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Merge branch 'main' into CURA-12446_top_bottom_wall_count_new

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63
.github/ISSUE_TEMPLATE/SlicingCrash.yaml vendored
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@ -5,38 +5,25 @@ body:
- type: markdown
attributes:
value: |
### ✨Try our improved Cura 5.7
Before filling out the report below, we want you to try the latest Cura 5.7.
This version of Cura has become significantly more reliable and has an updated slicing engine that will automatically send a report to the Cura Team for analysis.
#### [You can find the downloads here](https://github.com/Ultimaker/Cura/releases/latest) ####
If you still encounter a crash you are still welcome to report the issue so we can use your model as a test case, you can find instructions on how to do that below.
### ✨Are you stuck? Have you tried these two things?
1- Are you on a Cura version lower than Cura 5.7? We really recommend updating because it resolves a lot of slicing crashes!
2- Have you tried fixing the model with software that repairs 3d files and makes them watertight?
Are you seeing spots and dots on your model? That is Cura indicating that your model is not watertight.
You can try doing a quick [Mesh Fix with the Meshtools Plugin](https://marketplace.ultimaker.com/app/cura/plugins/fieldofview/MeshTools) or other mesh editing software.
### Project File
**⚠️ Before you continue, we need your project file to troubleshoot a slicing crash.**
It contains the printer and settings we need for troubleshooting.
If you still encounter a crash you are welcome to report the issue so we can use your model as a test case.
You can find instructions on how to share your model in a Package for Technical Support below.
![Alt Text](https://user-images.githubusercontent.com/40423138/240616958-5a9751f2-bd34-4808-9752-6fde2e27516e.gif)
To save a project file go to File -> Save project.
Please make sure to .zip your project file.
For big files, you may need to use [WeTransfer](https://wetransfer.com/) or similar file-sharing sites.
🤔 Before you share, please think to yourself. Is this a model that can be shared?
Unfortunately we cannot help if this file is missing.
Do you have the project file? Than let's continue ⬇️
### Questions
🤔 Before you share, please think to yourself. Is this a model that can be shared on the internet?
**Unfortunately, we cannot help if this file is missing.**
### Questions
- type: input
attributes:
label: Cura Version
placeholder: 5.6.0
description: We work hard on improving our slicing crashes. If you are not on the latest version of Cura, [you can download it here](https://github.com/Ultimaker/Cura/releases/latest)
validations:
required: true
- type: markdown
attributes:
value: |
We work hard on improving our slicing crashes. Our most recent release is 5.7.1.
If you are not on the latest version of Cura, [you can download it here](https://github.com/Ultimaker/Cura/releases/latest)
- type: input
attributes:
label: Operating System
@ -50,27 +37,13 @@ body:
description: Which printer was selected in Cura?
validations:
required: true
- type: input
attributes:
label: Name abnormal settings
description: Are there any settings that you might have changed that caused the crash? Does your model slice when you select the default profiles?
placeholder:
validations:
- type: input
attributes:
label: Describe model location
description: Does your model slice if you rotate the model 90 degrees or if you move it away from the center of the buildplate?
placeholder:
validations:
- type: input
attributes:
label: Describe your model
description: Have you sliced your model succesfully before? Is it watertight? Have you tried doing a quick [Mesh Fix with the Meshtools Plugin](https://marketplace.ultimaker.com/app/cura/plugins/fieldofview/MeshTools)?
validations:
required: true
- type: textarea
attributes:
label: Add your .zip here ⬇️
description: You can add the zip file and additional information that is relevant to the issue in the comments below.
