Merge branch 'Ultimaker:main' into main

.github/workflows/installers.yml

@@ -95,7 +95,7 @@ jobs:
       enterprise: ${{ github.event.inputs.enterprise == 'true' }}
       staging: ${{ github.event.inputs.staging == 'true' }}
       architecture: X64
-      operating_system: macos-12
+      operating_system: self-hosted-X64
     secrets: inherit
 
   macos-arm-installer:
@@ -107,7 +107,7 @@ jobs:
       enterprise: ${{ github.event.inputs.enterprise == 'true' }}
       staging: ${{ github.event.inputs.staging == 'true' }}
       architecture: ARM64
-      operating_system: self-hosted
+      operating_system: self-hosted-ARM64
     secrets: inherit
 
   # Run and update nightly release when the nightly input is set to true or if the schedule is triggered

.github/workflows/macos.yml

@@ -27,7 +27,7 @@ on:
       architecture:
         description: 'Architecture'
         required: true
-        default: 'X64'
+        default: 'ARM64'
         type: choice
         options:
           - X64
@@ -35,10 +35,11 @@ on:
       operating_system:
         description: 'OS'
         required: true
-        default: 'macos-11'
+        default: 'self-hosted-ARM64'
         type: choice
         options:
-          - self-hosted
+          - self-hosted-X64
+          - self-hosted-ARM64
           - macos-11
           - macos-12
   workflow_call:
@@ -66,12 +67,12 @@ on:
       architecture:
         description: 'Architecture'
         required: true
-        default: 'X64'
+        default: 'ARM64'
         type: string
       operating_system:
         description: 'OS'
         required: true
-        default: 'macos-11'
+        default: 'self-hosted-ARM64'
         type: string
 
 env:
@@ -102,7 +103,7 @@ jobs:
       - name: Setup Python and pip
         uses: actions/setup-python@v4
         with:
-          python-version: '3.10.x'
+          python-version: '3.11.x'
           cache: 'pip'
           cache-dependency-path: .github/workflows/requirements-conan-package.txt
 

plugins/3MFReader/ThreeMFReader.py

@@ -186,6 +186,13 @@ class ThreeMFReader(MeshReader):
             if len(um_node.getAllChildren()) == 1:
                 # We don't want groups of one, so move the node up one "level"
                 child_node = um_node.getChildren()[0]
+                # Move all the meshes of children so that toolhandles are shown in the correct place.
+                if child_node.getMeshData():
+                    extents = child_node.getMeshData().getExtents()
+                    move_matrix = Matrix()
+                    move_matrix.translate(-extents.center)
+                    child_node.setMeshData(child_node.getMeshData().getTransformed(move_matrix))
+                    child_node.translate(extents.center)
                 parent_transformation = um_node.getLocalTransformation()
                 child_transformation = child_node.getLocalTransformation()
                 child_node.setTransformation(parent_transformation.multiply(child_transformation))
@@ -226,7 +233,8 @@ class ThreeMFReader(MeshReader):
                 if mesh_data is not None:
                     extents = mesh_data.getExtents()
                     if extents is not None:
-                        center_vector = Vector(extents.center.x, extents.center.y, extents.center.z)
+                        # We use a different coordinate space, so flip Z and Y
+                        center_vector = Vector(extents.center.x, extents.center.z, extents.center.y)
                         transform_matrix.setByTranslation(center_vector)
                 transform_matrix.multiply(um_node.getLocalTransformation())
                 um_node.setTransformation(transform_matrix)

plugins/CuraEngineBackend/StartSliceJob.py

@@ -1,4 +1,4 @@
-#  Copyright (c) 2021-2022 Ultimaker B.V.
+#  Copyright (c) 2023 UltiMaker
 #  Cura is released under the terms of the LGPLv3 or higher.
 import os
 
