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- from PyQt5 import QtGui, QtCore, QtWidgets
- from PyQt5.QtCore import Qt
- from GUIElements import FCEntry, FCButton, OptionalInputSection
- from FlatCAMTool import FlatCAMTool
- from FlatCAMObj import *
- class ToolTransform(FlatCAMTool):
- toolName = "Object Transform"
- rotateName = "Rotate"
- skewName = "Skew/Shear"
- scaleName = "Scale"
- flipName = "Mirror (Flip)"
- offsetName = "Offset"
- def __init__(self, app):
- FlatCAMTool.__init__(self, app)
- self.transform_lay = QtWidgets.QVBoxLayout()
- self.layout.addLayout(self.transform_lay)
- ## Title
- title_label = QtWidgets.QLabel("<font size=4><b>%s</b></font><br>" % self.toolName)
- self.transform_lay.addWidget(title_label)
- self.empty_label = QtWidgets.QLabel("")
- self.empty_label.setFixedWidth(50)
- self.empty_label1 = QtWidgets.QLabel("")
- self.empty_label1.setFixedWidth(70)
- self.empty_label2 = QtWidgets.QLabel("")
- self.empty_label2.setFixedWidth(70)
- self.empty_label3 = QtWidgets.QLabel("")
- self.empty_label3.setFixedWidth(70)
- self.empty_label4 = QtWidgets.QLabel("")
- self.empty_label4.setFixedWidth(70)
- self.transform_lay.addWidget(self.empty_label)
- ## Rotate Title
- rotate_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.rotateName)
- self.transform_lay.addWidget(rotate_title_label)
- ## Layout
- form_layout = QtWidgets.QFormLayout()
- self.transform_lay.addLayout(form_layout)
- form_child = QtWidgets.QHBoxLayout()
- self.rotate_label = QtWidgets.QLabel("Angle:")
- self.rotate_label.setToolTip(
- "Angle for Rotation action, in degrees.\n"
- "Float number between -360 and 359.\n"
- "Positive numbers for CW motion.\n"
- "Negative numbers for CCW motion."
- )
- self.rotate_label.setFixedWidth(50)
- self.rotate_entry = FCEntry()
- # self.rotate_entry.setFixedWidth(60)
- self.rotate_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- self.rotate_button = FCButton()
- self.rotate_button.set_value("Rotate")
- self.rotate_button.setToolTip(
- "Rotate the selected object(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected objects."
- )
- self.rotate_button.setFixedWidth(60)
- form_child.addWidget(self.rotate_entry)
- form_child.addWidget(self.rotate_button)
- form_layout.addRow(self.rotate_label, form_child)
- self.transform_lay.addWidget(self.empty_label1)
- ## Skew Title
- skew_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.skewName)
- self.transform_lay.addWidget(skew_title_label)
- ## Form Layout
- form1_layout = QtWidgets.QFormLayout()
- self.transform_lay.addLayout(form1_layout)
- form1_child_1 = QtWidgets.QHBoxLayout()
- form1_child_2 = QtWidgets.QHBoxLayout()
- self.skewx_label = QtWidgets.QLabel("Angle X:")
- self.skewx_label.setToolTip(
- "Angle for Skew action, in degrees.\n"
- "Float number between -360 and 359."
- )
- self.skewx_label.setFixedWidth(50)
- self.skewx_entry = FCEntry()
- self.skewx_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.skewx_entry.setFixedWidth(60)
- self.skewx_button = FCButton()
- self.skewx_button.set_value("Skew X")
- self.skewx_button.setToolTip(
- "Skew/shear the selected object(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected objects.")
- self.skewx_button.setFixedWidth(60)
- self.skewy_label = QtWidgets.QLabel("Angle Y:")
- self.skewy_label.setToolTip(
- "Angle for Skew action, in degrees.\n"
- "Float number between -360 and 359."
- )
- self.skewy_label.setFixedWidth(50)
- self.skewy_entry = FCEntry()
- self.skewy_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.skewy_entry.setFixedWidth(60)
- self.skewy_button = FCButton()
- self.skewy_button.set_value("Skew Y")
- self.skewy_button.setToolTip(
- "Skew/shear the selected object(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected objects.")
