windowDropFilter.onDropSignal.connect(self.windowDropSlot)
@QtCore.pyqtSlot(QtCore.QPoint)
def windowDropSlot(self, dropPos):
"""
Handle a window drop event
:param dropPos: the mouse cursor position of the drop
:return:
"""
self.onDropSignal.emit(self.objectName(), dropPos)
def closeEvent(self, event):
"""
If the window is closed, emit the onCloseSignal and give the
content widget back to the DetachableTabWidget
:param event: a close event
:return:
"""
self.onCloseSignal.emit(self.contentWidget, self.objectName(), self.windowIcon())
class WindowDropFilter(QtCore.QObject):
"""
An event filter class to detect a QMainWindow drop event
"""
onDropSignal = QtCore.pyqtSignal(QtCore.QPoint)
def __init__(self):
QtCore.QObject.__init__(self)
self.lastEvent = None
def eventFilter(self, obj, event):
"""
Detect a QMainWindow drop event by looking for a NonClientAreaMouseMove (173)
event that immediately follows a Move event
:param obj: the object that generated the event
:param event: the current event
:return:
"""
# If a NonClientAreaMouseMove (173) event immediately follows a Move event...
if self.lastEvent == QtCore.QEvent.Move and event.type() == 173:
# Determine the position of the mouse cursor and emit it with the
# onDropSignal
mouseCursor = QtGui.QCursor()
dropPos = mouseCursor.pos()
self.onDropSignal.emit(dropPos)
self.lastEvent = event.type()
return True
else:
self.lastEvent = event.type()
return False
class FCTabBar(QtWidgets.QTabBar):
onDetachTabSignal = QtCore.pyqtSignal(int, QtCore.QPoint)
onMoveTabSignal = QtCore.pyqtSignal(int, int)
detachedTabDropSignal = QtCore.pyqtSignal(str, int, QtCore.QPoint)
onCloseTabSignal = QtCore.pyqtSignal(int)
right_click = QtCore.pyqtSignal(int)
def __init__(self, parent=None):
QtWidgets.QTabBar.__init__(self, parent)
self.setAcceptDrops(True)
self.setElideMode(QtCore.Qt.ElideRight)
self.setSelectionBehaviorOnRemove(QtWidgets.QTabBar.SelectLeftTab)
self.prev_index = -1
self.dragStartPos = QtCore.QPoint()
self.dragDropedPos = QtCore.QPoint()
self.mouseCursor = QtGui.QCursor()
self.dragInitiated = False
# set this to False and the tab will no longer be displayed as detached
self.can_be_dragged = True
def mouseDoubleClickEvent(self, event):
"""
Send the onDetachTabSignal when a tab is double clicked
:param event: a mouse double click event
:return:
"""
event.accept()
self.onDetachTabSignal.emit(self.tabAt(event.pos()), self.mouseCursor.pos())
def mousePressEvent(self, event):
"""
Set the starting position for a drag event when the left mouse button is pressed.
Start detection of a right mouse click.
:param event: a mouse press event
:return:
"""
if event.button() == QtCore.Qt.LeftButton:
self.dragStartPos = event.pos()
elif event.button() == QtCore.Qt.RightButton:
self.prev_index = self.tabAt(event.pos())
self.dragDropedPos.setX(0)
self.dragDropedPos.setY(0)
self.dragInitiated = False
QtWidgets.QTabBar.mousePressEvent(self, event)
def mouseReleaseEvent(self, event):
"""
Finish the detection of the right mouse click on the tab
:param event: a mouse press event
:return:
"""
if event.button() == QtCore.Qt.RightButton and self.prev_index == self.tabAt(event.pos()):
self.right_click.emit(self.prev_index)
if event.button() == QtCore.Qt.MiddleButton:
self.onCloseTabSignal.emit(int(self.tabAt(event.pos())))
self.prev_index = -1
QtWidgets.QTabBar.mouseReleaseEvent(self, event)
def mouseMoveEvent(self, event):
"""
Determine if the current movement is a drag. If it is, convert it into a QDrag. If the
drag ends inside the tab bar, emit an onMoveTabSignal. If the drag ends outside the tab
bar, emit an onDetachTabSignal.
:param event: a mouse move event
:return:
"""
# Determine if the current movement is detected as a drag
if not self.dragStartPos.isNull() and \
((event.pos() - self.dragStartPos).manhattanLength() < QtWidgets.QApplication.startDragDistance()):
self.dragInitiated = True
# If the current movement is a drag initiated by the left button
if (event.buttons() & QtCore.Qt.LeftButton) and self.dragInitiated and self.can_be_dragged:
# Stop the move event
finishMoveEvent = QtGui.QMouseEvent(
QtCore.QEvent.MouseMove, event.pos(), QtCore.Qt.NoButton, QtCore.Qt.NoButton, QtCore.Qt.NoModifier
)
QtWidgets.QTabBar.mouseMoveEvent(self, finishMoveEvent)
# Convert the move event into a drag
drag = QtGui.QDrag(self)
mimeData = QtCore.QMimeData()
# mimeData.setData('action', 'application/tab-detach')
drag.setMimeData(mimeData)
# screen = QScreen(self.parentWidget().currentWidget().winId())
# Create the appearance of dragging the tab content
try:
pixmap = self.parent().widget(self.tabAt(self.dragStartPos)).grab()
except Exception as e:
log.debug("GUIElements.FCDetachable. FCTabBar.mouseMoveEvent() --> %s" % str(e))
return
targetPixmap = QtGui.QPixmap(pixmap.size())
targetPixmap.fill(QtCore.Qt.transparent)
painter = QtGui.QPainter(targetPixmap)
painter.setOpacity(0.85)
painter.drawPixmap(0, 0, pixmap)
painter.end()
drag.setPixmap(targetPixmap)
# Initiate the drag
dropAction = drag.exec_(QtCore.Qt.MoveAction | QtCore.Qt.CopyAction)
# For Linux: Here, drag.exec_() will not return MoveAction on Linux. So it
# must be set manually
if self.dragDropedPos.x() != 0 and self.dragDropedPos.y() != 0:
dropAction = QtCore.Qt.MoveAction
# If the drag completed outside of the tab bar, detach the tab and move
# the content to the current cursor position
if dropAction == QtCore.Qt.IgnoreAction:
event.accept()
self.onDetachTabSignal.emit(self.tabAt(self.dragStartPos), self.mouseCursor.pos())
# Else if the drag completed inside the tab bar, move the selected tab to the new position
elif dropAction == QtCore.Qt.MoveAction:
if not self.dragDropedPos.isNull():
event.accept()
self.onMoveTabSignal.emit(self.tabAt(self.dragStartPos), self.tabAt(self.dragDropedPos))
else:
QtWidgets.QTabBar.mouseMoveEvent(self, event)
def dragEnterEvent(self, event):
"""
Determine if the drag has entered a tab position from another tab position
:param event: a drag enter event
:return:
"""
mimeData = event.mimeData()
# formats = mcd imeData.formats()
# if formats.contains('action') and mimeData.data('action') == 'application/tab-detach':
# event.acceptProposedAction()
QtWidgets.QTabBar.dragMoveEvent(self, event)
def dropEvent(self, event):
"""
Get the position of the end of the drag
:param event: a drop event
:return:
"""
self.dragDropedPos = event.pos()
QtWidgets.QTabBar.dropEvent(self, event)
def detachedTabDrop(self, name, dropPos):
"""
Determine if the detached tab drop event occurred on an existing tab,
then send the event to the DetachableTabWidget
:param name:
:param dropPos:
:return:
"""
tabDropPos = self.mapFromGlobal(dropPos)
index = self.tabAt(tabDropPos)
self.detachedTabDropSignal.emit(name, index, dropPos)
class FCDetachableTab2(FCDetachableTab):
tab_closed_signal = QtCore.pyqtSignal(object, int)
def __init__(self, protect=None, protect_by_name=None, parent=None):
super(FCDetachableTab2, self).__init__(protect=protect, protect_by_name=protect_by_name, parent=parent)
try:
self.tabBar.onCloseTabSignal.disconnect()
except TypeError:
pass
self.tabBar.onCloseTabSignal.connect(self.on_closetab_middle_button)
def on_closetab_middle_button(self, current_index):
"""
:param current_index:
:return:
"""
# if tab is protected don't delete it
if self.tabBar.tabButton(current_index, QtWidgets.QTabBar.RightSide) is not None:
self.closeTab(current_index)
def closeTab(self, currentIndex):
"""
Slot connected to the tabCloseRequested signal
:param currentIndex:
:return:
"""
# idx = self.currentIndex()
tab_name = self.widget(currentIndex).objectName()
self.tab_closed_signal.emit(tab_name, currentIndex)
self.removeTab(currentIndex)
class VerticalScrollArea(QtWidgets.QScrollArea):
"""
This widget extends QtGui.QScrollArea to make a vertical-only
scroll area that also expands horizontally to accommodate
its contents.
