Spelling of log entries and code style

2025-08-08 06:23:59 -06:00 · 2019-07-18 11:49:18 +02:00 · 2019-07-18 11:49:18 +02:00 · f334fa8578
commit f334fa8578
parent 49074e51ae
3 changed files with 18 additions and 18 deletions
--- a/plugins/CuraEngineBackend/ProcessSlicedLayersJob.py
+++ b/plugins/CuraEngineBackend/ProcessSlicedLayersJob.py
@ -1,4 +1,4 @@
-#Copyright (c) 2017 Ultimaker B.V.
+#Copyright (c) 2019 Ultimaker B.V.
 #Cura is released under the terms of the LGPLv3 or higher.

 import gc
@ -136,23 +136,23 @@ class ProcessSlicedLayersJob(Job):

                extruder = polygon.extruder

-                line_types = numpy.fromstring(polygon.line_type, dtype="u1")  # Convert bytearray to numpy array
+                line_types = numpy.fromstring(polygon.line_type, dtype = "u1")  # Convert bytearray to numpy array

                line_types = line_types.reshape((-1,1))

-                points = numpy.fromstring(polygon.points, dtype="f4")  # Convert bytearray to numpy array
+                points = numpy.fromstring(polygon.points, dtype = "f4")  # Convert bytearray to numpy array
                if polygon.point_type == 0: # Point2D
                    points = points.reshape((-1,2))  # We get a linear list of pairs that make up the points, so make numpy interpret them correctly.
                else:  # Point3D
                    points = points.reshape((-1,3))

-                line_widths = numpy.fromstring(polygon.line_width, dtype="f4")  # Convert bytearray to numpy array
+                line_widths = numpy.fromstring(polygon.line_width, dtype = "f4")  # Convert bytearray to numpy array
                line_widths = line_widths.reshape((-1,1))  # We get a linear list of pairs that make up the points, so make numpy interpret them correctly.

-                line_thicknesses = numpy.fromstring(polygon.line_thickness, dtype="f4")  # Convert bytearray to numpy array
+                line_thicknesses = numpy.fromstring(polygon.line_thickness, dtype = "f4")  # Convert bytearray to numpy array
                line_thicknesses = line_thicknesses.reshape((-1,1))  # We get a linear list of pairs that make up the points, so make numpy interpret them correctly.

-                line_feedrates = numpy.fromstring(polygon.line_feedrate, dtype="f4")  # Convert bytearray to numpy array
+                line_feedrates = numpy.fromstring(polygon.line_feedrate, dtype = "f4")  # Convert bytearray to numpy array
                line_feedrates = line_feedrates.reshape((-1,1))  # We get a linear list of pairs that make up the points, so make numpy interpret them correctly.

                # Create a new 3D-array, copy the 2D points over and insert the right height.
@ -194,7 +194,7 @@ class ProcessSlicedLayersJob(Job):
        manager = ExtruderManager.getInstance()
        extruders = manager.getActiveExtruderStacks()
        if extruders:
-            material_color_map = numpy.zeros((len(extruders), 4), dtype=numpy.float32)
+            material_color_map = numpy.zeros((len(extruders), 4), dtype = numpy.float32)
            for extruder in extruders:
                position = int(extruder.getMetaDataEntry("position", default = "0"))
                try:
@ -206,8 +206,8 @@ class ProcessSlicedLayersJob(Job):
                material_color_map[position, :] = color
        else:
            # Single extruder via global stack.
-            material_color_map = numpy.zeros((1, 4), dtype=numpy.float32)
-            color_code = global_container_stack.material.getMetaDataEntry("color_code", default="#e0e000")
+            material_color_map = numpy.zeros((1, 4), dtype = numpy.float32)
+            color_code = global_container_stack.material.getMetaDataEntry("color_code", default = "#e0e000")
            color = colorCodeToRGBA(color_code)
            material_color_map[0, :] = color

--- a/plugins/USBPrinting/USBPrinterOutputDevice.py
+++ b/plugins/USBPrinting/USBPrinterOutputDevice.py
@ -112,11 +112,11 @@ class USBPrinterOutputDevice(PrinterOutputDevice):
    ##  Request the current scene to be sent to a USB-connected printer.
    #
    #   \param nodes A collection of scene nodes to send. This is ignored.
-    #   \param file_name \type{string} A suggestion for a file name to write.
+    #   \param file_name A suggestion for a file name to write.
    #   \param filter_by_machine Whether to filter MIME types by machine. This
    #   is ignored.
    #   \param kwargs Keyword arguments.
-    def requestWrite(self, nodes, file_name = None, filter_by_machine = False, file_handler = None, **kwargs):
+    def requestWrite(self, nodes, file_name: str = None, filter_by_machine = False, file_handler = None, **kwargs):
        if self._is_printing:
            return  # Already printing
        self.writeStarted.emit(self)
@ -181,7 +181,7 @@ class USBPrinterOutputDevice(PrinterOutputDevice):
            try:
                self._serial = Serial(str(self._serial_port), self._baud_rate, timeout=self._timeout, writeTimeout=self._timeout)
            except SerialException:
-                Logger.log("w", "An exception occured while trying to create serial connection")
+                Logger.log("w", "An exception occurred while trying to create serial connection")
                return
        CuraApplication.getInstance().globalContainerStackChanged.connect(self._onGlobalContainerStackChanged)
        self._onGlobalContainerStackChanged()