- self.skewy_button.setFixedWidth(60)
- form1_child_1.addWidget(self.skewx_entry)
- form1_child_1.addWidget(self.skewx_button)
- form1_child_2.addWidget(self.skewy_entry)
- form1_child_2.addWidget(self.skewy_button)
- form1_layout.addRow(self.skewx_label, form1_child_1)
- form1_layout.addRow(self.skewy_label, form1_child_2)
- self.transform_lay.addWidget(self.empty_label2)
- ## Scale Title
- scale_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.scaleName)
- self.transform_lay.addWidget(scale_title_label)
- ## Form Layout
- form2_layout = QtWidgets.QFormLayout()
- self.transform_lay.addLayout(form2_layout)
- form2_child_1 = QtWidgets.QHBoxLayout()
- form2_child_2 = QtWidgets.QHBoxLayout()
- self.scalex_label = QtWidgets.QLabel("Factor X:")
- self.scalex_label.setToolTip(
- "Factor for Scale action over X axis."
- )
- self.scalex_label.setFixedWidth(50)
- self.scalex_entry = FCEntry()
- self.scalex_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.scalex_entry.setFixedWidth(60)
- self.scalex_button = FCButton()
- self.scalex_button.set_value("Scale X")
- self.scalex_button.setToolTip(
- "Scale the selected object(s).\n"
- "The point of reference depends on \n"
- "the Scale reference checkbox state.")
- self.scalex_button.setFixedWidth(60)
- self.scaley_label = QtWidgets.QLabel("Factor Y:")
- self.scaley_label.setToolTip(
- "Factor for Scale action over Y axis."
- )
- self.scaley_label.setFixedWidth(50)
- self.scaley_entry = FCEntry()
- self.scaley_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.scaley_entry.setFixedWidth(60)
- self.scaley_button = FCButton()
- self.scaley_button.set_value("Scale Y")
- self.scaley_button.setToolTip(
- "Scale the selected object(s).\n"
- "The point of reference depends on \n"
- "the Scale reference checkbox state.")
- self.scaley_button.setFixedWidth(60)
- self.scale_link_cb = FCCheckBox()
- self.scale_link_cb.set_value(True)
- self.scale_link_cb.setText("Link")
- self.scale_link_cb.setToolTip(
- "Scale the selected object(s)\n"
- "using the Scale Factor X for both axis.")
- self.scale_link_cb.setFixedWidth(50)
- self.scale_zero_ref_cb = FCCheckBox()
- self.scale_zero_ref_cb.set_value(True)
- self.scale_zero_ref_cb.setText("Scale Reference")
- self.scale_zero_ref_cb.setToolTip(
- "Scale the selected object(s)\n"
- "using the origin reference when checked,\n"
- "and the center of the biggest bounding box\n"
- "of the selected objects when unchecked.")
- form2_child_1.addWidget(self.scalex_entry)
- form2_child_1.addWidget(self.scalex_button)
- form2_child_2.addWidget(self.scaley_entry)
- form2_child_2.addWidget(self.scaley_button)
- form2_layout.addRow(self.scalex_label, form2_child_1)
- form2_layout.addRow(self.scaley_label, form2_child_2)
- form2_layout.addRow(self.scale_link_cb, self.scale_zero_ref_cb)
- self.ois_scale = OptionalInputSection(self.scale_link_cb, [self.scaley_entry, self.scaley_button], logic=False)
- self.transform_lay.addWidget(self.empty_label3)
- ## Offset Title
- offset_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.offsetName)
- self.transform_lay.addWidget(offset_title_label)
- ## Form Layout
- form3_layout = QtWidgets.QFormLayout()
- self.transform_lay.addLayout(form3_layout)
- form3_child_1 = QtWidgets.QHBoxLayout()
- form3_child_2 = QtWidgets.QHBoxLayout()
- self.offx_label = QtWidgets.QLabel("Value X:")
- self.offx_label.setToolTip(
- "Value for Offset action on X axis."
- )
- self.offx_label.setFixedWidth(50)
- self.offx_entry = FCEntry()
- self.offx_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.offx_entry.setFixedWidth(60)
- self.offx_button = FCButton()
- self.offx_button.set_value("Offset X")
- self.offx_button.setToolTip(
- "Offset the selected object(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected objects.\n")
- self.offx_button.setFixedWidth(60)
- self.offy_label = QtWidgets.QLabel("Value Y:")
- self.offy_label.setToolTip(
- "Value for Offset action on Y axis."