label: Describe your problem and add the package for technical support as a .zip here ⬇️
description: |
If you still have Cura open with your crash > Click on Help on top bar > Click on Export Package For Technical Support > Compress the file into a zip > Add the file here to your GitHub issue 🔗
If you closed Cura, please open Cura to recreate the crash> Select your printer > Load your model > Select your print settings > Click on Help on top bar > Click on Export Package For Technical Support > Compress the file into a zip > Add the file here to your GitHub issue 🔗
validations:
required: true

2
conandata.yml
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@ -6,7 +6,7 @@ requirements:
- "cura_binary_data/5.11.0-alpha.0@ultimaker/testing"
- "fdm_materials/5.11.0-alpha.0@ultimaker/testing"
- "dulcificum/5.10.0"
- "pysavitar/5.10.0"
- "pysavitar/5.11.0-alpha.0"
- "pynest2d/5.10.0"
requirements_internal:
- "fdm_materials/5.11.0-alpha.0@ultimaker/testing"

36
cura/API/Interface/Settings.py
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@ -3,7 +3,7 @@
from dataclasses import asdict
from typing import cast, Dict, TYPE_CHECKING
from typing import cast, Dict, TYPE_CHECKING, Any
from UM.Settings.InstanceContainer import InstanceContainer
from UM.Settings.SettingFunction import SettingFunction
@ -54,6 +54,15 @@ class Settings:
return self.application.getSidebarCustomMenuItems()
def getAllGlobalSettings(self) -> Dict[str, Any]:
global_stack = cast(GlobalStack, self.application.getGlobalContainerStack())
all_settings = {}
for setting in global_stack.getAllKeys():
all_settings[setting] = self._retrieveValue(global_stack, setting)
return all_settings
def getSliceMetadata(self) -> Dict[str, Dict[str, Dict[str, str]]]:
"""Get all changed settings and all settings. For each extruder and the global stack"""
print_information = self.application.getPrintInformation()
@ -71,24 +80,16 @@ class Settings:
"quality": asdict(machine_manager.activeQualityDisplayNameMap()),
}
def _retrieveValue(container: InstanceContainer, setting_: str):
value_ = container.getProperty(setting_, "value")
for _ in range(0, 1024): # Prevent possibly endless loop by not using a limit.
if not isinstance(value_, SettingFunction):
return value_ # Success!
value_ = value_(container)
return 0 # Fallback value after breaking possibly endless loop.
global_stack = cast(GlobalStack, self.application.getGlobalContainerStack())
# Add global user or quality changes
global_flattened_changes = InstanceContainer.createMergedInstanceContainer(global_stack.userChanges, global_stack.qualityChanges)
for setting in global_flattened_changes.getAllKeys():
settings["global"]["changes"][setting] = _retrieveValue(global_flattened_changes, setting)
settings["global"]["changes"][setting] = self._retrieveValue(global_flattened_changes, setting)
# Get global all settings values without user or quality changes
for setting in global_stack.getAllKeys():
settings["global"]["all_settings"][setting] = _retrieveValue(global_stack, setting)
settings["global"]["all_settings"][setting] = self._retrieveValue(global_stack, setting)
for i, extruder in enumerate(global_stack.extruderList):
# Add extruder fields to settings dictionary
@ -100,10 +101,19 @@ class Settings:
# Add extruder user or quality changes
extruder_flattened_changes = InstanceContainer.createMergedInstanceContainer(extruder.userChanges, extruder.qualityChanges)
for setting in extruder_flattened_changes.getAllKeys():
settings[f"extruder_{i}"]["changes"][setting] = _retrieveValue(extruder_flattened_changes, setting)
settings[f"extruder_{i}"]["changes"][setting] = self._retrieveValue(extruder_flattened_changes, setting)
# Get extruder all settings values without user or quality changes
for setting in extruder.getAllKeys():
settings[f"extruder_{i}"]["all_settings"][setting] = _retrieveValue(extruder, setting)
settings[f"extruder_{i}"]["all_settings"][setting] = self._retrieveValue(extruder, setting)
return settings
@staticmethod
def _retrieveValue(container: InstanceContainer, setting_: str):
value_ = container.getProperty(setting_, "value")
for _ in range(0, 1024): # Prevent possibly endless loop by not using a limit.
if not isinstance(value_, SettingFunction):
return value_ # Success!
value_ = value_(container)
return 0 # Fallback value after breaking possibly endless loop.