"""
def __init__(self, parent=None):
QtWidgets.QScrollArea.__init__(self, parent=parent)
self.setWidgetResizable(True)
self.setHorizontalScrollBarPolicy(QtCore.Qt.ScrollBarAlwaysOff)
self.setVerticalScrollBarPolicy(QtCore.Qt.ScrollBarAsNeeded)
def eventFilter(self, source, event):
"""
The event filter gets automatically installed when setWidget()
is called.
:param source:
:param event:
:return:
"""
if event.type() == QtCore.QEvent.Resize and source == self.widget():
# log.debug("VerticalScrollArea: Widget resized:")
# log.debug(" minimumSizeHint().width() = %d" % self.widget().minimumSizeHint().width())
# log.debug(" verticalScrollBar().width() = %d" % self.verticalScrollBar().width())
self.setMinimumWidth(self.widget().sizeHint().width() +
self.verticalScrollBar().sizeHint().width())
# if self.verticalScrollBar().isVisible():
# log.debug(" Scroll bar visible")
# self.setMinimumWidth(self.widget().minimumSizeHint().width() +
# self.verticalScrollBar().width())
# else:
# log.debug(" Scroll bar hidden")
# self.setMinimumWidth(self.widget().minimumSizeHint().width())
return QtWidgets.QWidget.eventFilter(self, source, event)
class OptionalInputSection:
def __init__(self, cb, optinputs, logic=True):
"""
Associates the a checkbox with a set of inputs.
:param cb: Checkbox that enables the optional inputs.
:param optinputs: List of widgets that are optional.
:param logic: When True the logic is normal, when False the logic is in reverse
It means that for logic=True, when the checkbox is checked the widgets are Enabled, and
for logic=False, when the checkbox is checked the widgets are Disabled
:return:
"""
assert isinstance(cb, FCCheckBox), \
"Expected an FCCheckBox, got %s" % type(cb)
self.cb = cb
self.optinputs = optinputs
self.logic = logic
self.on_cb_change()
self.cb.stateChanged.connect(self.on_cb_change)
def on_cb_change(self):
if self.cb.checkState():
for widget in self.optinputs:
if self.logic is True:
widget.setEnabled(True)
else:
widget.setEnabled(False)
else:
for widget in self.optinputs:
if self.logic is True:
widget.setEnabled(False)
else:
widget.setEnabled(True)
class OptionalHideInputSection:
def __init__(self, cb, optinputs, logic=True):
"""
Associates the a checkbox with a set of inputs.
:param cb: Checkbox that enables the optional inputs.
:type cb: QtWidgets.QCheckBox
:param optinputs: List of widgets that are optional.
:type optinputs: list
:param logic: When True the logic is normal, when False the logic is in reverse
It means that for logic=True, when the checkbox is checked the widgets are Enabled, and
for logic=False, when the checkbox is checked the widgets are Disabled
:type logic: bool
:return:
"""
assert isinstance(cb, FCCheckBox), \
"Expected an FCCheckBox, got %s" % type(cb)
self.cb = cb
self.optinputs = optinputs
self.logic = logic
self.on_cb_change()
self.cb.stateChanged.connect(self.on_cb_change)
def on_cb_change(self):
if self.cb.checkState():
for widget in self.optinputs:
if self.logic is True:
widget.show()
else:
widget.hide()
else:
for widget in self.optinputs:
if self.logic is True:
widget.hide()
else:
widget.show()
class FCTable(QtWidgets.QTableWidget):
drag_drop_sig = QtCore.pyqtSignal(object, int)
lost_focus = QtCore.pyqtSignal()
def __init__(self, drag_drop=False, protected_rows=None, parent=None):
super(FCTable, self).__init__(parent)
palette = QtGui.QPalette()
palette.setColor(QtGui.QPalette.Inactive, QtGui.QPalette.Highlight,
palette.color(QtGui.QPalette.Active, QtGui.QPalette.Highlight))
# make inactive rows text some color as active; may be useful in the future
palette.setColor(QtGui.QPalette.Inactive, QtGui.QPalette.HighlightedText,
palette.color(QtGui.QPalette.Active, QtGui.QPalette.HighlightedText))
self.setPalette(palette)
if drag_drop:
self.setDragEnabled(True)
self.setAcceptDrops(True)
self.viewport().setAcceptDrops(True)
self.setDragDropOverwriteMode(False)
self.setDropIndicatorShown(True)
self.setSelectionMode(QtWidgets.QAbstractItemView.ExtendedSelection)
self.setSelectionBehavior(QtWidgets.QAbstractItemView.SelectRows)
self.setDragDropMode(QtWidgets.QAbstractItemView.InternalMove)
self.rows_not_for_drag_and_drop = []
if protected_rows:
try:
for r in protected_rows:
self.rows_not_for_drag_and_drop.append(r)
except TypeError:
self.rows_not_for_drag_and_drop = [protected_rows]
self.rows_to_move = []
self.rows_dragged = None
def sizeHint(self):
default_hint_size = super(FCTable, self).sizeHint()
return QtCore.QSize(EDIT_SIZE_HINT, default_hint_size.height())
def getHeight(self):
height = self.horizontalHeader().height()
for i in range(self.rowCount()):
height += self.rowHeight(i)
return height
def getWidth(self):
width = self.verticalHeader().width()
for i in range(self.columnCount()):
width += self.columnWidth(i)
return width
# color is in format QtGui.Qcolor(r, g, b, alpha) with or without alpha
def setColortoRow(self, rowIndex, color):
for j in range(self.columnCount()):
self.item(rowIndex, j).setBackground(color)
# if user is clicking an blank area inside the QTableWidget it will deselect currently selected rows
def mousePressEvent(self, event):
clicked_item = self.itemAt(event.pos())
if not clicked_item:
self.clearSelection()
self.clearFocus()
else:
self.rows_dragged = [it.row() for it in self.selectedItems()]
QtWidgets.QTableWidget.mousePressEvent(self, event)
def focusOutEvent(self, event):
self.lost_focus.emit()
super().focusOutEvent(event)
def setupContextMenu(self):
self.setContextMenuPolicy(QtCore.Qt.ActionsContextMenu)
def addContextMenu(self, entry, call_function, icon=None):
action_name = str(entry)
action = QtWidgets.QAction(self)
action.setText(action_name)
if icon:
assert isinstance(icon, QtGui.QIcon), \
"Expected the argument to be QtGui.QIcon. Instead it is %s" % type(icon)
action.setIcon(icon)
self.addAction(action)
action.triggered.connect(call_function)