- )
- self.offy_label.setFixedWidth(50)
- self.offy_entry = FCEntry()
- self.offy_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.offy_entry.setFixedWidth(60)
- self.offy_button = FCButton()
- self.offy_button.set_value("Offset Y")
- self.offy_button.setToolTip(
- "Offset the selected object(s).\n"
- "The point of reference is the middle of\n"
- "the bounding box for all selected objects.\n")
- self.offy_button.setFixedWidth(60)
- form3_child_1.addWidget(self.offx_entry)
- form3_child_1.addWidget(self.offx_button)
- form3_child_2.addWidget(self.offy_entry)
- form3_child_2.addWidget(self.offy_button)
- form3_layout.addRow(self.offx_label, form3_child_1)
- form3_layout.addRow(self.offy_label, form3_child_2)
- self.transform_lay.addWidget(self.empty_label4)
- ## Flip Title
- flip_title_label = QtWidgets.QLabel("<font size=3><b>%s</b></font>" % self.flipName)
- self.transform_lay.addWidget(flip_title_label)
- ## Form Layout
- form4_layout = QtWidgets.QFormLayout()
- form4_child_hlay = QtWidgets.QHBoxLayout()
- self.transform_lay.addLayout(form4_child_hlay)
- self.transform_lay.addLayout(form4_layout)
- form4_child_1 = QtWidgets.QHBoxLayout()
- self.flipx_button = FCButton()
- self.flipx_button.set_value("Flip on X")
- self.flipx_button.setToolTip(
- "Flip the selected object(s) over the X axis.\n"
- "Does not create a new object.\n "
- )
- self.flipx_button.setFixedWidth(60)
- self.flipy_button = FCButton()
- self.flipy_button.set_value("Flip on Y")
- self.flipy_button.setToolTip(
- "Flip the selected object(s) over the X axis.\n"
- "Does not create a new object.\n "
- )
- self.flipy_button.setFixedWidth(60)
- self.flip_ref_cb = FCCheckBox()
- self.flip_ref_cb.set_value(True)
- self.flip_ref_cb.setText("Ref Pt")
- self.flip_ref_cb.setToolTip(
- "Flip the selected object(s)\n"
- "around the point in Point Entry Field.\n"
- "\n"
- "The point coordinates can be captured by\n"
- "left click on canvas together with pressing\n"
- "SHIFT key. \n"
- "Then click Add button to insert coordinates.\n"
- "Or enter the coords in format (x, y) in the\n"
- "Point Entry field and click Flip on X(Y)")
- self.flip_ref_cb.setFixedWidth(50)
- self.flip_ref_label = QtWidgets.QLabel("Point:")
- self.flip_ref_label.setToolTip(
- "Coordinates in format (x, y) used as reference for mirroring.\n"
- "The 'x' in (x, y) will be used when using Flip on X and\n"
- "the 'y' in (x, y) will be used when using Flip on Y and"
- )
- self.flip_ref_label.setFixedWidth(50)
- self.flip_ref_entry = EvalEntry2("(0, 0)")
- self.flip_ref_entry.setAlignment(QtCore.Qt.AlignRight | QtCore.Qt.AlignVCenter)
- # self.flip_ref_entry.setFixedWidth(60)
- self.flip_ref_button = FCButton()
- self.flip_ref_button.set_value("Add")
- self.flip_ref_button.setToolTip(
- "The point coordinates can be captured by\n"
- "left click on canvas together with pressing\n"
- "SHIFT key. Then click Add button to insert.")