9
cura/CuraApplication.py
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@ -188,6 +188,7 @@ class CuraApplication(QtApplication):
self._single_instance = None
self._open_project_mode: Optional[str] = None
self._read_operation_is_project_file: Optional[bool] = None
self._cura_formula_functions = None # type: Optional[CuraFormulaFunctions]
@ -2015,18 +2016,18 @@ class CuraApplication(QtApplication):
self.deleteAll()
break
is_project_file = self.checkIsValidProjectFile(file)
self._read_operation_is_project_file = self.checkIsValidProjectFile(file)
if self._open_project_mode is None:
self._open_project_mode = self.getPreferences().getValue("cura/choice_on_open_project")
if is_project_file and self._open_project_mode == "open_as_project":
if self._read_operation_is_project_file and self._open_project_mode == "open_as_project":
# open as project immediately without presenting a dialog
workspace_handler = self.getWorkspaceFileHandler()
workspace_handler.readLocalFile(file, add_to_recent_files_hint = add_to_recent_files)
return
if is_project_file and self._open_project_mode == "always_ask":
if self._read_operation_is_project_file and self._open_project_mode == "always_ask":
# present a dialog asking to open as project or import models
self.callLater(self.openProjectFile.emit, file, add_to_recent_files)
return
@ -2164,7 +2165,7 @@ class CuraApplication(QtApplication):
nodes_to_arrange.append(node)
# If the file is a project,and models are to be loaded from a that project,
# models inside file should be arranged in buildplate.
elif self._open_project_mode == "open_as_model":
elif self._read_operation_is_project_file and self._open_project_mode == "open_as_model":
nodes_to_arrange.append(node)
# This node is deep copied from some other node which already has a BuildPlateDecorator, but the deepcopy

3
cura/Settings/CuraContainerStack.py
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@ -402,6 +402,9 @@ class CuraContainerStack(ContainerStack):
return super().getProperty(key, property_name, context)
def getValue(self, key: str, context = None) -> Any:
return self.getProperty(key, "value", context)
class _ContainerIndexes:
"""Private helper class to keep track of container positions and their types."""

11
cura/Settings/ExtruderManager.py
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@ -15,6 +15,7 @@ from UM.Scene.Selection import Selection
from UM.Scene.Iterator.BreadthFirstIterator import BreadthFirstIterator
from UM.Settings.ContainerRegistry import ContainerRegistry # Finding containers by ID.
from cura.Machines.ContainerTree import ContainerTree
from cura.Settings.ExtruderStack import ExtruderStack
from typing import Any, cast, Dict, List, Optional, TYPE_CHECKING, Union
@ -304,6 +305,11 @@ class ExtruderManager(QObject):
Logger.log("e", "Unable to find one or more of the extruders in %s", used_extruder_stack_ids)
return []
def getFirstUsedExtruderStack(self)-> ExtruderStack:
used_extruders = self.getUsedExtruderStacks()
sorted_extruders = sorted(used_extruders, key=lambda extruder: extruder.getValue("extruder_nr"))
return sorted_extruders[0]
def getInitialExtruderNr(self) -> int:
"""Get the extruder that the print will start with.
@ -320,8 +326,7 @@ class ExtruderManager(QObject):
skirt_brim_extruder_nr = global_stack.getProperty("skirt_brim_extruder_nr", "value")
# if the skirt_brim_extruder_nr is -1, then we use the first used extruder
if skirt_brim_extruder_nr == -1:
used_extruders = self.getUsedExtruderStacks()
return used_extruders[0].position
return self.getFirstUsedExtruderStack().getValue("extruder_nr")
else:
return skirt_brim_extruder_nr
if adhesion_type == "raft":
@ -332,7 +337,7 @@ class ExtruderManager(QObject):
return global_stack.getProperty("support_infill_extruder_nr", "value")
# REALLY no adhesion? Use the first used extruder.
return self.getUsedExtruderStacks()[0].getProperty("extruder_nr", "value")
return self.getFirstUsedExtruderStack().getValue("extruder_nr")
def removeMachineExtruders(self, machine_id: str) -> None:
"""Removes the container stack and user profile for the extruders for a specific machine.

10
plugins/3MFReader/ThreeMFReader.py
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@ -94,7 +94,7 @@ class ThreeMFReader(MeshReader):
return temp_mat
@staticmethod
def _convertSavitarNodeToUMNode(savitar_node: Savitar.SceneNode, file_name: str = "") -> Optional[SceneNode]:
def _convertSavitarNodeToUMNode(savitar_node: Savitar.SceneNode, file_name: str = "", archive: zipfile.ZipFile = None) -> Optional[SceneNode]:
"""Convenience function that converts a SceneNode object (as obtained from libSavitar) to a scene node.
:returns: Scene node.