# def dropEvent(self, event: QtGui.QDropEvent):
# if not event.isAccepted() and event.source() == self:
# drop_row = self.drop_on(event)
#
# rows = sorted(set(item.row() for item in self.selectedItems()))
# # rows_to_move = [
# # [QtWidgets.QTableWidgetItem(self.item(row_index, column_index))
# # for column_index in range(self.columnCount())] for row_index in rows
# # ]
# self.rows_to_move[:] = []
# for row_index in rows:
# row_items = []
# for column_index in range(self.columnCount()):
# r_item = self.item(row_index, column_index)
# w_item = self.cellWidget(row_index, column_index)
#
# if r_item is not None:
# row_items.append(QtWidgets.QTableWidgetItem(r_item))
# elif w_item is not None:
# row_items.append(w_item)
#
# self.rows_to_move.append(row_items)
#
# for row_index in reversed(rows):
# self.removeRow(row_index)
# if row_index < drop_row:
# drop_row -= 1
#
# for row_index, data in enumerate(self.rows_to_move):
# row_index += drop_row
# self.insertRow(row_index)
#
# for column_index, column_data in enumerate(data):
# if isinstance(column_data, QtWidgets.QTableWidgetItem):
# self.setItem(row_index, column_index, column_data)
# else:
# self.setCellWidget(row_index, column_index, column_data)
#
# event.accept()
# for row_index in range(len(self.rows_to_move)):
# self.item(drop_row + row_index, 0).setSelected(True)
# self.item(drop_row + row_index, 1).setSelected(True)
#
# super().dropEvent(event)
#
# def drop_on(self, event):
# ret_val = False
# index = self.indexAt(event.pos())
# if not index.isValid():
# return self.rowCount()
#
# ret_val = index.row() + 1 if self.is_below(event.pos(), index) else index.row()
#
# return ret_val
#
# def is_below(self, pos, index):
# rect = self.visualRect(index)
# margin = 2
# if pos.y() - rect.top() < margin:
# return False
# elif rect.bottom() - pos.y() < margin:
# return True
# # noinspection PyTypeChecker
# return rect.contains(pos, True) and not (
# int(self.model().flags(index)) & Qt.ItemIsDropEnabled) and pos.y() >= rect.center().y()
def dragEnterEvent(self, e: QtGui.QDragEnterEvent) -> None:
if e.source() == self:
self.blockSignals(True)
e.accept()
else:
e.ignore()
# def dropEvent(self, event):
# """
# From here: https://stackoverflow.com/questions/26227885/drag-and-drop-rows-within-qtablewidget
# :param event:
# :return:
# """
# if event.source() == self:
# event.acceptProposedAction()
#
# # create a set of the selected rows that are dragged to another position
# rows = set([mi.row() for mi in self.selectedIndexes()])
# # if one of the selected rows for drag and drop is within the protected list, return
# for r in rows:
# if r in self.rows_not_for_drag_and_drop:
# return
#
# drop_index = self.indexAt(event.pos())
# # row where we drop the selected rows
# targetRow = drop_index.row()
#
# # drop_indicator = self.dropIndicatorPosition()
# # if targetRow != -1:
# # if drop_indicator == QtWidgets.QAbstractItemView.AboveItem:
# # print("above")
# # elif drop_indicator == QtWidgets.QAbstractItemView.BelowItem:
# # print("below")
# # elif drop_indicator == QtWidgets.QAbstractItemView.OnItem:
# # print("on")
# # elif drop_indicator == QtWidgets.QAbstractItemView.OnViewport:
# # print("on viewport")
#
# # if we drop on one row from the already dragged rows
# rows.discard(targetRow)
# rows = sorted(rows)
# if not rows:
# return
# if targetRow == -1:
# targetRow = self.rowCount()
#
# # insert empty rows at the index of the targetRow
# for _ in range(len(rows)):
# self.insertRow(targetRow)
#
# rowMapping = {} # Src row to target row.
# for idx, row in enumerate(rows):
# if row < targetRow:
# rowMapping[row] = targetRow + idx
# else:
# rowMapping[row + len(rows)] = targetRow + idx
#
# colCount = self.columnCount()
# for srcRow, tgtRow in sorted(rowMapping.items()):
# for col in range(0, colCount):
# new_item = self.item(srcRow, col)
# if new_item is None:
# new_item = self.cellWidget(srcRow, col)
#
# if isinstance(new_item, QtWidgets.QTableWidgetItem):
# new_item = self.takeItem(srcRow, col)
# self.setItem(tgtRow, col, new_item)
# else:
# self.setCellWidget(tgtRow, col, new_item)
#
# for row in reversed(sorted(rowMapping.keys())):
# self.removeRow(row)
#
# self.blockSignals(False)
# self.drag_drop_sig.emit(int(self.row_dragged), int(targetRow))
# else:
# event.ignore()
def dropEvent(self, event: QtGui.QDropEvent):
if not event.isAccepted() and event.source() == self:
drop_row = self.drop_on(event)
rows = sorted(set(item.row() for item in self.selectedItems()))
rows_to_move = []
for row_index in rows:
temp_lst = []
for column_index in range(self.columnCount()):
col_data = self.item(row_index, column_index)
if isinstance(col_data, QtWidgets.QTableWidgetItem):
table_item = QtWidgets.QTableWidgetItem(col_data)
else:
old_item = self.cellWidget(row_index, column_index)
if isinstance(old_item, QtWidgets.QComboBox):
table_item = FCComboBox()
items = [old_item.itemText(i) for i in range(old_item.count())]
table_item.addItems(items)
table_item.setCurrentIndex(old_item.currentIndex())
elif isinstance(old_item, QtWidgets.QCheckBox):
table_item = FCCheckBox()
table_item.setChecked(old_item.isChecked())
table_item.setText(old_item.text())
else:
table_item = None
temp_lst.append(table_item)
rows_to_move.append(temp_lst)
for row_index in reversed(rows):
self.removeRow(row_index)
if row_index < drop_row:
drop_row -= 1
for row_index, data in enumerate(rows_to_move):
row_index += drop_row
self.insertRow(row_index)
for column_index, column_data in enumerate(data):
if column_data is None:
continue
if isinstance(column_data, QtWidgets.QTableWidgetItem):
self.setItem(row_index, column_index, column_data)
else:
self.setCellWidget(row_index, column_index, column_data)
event.accept()
for row_index in range(len(rows_to_move)):
self.item(drop_row + row_index, 0).setSelected(True)
self.item(drop_row + row_index, 1).setSelected(True)
self.blockSignals(False)
self.drag_drop_sig.emit(self.rows_dragged, int(drop_row))
self.blockSignals(False)
self.resizeRowsToContents()
super().dropEvent(event)
def drop_on(self, event):
index = self.indexAt(event.pos())
if not index.isValid():
return self.rowCount()
return index.row() + 1 if self.is_below(event.pos(), index) else index.row()
def is_below(self, pos, index):
rect = self.visualRect(index)