@@ -24,6 +24,7 @@ from UM.Scene.Iterator.DepthFirstIterator import DepthFirstIterator
 from UM.Scene.Scene import Scene #For typing.
 from UM.Settings.Validator import ValidatorState
 from UM.Settings.SettingRelation import RelationType
+from UM.Settings.SettingFunction import SettingFunction
 
 from cura.CuraApplication import CuraApplication
 from cura.Scene.CuraSceneNode import CuraSceneNode
@@ -46,44 +47,60 @@ class StartJobResult(IntEnum):
 
 
 class GcodeStartEndFormatter(Formatter):
-    """Formatter class that handles token expansion in start/end gcode"""
+    # Formatter class that handles token expansion in start/end gcode
+    # Example of a start/end gcode string:
+    # ```
+    # M104 S{material_print_temperature_layer_0, 0} ;pre-heat
+    # M140 S{material_bed_temperature_layer_0} ;heat bed
+    # M204 P{acceleration_print, 0} T{acceleration_travel, 0}
+    # M205 X{jerk_print, 0}
+    # ```
+    # Any expression between curly braces will be evaluated and replaced with the result, using the
+    # context of the provided default extruder. If no default extruder is provided, the global stack
+    # will be used. Alternatively, if the expression is formatted as "{[expression], [extruder_nr]}",
+    # then the expression will be evaluated with the extruder stack of the specified extruder_nr.
 
-    def __init__(self, default_extruder_nr: int = -1) -> None:
+    _extruder_regex = re.compile(r"^\s*(?P<expression>.*)\s*,\s*(?P<extruder_nr>\d+)\s*$")
+
+    def __init__(self, default_extruder_nr: int = -1, *,
+                 additional_per_extruder_settings: Optional[Dict[str, Dict[str, any]]] = None) -> None:
         super().__init__()
-        self._default_extruder_nr = default_extruder_nr
-
-    def get_value(self, key: str, args: str, kwargs: dict) -> str: #type: ignore # [CodeStyle: get_value is an overridden function from the Formatter class]
-        # The kwargs dictionary contains a dictionary for each stack (with a string of the extruder_nr as their key),
-        # and a default_extruder_nr to use when no extruder_nr is specified
+        self._default_extruder_nr: int = default_extruder_nr
+        self._additional_per_extruder_settings: Optional[Dict[str, Dict[str, any]]] = additional_per_extruder_settings
 
+    def get_value(self, expression: str, args: [str], kwargs: dict) -> str:
         extruder_nr = self._default_extruder_nr
 
-        key_fragments = [fragment.strip() for fragment in key.split(",")]
-        if len(key_fragments) == 2:
-            try:
-                extruder_nr = int(key_fragments[1])
-            except ValueError:
-                try:
-                    extruder_nr = int(kwargs["-1"][key_fragments[1]]) # get extruder_nr values from the global stack #TODO: How can you ever provide the '-1' kwarg?
-                except (KeyError, ValueError):
-                    # either the key does not exist, or the value is not an int
-                    Logger.log("w", "Unable to determine stack nr '%s' for key '%s' in start/end g-code, using global stack", key_fragments[1], key_fragments[0])
-        elif len(key_fragments) != 1:
-            Logger.log("w", "Incorrectly formatted placeholder '%s' in start/end g-code", key)
-            return "{" + key + "}"
+        # The settings may specify a specific extruder to use. This is done by
+        # formatting the expression as "{expression}, {extruder_nr}". If the
+        # expression is formatted like this, we extract the extruder_nr and use
+        # it to get the value from the correct extruder stack.
+        match = self._extruder_regex.match(expression)
+        if match:
+            expression = match.group("expression")
+            extruder_nr = int(match.group("extruder_nr"))
 
-        key = key_fragments[0]
+        if self._additional_per_extruder_settings is not None and str(
+                extruder_nr) in self._additional_per_extruder_settings:
+            additional_variables = self._additional_per_extruder_settings[str(extruder_nr)]
+        else:
+            additional_variables = dict()
 