@ -115,6 +115,10 @@ class ThreeMFReader(MeshReader):
active_build_plate = CuraApplication.getInstance().getMultiBuildPlateModel().activeBuildPlate
component_path = savitar_node.getComponentPath()
if component_path != "" and archive is not None:
savitar_node.parseComponentData(archive.open(component_path.lstrip("/")).read())
um_node = CuraSceneNode() # This adds a SettingOverrideDecorator
um_node.addDecorator(BuildPlateDecorator(active_build_plate))
try:
@ -143,7 +147,7 @@ class ThreeMFReader(MeshReader):
um_node.setMeshData(mesh_data)
for child in savitar_node.getChildren():
child_node = ThreeMFReader._convertSavitarNodeToUMNode(child)
child_node = ThreeMFReader._convertSavitarNodeToUMNode(child, archive=archive)
if child_node:
um_node.addChild(child_node)
@ -232,7 +236,7 @@ class ThreeMFReader(MeshReader):
CuraApplication.getInstance().getController().getScene().setMetaDataEntry(key, value)
for node in scene_3mf.getSceneNodes():
um_node = ThreeMFReader._convertSavitarNodeToUMNode(node, file_name)
um_node = ThreeMFReader._convertSavitarNodeToUMNode(node, file_name, archive)
if um_node is None:
continue

2
plugins/3MFReader/__init__.py
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@ -23,7 +23,7 @@ def getMetaData() -> Dict:
if "3MFReader.ThreeMFReader" in sys.modules:
metaData["mesh_reader"] = [
{
"extension": "3mf",
"extension": workspace_extension,
"description": catalog.i18nc("@item:inlistbox", "3MF File")
}
]

176
plugins/3MFWriter/BambuLabVariant.py Normal file
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@ -0,0 +1,176 @@
# Copyright (c) 2025 UltiMaker
# Cura is released under the terms of the LGPLv3 or higher.
import hashlib
import json
from io import StringIO
import xml.etree.ElementTree as ET
import zipfile
from PyQt6.QtCore import Qt, QBuffer
from PyQt6.QtGui import QImage
from UM.Application import Application
from UM.Logger import Logger
from UM.Mesh.MeshWriter import MeshWriter
from UM.PluginRegistry import PluginRegistry
from typing import cast
from cura.CuraApplication import CuraApplication
from .ThreeMFVariant import ThreeMFVariant
from UM.i18n import i18nCatalog
catalog = i18nCatalog("cura")
# Path constants
METADATA_PATH = "Metadata"
THUMBNAIL_PATH_MULTIPLATE = f"{METADATA_PATH}/plate_1.png"
THUMBNAIL_PATH_MULTIPLATE_SMALL = f"{METADATA_PATH}/plate_1_small.png"
GCODE_PATH = f"{METADATA_PATH}/plate_1.gcode"
GCODE_MD5_PATH = f"{GCODE_PATH}.md5"
MODEL_SETTINGS_PATH = f"{METADATA_PATH}/model_settings.config"
PLATE_DESC_PATH = f"{METADATA_PATH}/plate_1.json"
SLICE_INFO_PATH = f"{METADATA_PATH}/slice_info.config"
PROJECT_SETTINGS_PATH = f"{METADATA_PATH}/project_settings.config"
class BambuLabVariant(ThreeMFVariant):
"""BambuLab specific implementation of the 3MF format."""
@property
def mime_type(self) -> str:
return "application/vnd.bambulab-package.3dmanufacturing-3dmodel+xml"
def process_thumbnail(self, snapshot: QImage, thumbnail_buffer: QBuffer,
archive: zipfile.ZipFile, relations_element: ET.Element) -> None:
"""Process the thumbnail for BambuLab variant."""