- self.flip_ref_button.setFixedWidth(60)
- form4_child_hlay.addStretch()
- form4_child_hlay.addWidget(self.flipx_button)
- form4_child_hlay.addWidget(self.flipy_button)
- form4_child_1.addWidget(self.flip_ref_entry)
- form4_child_1.addWidget(self.flip_ref_button)
- form4_layout.addRow(self.flip_ref_cb)
- form4_layout.addRow(self.flip_ref_label, form4_child_1)
- self.ois_flip = OptionalInputSection(self.flip_ref_cb,
- [self.flip_ref_entry, self.flip_ref_button], logic=True)
- self.transform_lay.addStretch()
- ## Signals
- self.rotate_button.clicked.connect(self.on_rotate)
- self.skewx_button.clicked.connect(self.on_skewx)
- self.skewy_button.clicked.connect(self.on_skewy)
- self.scalex_button.clicked.connect(self.on_scalex)
- self.scaley_button.clicked.connect(self.on_scaley)
- self.offx_button.clicked.connect(self.on_offx)
- self.offy_button.clicked.connect(self.on_offy)
- self.flipx_button.clicked.connect(self.on_flipx)
- self.flipy_button.clicked.connect(self.on_flipy)
- self.flip_ref_button.clicked.connect(self.on_flip_add_coords)
- self.rotate_entry.returnPressed.connect(self.on_rotate)
- self.skewx_entry.returnPressed.connect(self.on_skewx)
- self.skewy_entry.returnPressed.connect(self.on_skewy)
- self.scalex_entry.returnPressed.connect(self.on_scalex)
- self.scaley_entry.returnPressed.connect(self.on_scaley)
- self.offx_entry.returnPressed.connect(self.on_offx)
- self.offy_entry.returnPressed.connect(self.on_offy)
- ## Initialize form
- self.rotate_entry.set_value('0')
- self.skewx_entry.set_value('0')
- self.skewy_entry.set_value('0')
- self.scalex_entry.set_value('1')
- self.scaley_entry.set_value('1')
- self.offx_entry.set_value('0')
- self.offy_entry.set_value('0')
- self.flip_ref_cb.setChecked(False)
- def run(self):
- FlatCAMTool.run(self)
- self.app.ui.notebook.setTabText(2, "Transform Tool")
- def on_rotate(self):
- try:
- value = float(self.rotate_entry.get_value())
- except Exception as e:
- self.app.inform.emit("[error] Failed to rotate due of: %s" % str(e))
- return
- self.app.worker_task.emit({'fcn': self.on_rotate_action,
- 'params': [value]})
- # self.on_rotate_action(value)
- return
- def on_flipx(self):
- # self.on_flip("Y")
- axis = 'Y'
- self.app.worker_task.emit({'fcn': self.on_flip,
- 'params': [axis]})
- return
- def on_flipy(self):
- # self.on_flip("X")
- axis = 'X'
- self.app.worker_task.emit({'fcn': self.on_flip,
- 'params': [axis]})
- return
- def on_flip_add_coords(self):
- val = self.app.defaults["global_point_clipboard_format"] % (self.app.pos[0], self.app.pos[1])
- self.flip_ref_entry.set_value(val)
- def on_skewx(self):
- try:
- value = float(self.skewx_entry.get_value())
- except:
- self.app.inform.emit("[warning_notcl] No value for Skew!")
- return
- # self.on_skew("X", value)
- axis = 'X'
- self.app.worker_task.emit({'fcn': self.on_skew,
- 'params': [axis, value]})
- return
- def on_skewy(self):
- try:
- value = float(self.skewy_entry.get_value())
- except:
- self.app.inform.emit("[warning_notcl] No value for Skew!")
- return
- # self.on_skew("Y", value)
- axis = 'Y'
- self.app.worker_task.emit({'fcn': self.on_skew,
- 'params': [axis, value]})
- return
- def on_scalex(self):
- try:
- xvalue = float(self.scalex_entry.get_value())
- except:
- self.app.inform.emit("[warning_notcl] No value for Scale!")
- return
- # scaling to zero has no sense so we remove it, because scaling with 1 does nothing
- if xvalue == 0:
- xvalue = 1
- if self.scale_link_cb.get_value():
- yvalue = xvalue
- else:
- yvalue = 1
- axis = 'X'
- point = (0, 0)
- if self.scale_zero_ref_cb.get_value():
- self.app.worker_task.emit({'fcn': self.on_scale,
- 'params': [axis, xvalue, yvalue, point]})
- # self.on_scale("X", xvalue, yvalue, point=(0,0))
- else:
- # self.on_scale("X", xvalue, yvalue)
- self.app.worker_task.emit({'fcn': self.on_scale,
- 'params': [axis, xvalue, yvalue]})
- return
- def on_scaley(self):
- xvalue = 1
- try:
- yvalue = float(self.scaley_entry.get_value())
- except:
- self.app.inform.emit("[warning_notcl] No value for Scale!")