margin = 2
if pos.y() - rect.top() < margin:
return False
elif rect.bottom() - pos.y() < margin:
return True
# noinspection PyTypeChecker
return rect.contains(pos, True) and not (int(self.model().flags(index)) & Qt.ItemIsDropEnabled) and \
pos.y() >= rect.center().y()
class SpinBoxDelegate(QtWidgets.QItemDelegate):
def __init__(self, units):
super(SpinBoxDelegate, self).__init__()
self.units = units
self.current_value = None
def createEditor(self, parent, option, index):
editor = QtWidgets.QDoubleSpinBox(parent)
editor.setMinimum(-999.9999)
editor.setMaximum(999.9999)
if self.units == 'MM':
editor.setDecimals(2)
else:
editor.setDecimals(3)
return editor
def setEditorData(self, spinBox, index):
try:
value = float(index.model().data(index, Qt.EditRole))
except ValueError:
value = self.current_value
# return
spinBox.setValue(value)
def setModelData(self, spinBox, model, index):
spinBox.interpretText()
value = spinBox.value()
self.current_value = value
model.setData(index, value, Qt.EditRole)
def updateEditorGeometry(self, editor, option, index):
editor.setGeometry(option.rect)
@staticmethod
def setDecimals(spinbox, digits):
spinbox.setDecimals(digits)
class Dialog_box(QtWidgets.QWidget):
def __init__(self, title=None, label=None, icon=None, initial_text=None):
"""
:param title: string with the window title
:param label: string with the message inside the dialog box
"""
super(Dialog_box, self).__init__()
if initial_text is None:
self.location = str((0, 0))
else:
self.location = initial_text
self.ok = False
self.dialog_box = QtWidgets.QInputDialog()
self.dialog_box.setMinimumWidth(290)
self.setWindowIcon(icon)
self.location, self.ok = self.dialog_box.getText(self, title, label,
text=str(self.location).replace('(', '').replace(')', ''))
self.readyToEdit = True
def mousePressEvent(self, e, parent=None):
super(Dialog_box, self).mousePressEvent(e) # required to deselect on 2e click
if self.readyToEdit:
self.lineEdit().selectAll()
self.readyToEdit = False
def focusOutEvent(self, e):
# don't focus out if the user requests an popup menu
if e.reason() != QtCore.Qt.PopupFocusReason:
super(Dialog_box, self).focusOutEvent(e) # required to remove cursor on focusOut
self.lineEdit().deselect()
self.readyToEdit = True
class DialogBoxRadio(QtWidgets.QDialog):
def __init__(self, title=None, label=None, icon=None, initial_text=None, reference='abs', parent=None):
"""
:param title: string with the window title
:param label: string with the message inside the dialog box
"""
super(DialogBoxRadio, self).__init__(parent=parent)
if initial_text is None:
self.location = str((0, 0))
else:
self.location = initial_text
self.ok = False
self.setWindowIcon(icon)
self.setWindowTitle(str(title))
self.form = QtWidgets.QFormLayout(self)
self.ref_label = QtWidgets.QLabel('%s:' % _("Reference"))
self.ref_label.setToolTip(
_("The reference can be:\n"
"- Absolute -> the reference point is point (0,0)\n"
"- Relative -> the reference point is the mouse position before Jump")
)
self.ref_radio = RadioSet([
{"label": _("Abs"), "value": "abs"},
{"label": _("Relative"), "value": "rel"}
], orientation='horizontal', stretch=False)
self.ref_radio.set_value(reference)
self.form.addRow(self.ref_label, self.ref_radio)
self.form.addRow(QtWidgets.QLabel(''))
self.wdg_label = QtWidgets.QLabel('%s' % str(label))
self.form.addRow(self.wdg_label)
self.loc_label = QtWidgets.QLabel('%s:' % _("Location"))
self.loc_label.setToolTip(
_("The Location value is a tuple (x,y).\n"
"If the reference is Absolute then the Jump will be at the position (x,y).\n"
"If the reference is Relative then the Jump will be at the (x,y) distance\n"
"from the current mouse location point.")
)
self.lineEdit = EvalEntry(parent=self)
self.lineEdit.setText(str(self.location).replace('(', '').replace(')', ''))
self.lineEdit.selectAll()
self.lineEdit.setFocus()
self.form.addRow(self.loc_label, self.lineEdit)
self.button_box = QtWidgets.QDialogButtonBox(QtWidgets.QDialogButtonBox.Ok | QtWidgets.QDialogButtonBox.Cancel,
orientation=Qt.Horizontal, parent=self)
self.form.addRow(self.button_box)
self.button_box.button(QtWidgets.QDialogButtonBox.Ok).setText(_("Ok"))
self.button_box.button(QtWidgets.QDialogButtonBox.Cancel).setText(_("Cancel"))
self.button_box.accepted.connect(self.accept)
self.button_box.rejected.connect(self.reject)
self.readyToEdit = True
if self.exec_() == QtWidgets.QDialog.Accepted:
self.ok = True
self.location = self.lineEdit.text()
self.reference = self.ref_radio.get_value()
else:
self.ok = False
class _BrowserTextEdit(QTextEdit):
def __init__(self, version, app=None):
QTextEdit.__init__(self)
self.menu = None
self.version = version
self.app = app
def contextMenuEvent(self, event):
# self.menu = self.createStandardContextMenu(event.pos())
self.menu = QtWidgets.QMenu()
tcursor = self.textCursor()
txt = tcursor.selectedText()
copy_action = QAction('%s\t%s' % (_("Copy"), _('Ctrl+C')), self)
self.menu.addAction(copy_action)
copy_action.triggered.connect(self.copy_text)
if txt == '':
copy_action.setDisabled(True)
self.menu.addSeparator()
sel_all_action = QAction('%s\t%s' % (_("Select All"), _('Ctrl+A')), self)
self.menu.addAction(sel_all_action)
sel_all_action.triggered.connect(self.selectAll)
if self.app:
save_action = QAction('%s\t%s' % (_("Save Log"), _('Ctrl+S')), self)
# save_action.setShortcut(QKeySequence(Qt.Key_S))
self.menu.addAction(save_action)
save_action.triggered.connect(lambda: self.save_log(app=self.app))
clear_action = QAction('%s\t%s' % (_("Clear All"), _('Del')), self)
# clear_action.setShortcut(QKeySequence(Qt.Key_Delete))
self.menu.addAction(clear_action)
clear_action.triggered.connect(self.clear)
# if self.app:
# close_action = QAction(_("Close"), self)
# self.menu.addAction(close_action)
# close_action.triggered.connect(lambda: self.app.ui.shell_dock.hide())
self.menu.exec_(event.globalPos())
def keyPressEvent(self, event) -> None:
modifiers = QtWidgets.QApplication.keyboardModifiers()
key = event.key()
if modifiers == QtCore.Qt.ControlModifier:
# Select All
if key == QtCore.Qt.Key_A:
self.selectAll()
# Copy Text
elif key == QtCore.Qt.Key_C:
self.copy_text()
# Save Log
elif key == QtCore.Qt.Key_S:
if self.app:
self.save_log(app=self.app)
elif modifiers == QtCore.Qt.NoModifier:
# Clear all
if key == QtCore.Qt.Key_Delete:
self.clear()
# Shell toggle
if key == QtCore.Qt.Key_S:
self.app.ui.toggle_shell_ui()
def copy_text(self):
tcursor = self.textCursor()
clipboard = QtWidgets.QApplication.clipboard()
txt = tcursor.selectedText()
clipboard.clear()
clipboard.setText(txt)
def clear(self):
QTextEdit.clear(self)
text = "!FlatCAM %s? - %s" % (self.version, _("Type >help< to get started"))
text = html.escape(text)
# hack so I can make text bold because the escape method will replace the '<' and '>' signs with html code
text = text.replace('!', '')
text = text.replace('?', '')
text += '
'
self.moveCursor(QTextCursor.End)
self.insertHtml(text)
def save_log(self, app):
html_content = self.toHtml()
txt_content = self.toPlainText()
app.save_to_file(content_to_save=html_content, txt_content=txt_content)
class _ExpandableTextEdit(FCTextEdit):
"""
Class implements edit line, which expands themselves automatically
"""
historyNext = QtCore.pyqtSignal()
historyPrev = QtCore.pyqtSignal()
def __init__(self, termwidget, *args):
FCTextEdit.__init__(self, *args)
self.setStyleSheet("font: 9pt \"Courier\";")
self._fittedHeight = 1
self.textChanged.connect(self._fit_to_document)
self._fit_to_document()
self._termWidget = termwidget
self.completer = MyCompleter()
self.model = QtCore.QStringListModel()
self.completer.setModel(self.model)
self.set_model_data(keyword_list=[])
self.completer.insertText.connect(self.insertCompletion)
self.completer.popup().clicked.connect(self.insert_completion_click)
def set_model_data(self, keyword_list):
self.model.setStringList(keyword_list)
def insert_completion_click(self):
self.completer.insertText.emit(self.completer.getSelected())
self.completer.setCompletionMode(QCompleter.PopupCompletion)
def insertCompletion(self, completion):
tc = self.textCursor()
extra = (len(completion) - len(self.completer.completionPrefix()))
# don't insert if the word is finished but add a space instead
if extra == 0:
tc.insertText(' ')
self.completer.popup().hide()
return
tc.movePosition(QTextCursor.Left)
tc.movePosition(QTextCursor.EndOfWord)
tc.insertText(completion[-extra:])
# add a space after inserting the word
tc.insertText(' ')
self.setTextCursor(tc)
self.completer.popup().hide()
def focusInEvent(self, event):
if self.completer:
self.completer.setWidget(self)
QTextEdit.focusInEvent(self, event)
def keyPressEvent(self, event):
"""
Catch keyboard events. Process Enter, Up, Down
"""
key = event.key()
if (key == Qt.Key_Tab or key == Qt.Key_Return or key == Qt.Key_Enter) and self.completer.popup().isVisible():
self.completer.insertText.emit(self.completer.getSelected())
self.completer.setCompletionMode(QCompleter.PopupCompletion)
return
if event.matches(QKeySequence.InsertParagraphSeparator):
text = self.toPlainText()
if self._termWidget.is_command_complete(text):
self._termWidget.exec_current_command()
return
elif event.matches(QKeySequence.MoveToNextLine):
text = self.toPlainText()
cursor_pos = self.textCursor().position()
textBeforeEnd = text[cursor_pos:]
if len(textBeforeEnd.split('\n')) <= 1:
self.historyNext.emit()
return
elif event.matches(QKeySequence.MoveToPreviousLine):
text = self.toPlainText()
cursor_pos = self.textCursor().position()
text_before_start = text[:cursor_pos]
# lineCount = len(textBeforeStart.splitlines())
line_count = len(text_before_start.split('\n'))
if len(text_before_start) > 0 and \
(text_before_start[-1] == '\n' or text_before_start[-1] == '\r'):
line_count += 1
if line_count <= 1:
self.historyPrev.emit()
return
elif event.matches(QKeySequence.MoveToNextPage) or event.matches(QKeySequence.MoveToPreviousPage):
return self._termWidget.browser().keyPressEvent(event)
tc = self.textCursor()
QTextEdit.keyPressEvent(self, event)
tc.select(QTextCursor.WordUnderCursor)
cr = self.cursorRect()
if len(tc.selectedText()) > 0:
self.completer.setCompletionPrefix(tc.selectedText())
popup = self.completer.popup()
popup.setCurrentIndex(self.completer.completionModel().index(0, 0))
cr.setWidth(self.completer.popup().sizeHintForColumn(0)
+ self.completer.popup().verticalScrollBar().sizeHint().width())
self.completer.complete(cr)
else:
self.completer.popup().hide()
def sizeHint(self):
"""
QWidget sizeHint impelemtation
"""
hint = QTextEdit.sizeHint(self)
hint.setHeight(self._fittedHeight)
return hint
def _fit_to_document(self):
"""
Update widget height to fit all text
"""
documentsize = self.document().size().toSize()
self._fittedHeight = documentsize.height() + (self.height() - self.viewport().height())
self.setMaximumHeight(self._fittedHeight)
self.updateGeometry()
def insertFromMimeData(self, mime_data):
# Paste only plain text.
self.insertPlainText(mime_data.text())
class MyCompleter(QCompleter):
insertText = QtCore.pyqtSignal(str)
def __init__(self, parent=None):
QCompleter.__init__(self, parent=parent)
self.setCompletionMode(QCompleter.PopupCompletion)
self.highlighted.connect(self.setHighlighted)
self.lastSelected = ''
# self.popup().installEventFilter(self)
# def eventFilter(self, obj, event):
# if event.type() == QtCore.QEvent.Wheel and obj is self.popup():
# pass
# return False
def setHighlighted(self, text):
self.lastSelected = text
def getSelected(self):
return self.lastSelected
class FCTextAreaLineNumber(QtWidgets.QFrame):
textChanged = QtCore.pyqtSignal()
class NumberBar(QtWidgets.QWidget):
def __init__(self, edit):
QtWidgets.QWidget.__init__(self, edit)
self.edit = edit
self.adjustWidth(1)
def paintEvent(self, event):
self.edit.numberbarPaint(self, event)
QtWidgets.QWidget.paintEvent(self, event)
def adjustWidth(self, count):
# three spaces added to the width to make up for the space added in the line number
width = self.fontMetrics().width(str(count) + ' ')
if self.width() != width:
self.setFixedWidth(width)
def updateContents(self, rect, scroll):
if scroll:
self.scroll(0, scroll)
else:
# It would be nice to do
# self.update(0, rect.y(), self.width(), rect.height())
# But we can't because it will not remove the bold on the
# current line if word wrap is enabled and a new block is
# selected.
self.update()
class PlainTextEdit(FCPlainTextAreaExtended):
"""
TextEdit with line numbers and highlight
From here: https://nachtimwald.com/2009/08/19/better-qplaintextedit-with-line-numbers/
and from here: https://doc.qt.io/qt-5/qtwidgets-widgets-codeeditor-example.html
"""
def __init__(self, *args):
FCPlainTextAreaExtended.__init__(self, *args)
# self.setFrameStyle(QFrame.NoFrame)
self.setFrameStyle(QtWidgets.QFrame.NoFrame)
self.highlight()
# self.setLineWrapMode(QPlainTextEdit.NoWrap)
self.cursorPositionChanged.connect(self.highlight)
def highlight(self):
hi_selection = QTextEdit.ExtraSelection()
hi_selection.format.setBackground(self.palette().alternateBase())
hi_selection.format.setProperty(QtGui.QTextFormat.FullWidthSelection, True)
hi_selection.cursor = self.textCursor()
hi_selection.cursor.clearSelection()
self.setExtraSelections([hi_selection])
def numberbarPaint(self, number_bar, event):
font_metrics = self.fontMetrics()
current_line = self.document().findBlock(self.textCursor().position()).blockNumber() + 1
painter = QtGui.QPainter(number_bar)
painter.fillRect(event.rect(), QtCore.Qt.lightGray)
block = self.firstVisibleBlock()
line_count = int(block.blockNumber())
block_top = int(self.blockBoundingGeometry(block).translated(self.contentOffset()).top())
block_bottom = block_top + int(self.blockBoundingRect(block).height())
# Iterate over all visible text blocks in the document.
while block.isValid() and block_top <= event.rect().bottom():
line_count += 1
# Check if the position of the block is out side of the visible
# area.
if block.isVisible() and block_bottom >= event.rect().top():
# We want the line number for the selected line to be bold.
if line_count == current_line:
font = painter.font()
font.setBold(True)
painter.setPen(QtCore.Qt.blue)
painter.setFont(font)
else:
font = painter.font()
font.setBold(False)
painter.setPen(self.palette().base().color())
painter.setFont(font)
# Draw the line number right justified at the position of the line.
paint_rect = QtCore.QRect(0, block_top, number_bar.width(), font_metrics.height())
# I add some spaces to the line_count to prettify; make sure to remember adjust the width in the
# NumberBar() class above
painter.drawText(paint_rect, Qt.AlignRight, ' ' + str(line_count) + ' ')
block = block.next()
block_top = block_bottom
block_bottom = block_top + self.blockBoundingRect(block).height()
painter.end()
def __init__(self, *args):
QtWidgets.QFrame.__init__(self, *args)
self.setFrameStyle(QtWidgets.QFrame.StyledPanel | QtWidgets.QFrame.Sunken)
self.edit = self.PlainTextEdit()
self.number_bar = self.NumberBar(self.edit)
hbox = QtWidgets.QHBoxLayout(self)
hbox.setSpacing(0)
hbox.setContentsMargins(0, 0, 0, 0)
hbox.addWidget(self.number_bar)
hbox.addWidget(self.edit)
self.edit.blockCountChanged.connect(self.number_bar.adjustWidth)
self.edit.updateRequest.connect(self.number_bar.updateContents)
def getText(self):
return str(self.edit.toPlainText())
def setText(self, text):
self.edit.setPlainText(text)
def isModified(self):
return self.edit.document().isModified()
def setModified(self, modified):
self.edit.document().setModified(modified)
def setLineWrapMode(self, mode):
self.edit.setLineWrapMode(mode)
class FCFileSaveDialog(QtWidgets.QFileDialog):
def __init__(self, *args):
super(FCFileSaveDialog, self).__init__(*args)
@staticmethod
def get_saved_filename(parent=None, caption='', directory='', ext_filter='', initialFilter=''):
filename, _filter = QtWidgets.QFileDialog.getSaveFileName(parent=parent, caption=caption,
directory=directory, filter=ext_filter,
initialFilter=initialFilter)
filename = str(filename)
if filename == '':
return filename, _filter
extension = '.' + _filter.strip(')').rpartition('.')[2]
if filename.endswith(extension) or extension == '.*':
return filename, _filter
else:
filename += extension
return filename, _filter
class FCDock(QtWidgets.QDockWidget):
def __init__(self, *args, **kwargs):
super(FCDock, self).__init__(*args)
self.close_callback = kwargs["close_callback"] if "close_callback" in kwargs else None
def closeEvent(self, event: QtGui.QCloseEvent) -> None:
self.close_callback()
super().closeEvent(event)
def show(self) -> None:
if self.isFloating():
self.setFloating(False)
super().show()
class FCJog(QtWidgets.QFrame):
def __init__(self, app, *args, **kwargs):
super(FCJog, self).__init__(*args, **kwargs)
self.app = app
self.setFrameShape(QtWidgets.QFrame.Box)
self.setLineWidth(1)
# JOG axes
grbl_jog_grid = QtWidgets.QGridLayout()
grbl_jog_grid.setAlignment(QtCore.Qt.AlignCenter)
grbl_jog_grid.setSizeConstraint(QtWidgets.QLayout.SetMinimumSize)
grbl_jog_grid.setContentsMargins(2, 4, 2, 4)
self.setLayout(grbl_jog_grid)
# JOG Y Up
self.jog_up_button = QtWidgets.QToolButton()
self.jog_up_button.setIcon(QtGui.QIcon(self.app.resource_location + '/up-arrow32.png'))
self.jog_up_button.setToolTip(
_("Jog the Y axis.")
)
grbl_jog_grid.addWidget(self.jog_up_button, 2, 1)
# Origin
self.jog_origin_button = QtWidgets.QToolButton()
self.jog_origin_button.setIcon(QtGui.QIcon(self.app.resource_location + '/origin2_32.png'))
self.jog_origin_button.setToolTip(
'%s' % _("Move to Origin")
)
grbl_jog_grid.addWidget(self.jog_origin_button, 3, 1)
# JOG Y Down
self.jog_down_button = QtWidgets.QToolButton()
self.jog_down_button.setIcon(QtGui.QIcon(self.app.resource_location + '/down-arrow32.png'))
self.jog_down_button.setToolTip(
_("Jog the Y axis.")
)
grbl_jog_grid.addWidget(self.jog_down_button, 4, 1)
# JOG X Left
self.jog_left_button = QtWidgets.QToolButton()
self.jog_left_button.setIcon(QtGui.QIcon(self.app.resource_location + '/left_arrow32.png'))
self.jog_left_button.setToolTip(
_("Jog the X axis.")
)
grbl_jog_grid.addWidget(self.jog_left_button, 3, 0)
# JOG X Right
self.jog_right_button = QtWidgets.QToolButton()
self.jog_right_button.setIcon(QtGui.QIcon(self.app.resource_location + '/right_arrow32.png'))
self.jog_right_button.setToolTip(
_("Jog the X axis.")
)
grbl_jog_grid.addWidget(self.jog_right_button, 3, 2)
# JOG Z Up
self.jog_z_up_button = QtWidgets.QToolButton()
self.jog_z_up_button.setIcon(QtGui.QIcon(self.app.resource_location + '/up-arrow32.png'))
self.jog_z_up_button.setText('Z')
self.jog_z_up_button.setToolButtonStyle(QtCore.Qt.ToolButtonTextBesideIcon)
self.jog_z_up_button.setToolTip(
_("Jog the Z axis.")