# Write thumbnail
archive.writestr(zipfile.ZipInfo(THUMBNAIL_PATH_MULTIPLATE), thumbnail_buffer.data())
# Add relations elements for thumbnails
ET.SubElement(relations_element, "Relationship",
Target="/" + THUMBNAIL_PATH_MULTIPLATE, Id="rel-2",
pe="http://schemas.openxmlformats.org/package/2006/relationships/metadata/thumbnail")
ET.SubElement(relations_element, "Relationship",
Target="/" + THUMBNAIL_PATH_MULTIPLATE, Id="rel-4",
Type="http://schemas.bambulab.com/package/2021/cover-thumbnail-middle")
# Create and save small thumbnail
small_snapshot = snapshot.scaled(128, 128, transformMode=Qt.TransformationMode.SmoothTransformation)
small_thumbnail_buffer = QBuffer()
small_thumbnail_buffer.open(QBuffer.OpenModeFlag.ReadWrite)
small_snapshot.save(small_thumbnail_buffer, "PNG")
# Write small thumbnail
archive.writestr(zipfile.ZipInfo(THUMBNAIL_PATH_MULTIPLATE_SMALL), small_thumbnail_buffer.data())
# Add relation for small thumbnail
ET.SubElement(relations_element, "Relationship",
Target="/" + THUMBNAIL_PATH_MULTIPLATE_SMALL, Id="rel-5",
Type="http://schemas.bambulab.com/package/2021/cover-thumbnail-small")
def add_extra_files(self, archive: zipfile.ZipFile, metadata_relations_element: ET.Element) -> None:
"""Add BambuLab specific files to the archive."""
self._storeGCode(archive, metadata_relations_element)
self._storeModelSettings(archive)
self._storePlateDesc(archive)
self._storeSliceInfo(archive)
self._storeProjectSettings(archive)
def _storeGCode(self, archive: zipfile.ZipFile, metadata_relations_element: ET.Element):
"""Store GCode data in the archive."""
gcode_textio = StringIO()
gcode_writer = cast(MeshWriter, PluginRegistry.getInstance().getPluginObject("GCodeWriter"))
success = gcode_writer.write(gcode_textio, None)
if not success:
error_msg = catalog.i18nc("@info:error", "Can't write GCode to 3MF file")
self._writer.setInformation(error_msg)
Logger.error(error_msg)
raise Exception(error_msg)
gcode_data = gcode_textio.getvalue().encode("UTF-8")
archive.writestr(zipfile.ZipInfo(GCODE_PATH), gcode_data)
gcode_relation_element = ET.SubElement(metadata_relations_element, "Relationship",
Target=f"/{GCODE_PATH}", Id="rel-1",
Type="http://schemas.bambulab.com/package/2021/gcode")
# Calculate and store the MD5 sum of the gcode data
md5_hash = hashlib.md5(gcode_data).hexdigest()
archive.writestr(zipfile.ZipInfo(GCODE_MD5_PATH), md5_hash.encode("UTF-8"))
def _storeModelSettings(self, archive: zipfile.ZipFile):
"""Store model settings in the archive."""
config = ET.Element("config")
plate = ET.SubElement(config, "plate")
ET.SubElement(plate, "metadata", key="plater_id", value="1")
ET.SubElement(plate, "metadata", key="plater_name", value="")
ET.SubElement(plate, "metadata", key="locked", value="false")
ET.SubElement(plate, "metadata", key="filament_map_mode", value="Auto For Flush")
extruders_count = len(CuraApplication.getInstance().getExtruderManager().extruderIds)
ET.SubElement(plate, "metadata", key="filament_maps", value=" ".join("1" for _ in range(extruders_count)))
ET.SubElement(plate, "metadata", key="gcode_file", value=GCODE_PATH)
ET.SubElement(plate, "metadata", key="thumbnail_file", value=THUMBNAIL_PATH_MULTIPLATE)
ET.SubElement(plate, "metadata", key="pattern_bbox_file", value=PLATE_DESC_PATH)
self._writer._storeElementTree(archive, MODEL_SETTINGS_PATH, config)
def _storePlateDesc(self, archive: zipfile.ZipFile):
"""Store plate description in the archive."""
plate_desc = {}
filament_ids = []
filament_colors = []
for extruder in CuraApplication.getInstance().getExtruderManager().getUsedExtruderStacks():
filament_ids.append(extruder.getValue("extruder_nr"))
filament_colors.append(self._writer._getMaterialColor(extruder))
plate_desc["filament_ids"] = filament_ids
plate_desc["filament_colors"] = filament_colors
plate_desc["first_extruder"] = CuraApplication.getInstance().getExtruderManager().getInitialExtruderNr()
plate_desc["is_seq_print"] = Application.getInstance().getGlobalContainerStack().getValue("print_sequence") == "one_at_a_time"
plate_desc["nozzle_diameter"] = CuraApplication.getInstance().getExtruderManager().getActiveExtruderStack().getValue("machine_nozzle_size")
plate_desc["version"] = 2
file = zipfile.ZipInfo(PLATE_DESC_PATH)
file.compress_type = zipfile.ZIP_DEFLATED
archive.writestr(file, json.dumps(plate_desc).encode("UTF-8"))
def _storeSliceInfo(self, archive: zipfile.ZipFile):
"""Store slice information in the archive."""