-        default_value_str = "{" + key + "}"
-        value = default_value_str
-        # "-1" is global stack, and if the setting value exists in the global stack, use it as the fallback value.
-        if key in kwargs["-1"]:
-            value = kwargs["-1"][key]
-        if str(extruder_nr) in kwargs and key in kwargs[str(extruder_nr)]:
-            value = kwargs[str(extruder_nr)][key]
+        # Add the arguments and keyword arguments to the additional settings. These
+        # are currently _not_ used, but they are added for consistency with the
+        # base Formatter class.
+        for key, value in enumerate(args):
+            additional_variables[key] = value
+        for key, value in kwargs.items():
+            additional_variables[key] = value
 
-        if value == default_value_str:
-            Logger.log("w", "Unable to replace '%s' placeholder in start/end g-code", key)
+        if extruder_nr == -1:
+            container_stack = CuraApplication.getInstance().getGlobalContainerStack()
+        else:
+            container_stack = ExtruderManager.getInstance().getExtruderStack(extruder_nr)
+
+        setting_function = SettingFunction(expression)
+        value = setting_function(container_stack, additional_variables=additional_variables)
 
         return value
 
@@ -426,13 +443,14 @@ class StartSliceJob(Job):
             self._cacheAllExtruderSettings()
 
         try:
-            # any setting can be used as a token
-            fmt = GcodeStartEndFormatter(default_extruder_nr = default_extruder_nr)
-            if self._all_extruders_settings is None:
-                return ""
-            settings = self._all_extruders_settings.copy()
-            settings["default_extruder_nr"] = default_extruder_nr
-            return str(fmt.format(value, **settings))
+            # Get "replacement-keys" for the extruders. In the formatter the settings stack is used to get the
+            # replacement values for the setting-keys. However, the values for `material_id`, `material_type`,
+            # etc are not in the settings stack.
+            additional_per_extruder_settings = self._all_extruders_settings.copy()
+            additional_per_extruder_settings["default_extruder_nr"] = default_extruder_nr
+            fmt = GcodeStartEndFormatter(default_extruder_nr=default_extruder_nr,
+                                         additional_per_extruder_settings=additional_per_extruder_settings)
+            return str(fmt.format(value))
         except:
             Logger.logException("w", "Unable to do token replacement on start/end g-code")
             return str(value)

resources/i18n/es_ES/fdmprinter.def.json.po

@@ -380,6 +380,14 @@ msgctxt "machine_max_feedrate_x label"
 msgid "Maximum Speed X"
 msgstr "Velocidad máxima sobre el eje X"
 
+msgctxt "lightning_infill_support_angle description"
+msgid "Determines when a lightning infill layer has to support anything above it. Measured in the angle given the thickness of a layer."
+msgstr "Determina cuándo una capa de relleno de rayos tiene que soportar algo por encima de ella. Medido en el ángulo dado el espesor de una capa."
+
+msgctxt "lightning_infill_overhang_angle description"
+msgid "Determines when a lightning infill layer has to support the model above it. Measured in the angle given the thickness."
+msgstr "Determina cuándo una capa de relleno de rayos tiene que soportar el modelo que está por encima. Medido en el ángulo dado el espesor."
+
 msgctxt "machine_max_feedrate_x description"
 msgid "The maximum speed for the motor of the X-direction."
 msgstr "Velocidad máxima del motor de la dirección X."
@@ -1438,7 +1446,7 @@ msgstr "Patrón de relleno"
 
 msgctxt "infill_pattern description"
 msgid "The pattern of the infill material of the print. The line and zig zag infill swap direction on alternate layers, reducing material cost. The grid, triangle, tri-hexagon, cubic, octet, quarter cubic, cross and concentric patterns are fully printed every layer. Gyroid, cubic, quarter cubic and octet infill change with every layer to provide a more equal distribution of strength over each direction. Lightning infill tries to minimize the infill, by only supporting the ceiling of the object."
-msgstr "Patrón del material de relleno de la impresión. El método de llenado en línea y en zigzag cambia de dirección en capas alternas para reducir los costes de material. Los patrones de rejilla, triángulo, trihexágono, cubo, octaédrico, cubo bitruncado, transversal y concéntrico se imprimen en todas las capas por completo. Los rellenos de giroide, cúbico, cúbico bitruncado y octaédrico se alternan en cada capa para lograr una distribución más uniforme de la fuerza en todas las direcciones. El relleno de iluminación intenta minimizar el relleno apoyando solo la parte superior del objeto."
+msgstr "Patrón del material de relleno de la impresión. El método de llenado en línea y en zigzag cambia de dirección en capas alternas para reducir los costes de material. Los patrones de rejilla, triángulo, trihexágono, cubo, octaédrico, cubo bitruncado, transversal y concéntrico se imprimen en todas las capas por completo. Los rellenos de giroide, cúbico, cúbico bitruncado y octaédrico se alternan en cada capa para lograr una distribución más uniforme de la fuerza en todas las direcciones. El relleno de rayos intenta minimizar el relleno apoyando solo la parte superior del objeto."
 