)
grbl_jog_grid.addWidget(self.jog_z_up_button, 2, 3)
# JOG Z Down
self.jog_z_down_button = QtWidgets.QToolButton()
self.jog_z_down_button.setIcon(QtGui.QIcon(self.app.resource_location + '/down-arrow32.png'))
self.jog_z_down_button.setText('Z')
self.jog_z_down_button.setToolButtonStyle(QtCore.Qt.ToolButtonTextBesideIcon)
self.jog_z_down_button.setToolTip(
_("Jog the Z axis.")
)
grbl_jog_grid.addWidget(self.jog_z_down_button, 4, 3)
class FCZeroAxes(QtWidgets.QFrame):
def __init__(self, app, *args, **kwargs):
super(FCZeroAxes, self).__init__(*args, **kwargs)
self.app = app
self.setFrameShape(QtWidgets.QFrame.Box)
self.setLineWidth(1)
# Zero the axes
grbl_zero_grid = QtWidgets.QGridLayout()
grbl_zero_grid.setContentsMargins(2, 4, 2, 4)
grbl_zero_grid.setColumnStretch(0, 0)
grbl_zero_grid.setColumnStretch(1, 0)
# grbl_zero_grid.setRowStretch(4, 1)
self.setLayout(grbl_zero_grid)
# Zero X axis
self.grbl_zerox_button = QtWidgets.QToolButton()
self.grbl_zerox_button.setText(_("X"))
self.grbl_zerox_button.setToolTip(
_("Zero the CNC X axes at current position.")
)
grbl_zero_grid.addWidget(self.grbl_zerox_button, 1, 0)
# Zero Y axis
self.grbl_zeroy_button = QtWidgets.QToolButton()
self.grbl_zeroy_button.setText(_("Y"))
self.grbl_zeroy_button.setToolTip(
_("Zero the CNC Y axes at current position.")
)
grbl_zero_grid.addWidget(self.grbl_zeroy_button, 2, 0)
# Zero Z axis
self.grbl_zeroz_button = QtWidgets.QToolButton()
self.grbl_zeroz_button.setText(_("Z"))
self.grbl_zeroz_button.setToolTip(
_("Zero the CNC Z axes at current position.")
)
grbl_zero_grid.addWidget(self.grbl_zeroz_button, 3, 0)
self.grbl_homing_button = QtWidgets.QToolButton()
self.grbl_homing_button.setText(_("Do Home"))
self.grbl_homing_button.setToolTip(
_("Perform a homing cycle on all axis."))
grbl_zero_grid.addWidget(self.grbl_homing_button, 4, 0, 1, 2)
# Zeroo all axes
self.grbl_zero_all_button = QtWidgets.QToolButton()
self.grbl_zero_all_button.setText(_("All"))
self.grbl_zero_all_button.setSizePolicy(QtWidgets.QSizePolicy.Minimum, QtWidgets.QSizePolicy.Expanding)
self.grbl_zero_all_button.setToolTip(
_("Zero all CNC axes at current position.")
)
grbl_zero_grid.addWidget(self.grbl_zero_all_button, 1, 1, 3, 1)
class RotatedToolButton(QtWidgets.QToolButton):
def __init__(self, orientation="east", *args, **kwargs):
super(RotatedToolButton, self).__init__(*args, **kwargs)
self.orientation = orientation
def paintEvent(self, event):
painter = QtWidgets.QStylePainter(self)
if self.orientation == "east":
painter.rotate(270)
painter.translate(-1 * self.height(), 0)
if self.orientation == "west":
painter.rotate(90)
painter.translate(0, -1 * self.width())
painter.drawControl(QtWidgets.QStyle.CE_PushButton, self.getSyleOptions())
def minimumSizeHint(self):
size = super(RotatedToolButton, self).minimumSizeHint()
size.transpose()
return size
def sizeHint(self):
size = super(RotatedToolButton, self).sizeHint()
size.transpose()
return size
def getSyleOptions(self):
options = QtWidgets.QStyleOptionButton()
options.initFrom(self)
size = options.rect.size()
size.transpose()
options.rect.setSize(size)
options.features = QtWidgets.QStyleOptionButton.None_
# if self.isFlat():
# options.features |= QtWidgets.QStyleOptionButton.Flat
if self.menu():
options.features |= QtWidgets.QStyleOptionButton.HasMenu
# if self.autoDefault() or self.isDefault():
# options.features |= QtWidgets.QStyleOptionButton.AutoDefaultButton
# if self.isDefault():
# options.features |= QtWidgets.QStyleOptionButton.DefaultButton
if self.isDown() or (self.menu() and self.menu().isVisible()):
options.state |= QtWidgets.QStyle.State_Sunken
if self.isChecked():
options.state |= QtWidgets.QStyle.State_On
# if not self.isFlat() and not self.isDown():
# options.state |= QtWidgets.QStyle.State_Raised
options.text = self.text()
options.icon = self.icon()
options.iconSize = self.iconSize()
return options
class RotatedButton(QtWidgets.QPushButton):
def __init__(self, orientation="west", *args, **kwargs):
super(RotatedButton, self).__init__(*args, **kwargs)
self.orientation = orientation
def paintEvent(self, event):
painter = QtWidgets.QStylePainter(self)
if self.orientation == "east":
painter.rotate(270)
painter.translate(-1 * self.height(), 0)
if self.orientation == "west":
painter.rotate(90)
painter.translate(0, -1 * self.width())
painter.drawControl(QtWidgets.QStyle.CE_PushButton, self.getSyleOptions())
def minimumSizeHint(self):
size = super(RotatedButton, self).minimumSizeHint()
size.transpose()
return size
def sizeHint(self):
size = super(RotatedButton, self).sizeHint()
size.transpose()
return size
def getSyleOptions(self):
options = QtWidgets.QStyleOptionButton()
options.initFrom(self)
size = options.rect.size()
size.transpose()
options.rect.setSize(size)
options.features = QtWidgets.QStyleOptionButton.None_
if self.isFlat():
options.features |= QtWidgets.QStyleOptionButton.Flat
if self.menu():
options.features |= QtWidgets.QStyleOptionButton.HasMenu
if self.autoDefault() or self.isDefault():
options.features |= QtWidgets.QStyleOptionButton.AutoDefaultButton
if self.isDefault():
options.features |= QtWidgets.QStyleOptionButton.DefaultButton
if self.isDown() or (self.menu() and self.menu().isVisible()):
options.state |= QtWidgets.QStyle.State_Sunken
if self.isChecked():
options.state |= QtWidgets.QStyle.State_On
if not self.isFlat() and not self.isDown():
options.state |= QtWidgets.QStyle.State_Raised
options.text = self.text()
options.icon = self.icon()
options.iconSize = self.iconSize()
return options
class FlatCAMActivityView(QtWidgets.QWidget):
"""
This class create and control the activity icon displayed in the App status bar
"""
def __init__(self, app, parent=None):
super().__init__(parent=parent)
self.app = app
if self.app.defaults["global_activity_icon"] == "Ball green":
icon = self.app.resource_location + '/active_2_static.png'
movie = self.app.resource_location + "/active_2.gif"
elif self.app.defaults["global_activity_icon"] == "Ball black":
icon = self.app.resource_location + '/active_static.png'
movie = self.app.resource_location + "/active.gif"
elif self.app.defaults["global_activity_icon"] == "Arrow green":
icon = self.app.resource_location + '/active_3_static.png'
movie = self.app.resource_location + "/active_3.gif"
elif self.app.defaults["global_activity_icon"] == "Eclipse green":
icon = self.app.resource_location + '/active_4_static.png'
movie = self.app.resource_location + "/active_4.gif"
else:
icon = self.app.resource_location + '/active_static.png'
movie = self.app.resource_location + "/active.gif"
self.setMinimumWidth(200)
self.movie_path = movie
self.icon_path = icon
self.icon = FCLabel(self)
self.icon.setGeometry(0, 0, 16, 12)
self.movie = QtGui.QMovie(self.movie_path)
self.icon.setMovie(self.movie)
# self.movie.start()
layout = QtWidgets.QHBoxLayout()
layout.setContentsMargins(5, 0, 5, 0)
layout.setAlignment(QtCore.Qt.AlignLeft)
self.setLayout(layout)
layout.addWidget(self.icon)
self.text = QtWidgets.QLabel(self)
self.text.setText(_("Idle."))