config = ET.Element("config")
header = ET.SubElement(config, "header")
ET.SubElement(header, "header_item", key="X-BBL-Client-Type", value="slicer")
ET.SubElement(header, "header_item", key="X-BBL-Client-Version", value="02.00.01.50")
plate = ET.SubElement(config, "plate")
ET.SubElement(plate, "metadata", key="index", value="1")
ET.SubElement(plate,
"metadata",
key="nozzle_diameters",
value=str(CuraApplication.getInstance().getExtruderManager().getActiveExtruderStack().getValue("machine_nozzle_size")))
print_information = CuraApplication.getInstance().getPrintInformation()
for index, extruder in enumerate(Application.getInstance().getGlobalContainerStack().extruderList):
used_m = print_information.materialLengths[index]
used_g = print_information.materialWeights[index]
if used_m > 0.0 and used_g > 0.0:
ET.SubElement(plate,
"filament",
id=str(extruder.getValue("extruder_nr") + 1),
tray_info_idx="GFA00",
type=extruder.material.getMetaDataEntry("material", ""),
color=self._writer._getMaterialColor(extruder),
used_m=str(used_m),
used_g=str(used_g))
self._writer._storeElementTree(archive, SLICE_INFO_PATH, config)
def _storeProjectSettings(self, archive: zipfile.ZipFile):
api = CuraApplication.getInstance().getCuraAPI()
file = zipfile.ZipInfo(PROJECT_SETTINGS_PATH)
json_string = json.dumps(api.interface.settings.getAllGlobalSettings(), separators=(", ", ": "), indent=4)
archive.writestr(file, json_string.encode("UTF-8"))

33
plugins/3MFWriter/Cura3mfVariant.py Normal file
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@ -0,0 +1,33 @@
# Copyright (c) 2025 UltiMaker
# Cura is released under the terms of the LGPLv3 or higher.
import xml.etree.ElementTree as ET
import zipfile
from PyQt6.QtCore import QBuffer
from PyQt6.QtGui import QImage
from .ThreeMFVariant import ThreeMFVariant
# Standard 3MF paths
METADATA_PATH = "Metadata"
THUMBNAIL_PATH = f"{METADATA_PATH}/thumbnail.png"
class Cura3mfVariant(ThreeMFVariant):
"""Default implementation of the 3MF format."""
@property
def mime_type(self) -> str:
return "application/vnd.ms-package.3dmanufacturing-3dmodel+xml"
def process_thumbnail(self, snapshot: QImage, thumbnail_buffer: QBuffer,
archive: zipfile.ZipFile, relations_element: ET.Element) -> None:
"""Process the thumbnail for default 3MF variant."""
thumbnail_file = zipfile.ZipInfo(THUMBNAIL_PATH)
# Don't try to compress snapshot file, because the PNG is pretty much as compact as it will get
archive.writestr(thumbnail_file, thumbnail_buffer.data())
# Add thumbnail relation to _rels/.rels file
ET.SubElement(relations_element, "Relationship",
Target="/" + THUMBNAIL_PATH, Id="rel1",
Type="http://schemas.openxmlformats.org/package/2006/relationships/metadata/thumbnail")

74
plugins/3MFWriter/ThreeMFVariant.py Normal file
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@ -0,0 +1,74 @@
# Copyright (c) 2025 UltiMaker
# Cura is released under the terms of the LGPLv3 or higher.
from abc import ABC, abstractmethod
from typing import TYPE_CHECKING
import xml.etree.ElementTree as ET
import zipfile
from PyQt6.QtGui import QImage
from PyQt6.QtCore import QBuffer
if TYPE_CHECKING:
from .ThreeMFWriter import ThreeMFWriter
class ThreeMFVariant(ABC):
"""Base class for 3MF format variants.