- return
- # scaling to zero has no sense so we remove it, because scaling with 1 does nothing
- if yvalue == 0:
- yvalue = 1
- axis = 'Y'
- point = (0, 0)
- if self.scale_zero_ref_cb.get_value():
- self.app.worker_task.emit({'fcn': self.on_scale,
- 'params': [axis, xvalue, yvalue, point]})
- # self.on_scale("Y", xvalue, yvalue, point=(0,0))
- else:
- # self.on_scale("Y", xvalue, yvalue)
- self.app.worker_task.emit({'fcn': self.on_scale,
- 'params': [axis, xvalue, yvalue]})
- return
- def on_offx(self):
- try:
- value = float(self.offx_entry.get_value())
- except:
- self.app.inform.emit("[warning_notcl] No value for Offset!")
- return
- # self.on_offset("X", value)
- axis = 'X'
- self.app.worker_task.emit({'fcn': self.on_offset,
- 'params': [axis, value]})
- return
- def on_offy(self):
- try:
- value = float(self.offy_entry.get_value())
- except:
- self.app.inform.emit("[warning_notcl] No value for Offset!")
- return
- # self.on_offset("Y", value)
- axis = 'Y'
- self.app.worker_task.emit({'fcn': self.on_offset,
- 'params': [axis, value]})
- return
- def on_rotate_action(self, num):
- obj_list = self.app.collection.get_selected()
- xminlist = []
- yminlist = []
- xmaxlist = []
- ymaxlist = []
- if not obj_list:
- self.app.inform.emit("[warning_notcl] No object selected. Please Select an object to rotate!")
- return
- else:
- with self.app.proc_container.new("Appying Rotate"):
- try:
- # first get a bounding box to fit all
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- pass
- else:
- xmin, ymin, xmax, ymax = obj.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- xmaxlist.append(xmax)
- ymaxlist.append(ymax)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- xmaximal = max(xmaxlist)
- ymaximal = max(ymaxlist)
- self.app.progress.emit(20)
- for sel_obj in obj_list:
- px = 0.5 * (xminimal + xmaximal)
- py = 0.5 * (yminimal + ymaximal)
- if isinstance(sel_obj, FlatCAMCNCjob):
- self.app.inform.emit("CNCJob objects can't be rotated.")
- else:
- sel_obj.rotate(-num, point=(px, py))
- sel_obj.plot()
- self.app.object_changed.emit(sel_obj)
- # add information to the object that it was changed and how much
- sel_obj.options['rotate'] = num
- self.app.inform.emit('Object(s) were rotated ...')
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit("[error_notcl] Due of %s, rotation movement was not executed." % str(e))
- return
- def on_flip(self, axis):
- obj_list = self.app.collection.get_selected()
- xminlist = []
- yminlist = []
- xmaxlist = []
- ymaxlist = []
- if not obj_list:
- self.app.inform.emit("[warning_notcl] No object selected. Please Select an object to flip!")
- return
- else:
- with self.app.proc_container.new("Applying Flip"):
- try:
- # get mirroring coords from the point entry
- if self.flip_ref_cb.isChecked():
- px, py = eval('{}'.format(self.flip_ref_entry.text()))
- # get mirroing coords from the center of an all-enclosing bounding box
- else:
- # first get a bounding box to fit all
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- pass
- else:
- xmin, ymin, xmax, ymax = obj.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- xmaxlist.append(xmax)
- ymaxlist.append(ymax)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- xmaximal = max(xmaxlist)
- ymaximal = max(ymaxlist)
- px = 0.5 * (xminimal + xmaximal)
- py = 0.5 * (yminimal + ymaximal)
- self.app.progress.emit(20)
- # execute mirroring
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- self.app.inform.emit("CNCJob objects can't be mirrored/flipped.")
- else:
- if axis is 'X':
- obj.mirror('X', (px, py))
- # add information to the object that it was changed and how much
- # the axis is reversed because of the reference
- if 'mirror_y' in obj.options:
- obj.options['mirror_y'] = not obj.options['mirror_y']
- else:
- obj.options['mirror_y'] = True
- obj.plot()
- self.app.inform.emit('Flipped on the Y axis ...')