 msgctxt "infill_pattern option grid"
 msgid "Grid"
@@ -1494,7 +1502,23 @@ msgstr "Giroide"
 
 msgctxt "infill_pattern option lightning"
 msgid "Lightning"
-msgstr "Iluminación"
+msgstr "Rayos"
+
+msgctxt "lightning_infill_overhang_angle label"
+msgid "Lightning Infill Overhang Angle"
+msgstr "Ángulo del voladizo de relleno de rayos"
+
+msgctxt "lightning_infill_prune_angle label"
+msgid "Lightning Infill Prune Angle"
+msgstr "Ángulo de recorte de relleno de rayos"
+
+msgctxt "lightning_infill_straightening_angle label"
+msgid "Lightning Infill Straightening Angle"
+msgstr "Ángulo de enderezamiento de rayos"
+
+msgctxt "lightning_infill_support_angle label"
+msgid "Lightning Infill Support Angle"
+msgstr "Ángulo de sujeción de relleno de rayos"
 
 msgctxt "zig_zaggify_infill label"
 msgid "Connect Infill Lines"
@@ -1664,34 +1688,10 @@ msgctxt "skin_edge_support_layers description"
 msgid "The number of infill layers that supports skin edges."
 msgstr "El número de capas de relleno que soportan los bordes del forro."
 
-msgctxt "lightning_infill_support_angle label"
-msgid "Lightning Infill Support Angle"
-msgstr "Ángulo de sujeción de relleno de iluminación"
-
-msgctxt "lightning_infill_support_angle description"
-msgid "Determines when a lightning infill layer has to support anything above it. Measured in the angle given the thickness of a layer."
-msgstr "Determina cuándo una capa de iluminación tiene que soportar algo por encima de ella. Medido en el ángulo dado el espesor de una capa."
-
-msgctxt "lightning_infill_overhang_angle label"
-msgid "Lightning Infill Overhang Angle"
-msgstr "Ángulo del voladizo de relleno de iluminación"
-
-msgctxt "lightning_infill_overhang_angle description"
-msgid "Determines when a lightning infill layer has to support the model above it. Measured in the angle given the thickness."
-msgstr "Determina cuándo una capa de relleno de iluminación tiene que soportar el modelo que está por encima. Medido en el ángulo dado el espesor."
-
-msgctxt "lightning_infill_prune_angle label"
-msgid "Lightning Infill Prune Angle"
-msgstr "Ángulo de recorte de relleno de iluminación"
-
 msgctxt "lightning_infill_prune_angle description"
 msgid "The endpoints of infill lines are shortened to save on material. This setting is the angle of overhang of the endpoints of these lines."
 msgstr "Los extremos de las líneas de relleno se acortan para ahorrar material. Esta configuración es el ángulo de voladizo de los extremos de estas líneas."
 
-msgctxt "lightning_infill_straightening_angle label"
-msgid "Lightning Infill Straightening Angle"
-msgstr "Ángulo de enderezamiento de iluminación"
-
 msgctxt "lightning_infill_straightening_angle description"
 msgid "The infill lines are straightened out to save on printing time. This is the maximum angle of overhang allowed across the length of the infill line."
 msgstr "Las líneas de relleno se simplifican para ahorrar tiempo al imprimir. Este es el ángulo máximo permitido del voladizo sobre la longitud de la línea de relleno."