Different vendors may have their own extensions to the 3MF format,
such as BambuLab's 3MF variant. This class provides an interface
for implementing these variants.
"""
def __init__(self, writer: 'ThreeMFWriter'):
"""
:param writer: The ThreeMFWriter instance that will use this variant
"""
self._writer = writer
@property
@abstractmethod
def mime_type(self) -> str:
"""The MIME type for this 3MF variant."""
pass
def handles_mime_type(self, mime_type: str) -> bool:
"""Check if this variant handles the given MIME type.
:param mime_type: The MIME type to check
:return: True if this variant handles the MIME type, False otherwise
"""
return mime_type == self.mime_type
def prepare_content_types(self, content_types: ET.Element) -> None:
"""Prepare the content types XML element for this variant.
:param content_types: The content types XML element
"""
pass
def prepare_relations(self, relations_element: ET.Element) -> None:
"""Prepare the relations XML element for this variant.
:param relations_element: The relations XML element
"""
pass
def process_thumbnail(self, snapshot: QImage, thumbnail_buffer: QBuffer,
archive: zipfile.ZipFile, relations_element: ET.Element) -> None:
"""Process the thumbnail for this variant.
:param snapshot: The snapshot image
:param thumbnail_buffer: Buffer containing the thumbnail data
:param archive: The zip archive to write to
:param relations_element: The relations XML element
"""
pass
def add_extra_files(self, archive: zipfile.ZipFile, metadata_relations_element: ET.Element) -> None:
"""Add any extra files required by this variant to the archive.
:param archive: The zip archive to write to
:param metadata_relations_element: The metadata relations XML element
"""
pass

90
plugins/3MFWriter/ThreeMFWriter.py
View File

@ -1,11 +1,13 @@
# Copyright (c) 2015-2022 Ultimaker B.V.
# Copyright (c) 2015-2025 UltiMaker
# Cura is released under the terms of the LGPLv3 or higher.
import json
import re
import threading
from typing import Optional, cast, List, Dict, Pattern, Set
from typing import Optional, cast, List, Dict, Set
from UM.PluginRegistry import PluginRegistry
from UM.Mesh.MeshWriter import MeshWriter
from UM.Math.Vector import Vector
from UM.Logger import Logger
@ -19,7 +21,9 @@ from UM.Settings.ContainerRegistry import ContainerRegistry
from cura.CuraApplication import CuraApplication
from cura.CuraPackageManager import CuraPackageManager
from cura.Machines.Models.ExtrudersModel import ExtrudersModel
from cura.Settings import CuraContainerStack
from cura.Settings.ExtruderStack import ExtruderStack
from cura.Utils.Threading import call_on_qt_thread
from cura.Scene.CuraSceneNode import CuraSceneNode
from cura.Snapshot import Snapshot
@ -45,11 +49,13 @@ import UM.Application
from .SettingsExportModel import SettingsExportModel
from .SettingsExportGroup import SettingsExportGroup
from .ThreeMFVariant import ThreeMFVariant
from .Cura3mfVariant import Cura3mfVariant
from .BambuLabVariant import BambuLabVariant
from UM.i18n import i18nCatalog
catalog = i18nCatalog("cura")
THUMBNAIL_PATH = "Metadata/thumbnail.png"
MODEL_PATH = "3D/3dmodel.model"
PACKAGE_METADATA_PATH = "Cura/packages.json"
@ -68,6 +74,12 @@ class ThreeMFWriter(MeshWriter):
self._store_archive = False
self._lock = threading.Lock()
# Register available variants
self._variants = {
Cura3mfVariant(self).mime_type: Cura3mfVariant,
BambuLabVariant(self).mime_type: BambuLabVariant
}
@staticmethod
def _convertMatrixToString(matrix):
result = ""
@ -201,26 +213,48 @@ class ThreeMFWriter(MeshWriter):
painter.end()
def write(self, stream, nodes, mode = MeshWriter.OutputMode.BinaryMode, export_settings_model = None) -> bool:
def _getVariant(self, mime_type: str) -> ThreeMFVariant:
"""Get the appropriate variant for the given MIME type.