- elif axis is 'Y':
- obj.mirror('Y', (px, py))
- # add information to the object that it was changed and how much
- # the axis is reversed because of the reference
- if 'mirror_x' in obj.options:
- obj.options['mirror_x'] = not obj.options['mirror_x']
- else:
- obj.options['mirror_x'] = True
- obj.plot()
- self.app.inform.emit('Flipped on the X axis ...')
- self.app.object_changed.emit(obj)
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit("[error_notcl] Due of %s, Flip action was not executed." % str(e))
- return
- def on_skew(self, axis, num):
- obj_list = self.app.collection.get_selected()
- xminlist = []
- yminlist = []
- if not obj_list:
- self.app.inform.emit("[warning_notcl] No object selected. Please Select an object to shear/skew!")
- return
- else:
- with self.app.proc_container.new("Applying Skew"):
- try:
- # first get a bounding box to fit all
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- pass
- else:
- xmin, ymin, xmax, ymax = obj.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- self.app.progress.emit(20)
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- self.app.inform.emit("CNCJob objects can't be skewed.")
- else:
- if axis is 'X':
- obj.skew(num, 0, point=(xminimal, yminimal))
- # add information to the object that it was changed and how much
- obj.options['skew_x'] = num
- elif axis is 'Y':
- obj.skew(0, num, point=(xminimal, yminimal))
- # add information to the object that it was changed and how much
- obj.options['skew_y'] = num
- obj.plot()
- self.app.object_changed.emit(obj)
- self.app.inform.emit('Object(s) were skewed on %s axis ...' % str(axis))
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit("[error_notcl] Due of %s, Skew action was not executed." % str(e))
- return
- def on_scale(self, axis, xfactor, yfactor, point=None):
- obj_list = self.app.collection.get_selected()
- xminlist = []
- yminlist = []
- xmaxlist = []
- ymaxlist = []
- if not obj_list:
- self.app.inform.emit("[warning_notcl] No object selected. Please Select an object to scale!")
- return
- else:
- with self.app.proc_container.new("Applying Scale"):
- try:
- # first get a bounding box to fit all
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- pass
- else:
- xmin, ymin, xmax, ymax = obj.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- xmaxlist.append(xmax)
- ymaxlist.append(ymax)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- xmaximal = max(xmaxlist)
- ymaximal = max(ymaxlist)
- self.app.progress.emit(20)
- if point is None:
- px = 0.5 * (xminimal + xmaximal)
- py = 0.5 * (yminimal + ymaximal)
- else:
- px = 0
- py = 0
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- self.app.inform.emit("CNCJob objects can't be scaled.")
- else:
- obj.scale(xfactor, yfactor, point=(px, py))
- # add information to the object that it was changed and how much
- obj.options['scale_x'] = xfactor
- obj.options['scale_y'] = yfactor
- obj.plot()
- self.app.object_changed.emit(obj)
- self.app.inform.emit('Object(s) were scaled on %s axis ...' % str(axis))
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit("[error_notcl] Due of %s, Scale action was not executed." % str(e))
- return
- def on_offset(self, axis, num):
- obj_list = self.app.collection.get_selected()
- xminlist = []
- yminlist = []
- if not obj_list:
- self.app.inform.emit("[warning_notcl] No object selected. Please Select an object to offset!")
- return
- else:
- with self.app.proc_container.new("Applying Offset"):
- try:
- # first get a bounding box to fit all
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- pass
- else:
- xmin, ymin, xmax, ymax = obj.bounds()
- xminlist.append(xmin)
- yminlist.append(ymin)
- # get the minimum x,y and maximum x,y for all objects selected
- xminimal = min(xminlist)
- yminimal = min(yminlist)
- self.app.progress.emit(20)
- for obj in obj_list:
- if isinstance(obj, FlatCAMCNCjob):
- self.app.inform.emit("CNCJob objects can't be offseted.")
- else:
- if axis is 'X':
- obj.offset((num, 0))
- # add information to the object that it was changed and how much
- obj.options['offset_x'] = num
- elif axis is 'Y':
- obj.offset((0, num))
- # add information to the object that it was changed and how much
- obj.options['offset_y'] = num
- obj.plot()
- self.app.object_changed.emit(obj)
- self.app.inform.emit('Object(s) were offseted on %s axis ...' % str(axis))
- self.app.progress.emit(100)
- except Exception as e:
- self.app.inform.emit("[error_notcl] Due of %s, Offset action was not executed." % str(e))
- return
- # end of file
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