self.icon.setPixmap(QtGui.QPixmap(self.icon_path))
layout.addWidget(self.text)
self.icon.clicked.connect(self.app.on_toolbar_replot)
def set_idle(self):
self.movie.stop()
self.text.setText(_("Idle."))
def set_busy(self, msg, no_movie=None):
if no_movie is not True:
self.icon.setMovie(self.movie)
self.movie.start()
self.text.setText(msg)
class FlatCAMInfoBar(QtWidgets.QWidget):
"""
This class create a place to display the App messages in the Status Bar
"""
def __init__(self, parent=None, app=None):
super(FlatCAMInfoBar, self).__init__(parent=parent)
self.app = app
self.icon = QtWidgets.QLabel(self)
self.icon.setGeometry(0, 0, 12, 12)
self.pmap = QtGui.QPixmap(self.app.resource_location + '/graylight12.png')
self.icon.setPixmap(self.pmap)
self.lock_pmaps = False
layout = QtWidgets.QHBoxLayout()
layout.setContentsMargins(5, 0, 5, 0)
self.setLayout(layout)
layout.addWidget(self.icon)
self.text = QtWidgets.QLabel(self)
self.text.setText(_("Application started ..."))
self.text.setToolTip(_("Hello!"))
layout.addWidget(self.text)
layout.addStretch()
def set_text_(self, text, color=None):
self.text.setText(text)
self.text.setToolTip(text)
if color:
self.text.setStyleSheet('color: %s' % str(color))
def set_status(self, text, level="info"):
level = str(level)
if self.lock_pmaps is not True:
self.pmap.fill()
if level == "ERROR" or level == "ERROR_NOTCL":
self.pmap = QtGui.QPixmap(self.app.resource_location + '/redlight12.png')
elif level.lower() == "success":
self.pmap = QtGui.QPixmap(self.app.resource_location + '/greenlight12.png')
elif level == "WARNING" or level == "WARNING_NOTCL":
self.pmap = QtGui.QPixmap(self.app.resource_location + '/yellowlight12.png')
elif level.lower() == "selected":
self.pmap = QtGui.QPixmap(self.app.resource_location + '/bluelight12.png')
else:
self.pmap = QtGui.QPixmap(self.app.resource_location + '/graylight12.png')
try:
self.set_text_(text)
self.icon.setPixmap(self.pmap)
except Exception as e:
log.debug("FlatCAMInfoBar.set_status() --> %s" % str(e))
class FlatCAMSystemTray(QtWidgets.QSystemTrayIcon):
"""
This class create the Sys Tray icon for the app
"""
def __init__(self, app, icon, headless=None, parent=None):
# QtWidgets.QSystemTrayIcon.__init__(self, icon, parent)
super().__init__(icon, parent=parent)
self.app = app
menu = QtWidgets.QMenu(parent)
menu_runscript = QtWidgets.QAction(QtGui.QIcon(self.app.resource_location + '/script14.png'),
'%s' % _('Run Script ...'), self)
menu_runscript.setToolTip(
_("Will run the opened Tcl Script thus\n"
"enabling the automation of certain\n"
"functions of FlatCAM.")
)
menu.addAction(menu_runscript)
menu.addSeparator()
if headless is None:
self.menu_open = menu.addMenu(QtGui.QIcon(self.app.resource_location + '/folder32_bis.png'), _('Open'))
# Open Project ...
menu_openproject = QtWidgets.QAction(QtGui.QIcon(self.app.resource_location + '/folder16.png'),
'%s ...' % _('Open Project'), self)
self.menu_open.addAction(menu_openproject)
self.menu_open.addSeparator()
# Open Gerber ...
menu_opengerber = QtWidgets.QAction(QtGui.QIcon(self.app.resource_location + '/flatcam_icon24.png'),
'%s ...\t%s' % (_('Open Gerber'), _('Ctrl+G')), self)
self.menu_open.addAction(menu_opengerber)
# Open Excellon ...
menu_openexcellon = QtWidgets.QAction(QtGui.QIcon(self.app.resource_location + '/open_excellon32.png'),
'%s ...\t%s' % (_('Open Excellon'), _('Ctrl+E')), self)
self.menu_open.addAction(menu_openexcellon)
# Open G-Code ...
menu_opengcode = QtWidgets.QAction(QtGui.QIcon(self.app.resource_location + '/code.png'),
'%s ...' % _('Open G-Code'), self)
self.menu_open.addAction(menu_opengcode)
self.menu_open.addSeparator()
menu_openproject.triggered.connect(self.app.f_handlers.on_file_openproject)
menu_opengerber.triggered.connect(self.app.f_handlers.on_fileopengerber)
menu_openexcellon.triggered.connect(self.app.f_handlers.on_fileopenexcellon)
menu_opengcode.triggered.connect(self.app.f_handlers.on_fileopengcode)
exitAction = menu.addAction(_("Exit"))
exitAction.setIcon(QtGui.QIcon(self.app.resource_location + '/power16.png'))
self.setContextMenu(menu)
menu_runscript.triggered.connect(lambda: self.app.on_filerunscript(
silent=True if self.app.cmd_line_headless == 1 else False))
exitAction.triggered.connect(self.app.final_save)
def message_dialog(title, message, kind="info", parent=None):
"""
Builds and show a custom QMessageBox to be used in FlatCAM.
:param title: title of the QMessageBox
:param message: message to be displayed
:param kind: type of QMessageBox; will display a specific icon.
:param parent: parent
:return: None
"""
icon = {"info": QtWidgets.QMessageBox.Information,
"warning": QtWidgets.QMessageBox.Warning,
"error": QtWidgets.QMessageBox.Critical}[str(kind)]
dlg = QtWidgets.QMessageBox(icon, title, message, parent=parent)
dlg.setText(message)
dlg.exec_()
def rreplace(s, old, new, occurrence):
"""
Credits go here:
https://stackoverflow.com/questions/2556108/rreplace-how-to-replace-the-last-occurrence-of-an-expression-in-a-string
:param s: string to be processed
:param old: old char to be replaced
:param new: new char to replace the old one
:param occurrence: how many places from end to replace the old char
:return: modified string
"""
li = s.rsplit(old, occurrence)
return new.join(li)