:param mime_type: The MIME type to get the variant for
:return: An instance of the variant for the given MIME type
"""
variant_class = self._variants.get(mime_type, Cura3mfVariant)
return variant_class(self)
def write(self, stream, nodes, mode = MeshWriter.OutputMode.BinaryMode, export_settings_model = None, **kwargs) -> bool:
self._archive = None # Reset archive
archive = zipfile.ZipFile(stream, "w", compression = zipfile.ZIP_DEFLATED)
# Determine which variant to use based on mime type in kwargs
mime_type = kwargs.get("mime_type", Cura3mfVariant(self).mime_type)
variant = self._getVariant(mime_type)
try:
model_file = zipfile.ZipInfo(MODEL_PATH)
# Because zipfile is stupid and ignores archive-level compression settings when writing with ZipInfo.
model_file.compress_type = zipfile.ZIP_DEFLATED
# Create content types file
content_types_file = zipfile.ZipInfo("[Content_Types].xml")
content_types_file.compress_type = zipfile.ZIP_DEFLATED
content_types = ET.Element("Types", xmlns = self._namespaces["content-types"])
rels_type = ET.SubElement(content_types, "Default", Extension = "rels", ContentType = "application/vnd.openxmlformats-package.relationships+xml")
model_type = ET.SubElement(content_types, "Default", Extension = "model", ContentType = "application/vnd.ms-package.3dmanufacturing-3dmodel+xml")
# Create _rels/.rels file
relations_file = zipfile.ZipInfo("_rels/.rels")
relations_file.compress_type = zipfile.ZIP_DEFLATED
relations_element = ET.Element("Relationships", xmlns = self._namespaces["relationships"])
model_relation_element = ET.SubElement(relations_element, "Relationship", Target = "/" + MODEL_PATH, Id = "rel0", Type = "http://schemas.microsoft.com/3dmanufacturing/2013/01/3dmodel")
relations_element = self._makeRelationsTree()
model_relation_element = ET.SubElement(relations_element, "Relationship", Target="/" + MODEL_PATH,
Id="rel0",
Type="http://schemas.microsoft.com/3dmanufacturing/2013/01/3dmodel")
# Create Metadata/_rels/model_settings.config.rels
metadata_relations_element = self._makeRelationsTree()
# Let the variant add its specific files
variant.add_extra_files(archive, metadata_relations_element)
# Let the variant prepare content types and relations
variant.prepare_content_types(content_types)
variant.prepare_relations(relations_element)
# Attempt to add a thumbnail
snapshot = self._createSnapshot()
@ -233,16 +267,11 @@ class ThreeMFWriter(MeshWriter):
thumbnail_buffer.open(QBuffer.OpenModeFlag.ReadWrite)
snapshot.save(thumbnail_buffer, "PNG")
thumbnail_file = zipfile.ZipInfo(THUMBNAIL_PATH)
# Don't try to compress snapshot file, because the PNG is pretty much as compact as it will get
archive.writestr(thumbnail_file, thumbnail_buffer.data())
# Add PNG to content types file
thumbnail_type = ET.SubElement(content_types, "Default", Extension="png", ContentType="image/png")
# Add thumbnail relation to _rels/.rels file
thumbnail_relation_element = ET.SubElement(relations_element, "Relationship",
Target="/" + THUMBNAIL_PATH, Id="rel1",
Type="http://schemas.openxmlformats.org/package/2006/relationships/metadata/thumbnail")
# Let the variant process the thumbnail
variant.process_thumbnail(snapshot, thumbnail_buffer, archive, relations_element)
# Write material metadata
packages_metadata = self._getMaterialPackageMetadata() + self._getPluginPackageMetadata()
@ -305,8 +334,10 @@ class ThreeMFWriter(MeshWriter):
scene_string = parser.sceneToString(savitar_scene)
archive.writestr(model_file, scene_string)
archive.writestr(content_types_file, b'<?xml version="1.0" encoding="UTF-8"?> \n' + ET.tostring(content_types))
archive.writestr(relations_file, b'<?xml version="1.0" encoding="UTF-8"?> \n' + ET.tostring(relations_element))
self._storeElementTree(archive, "[Content_Types].xml", content_types)
self._storeElementTree(archive, "_rels/.rels", relations_element)
if len(metadata_relations_element) > 0:
self._storeElementTree(archive, "Metadata/_rels/model_settings.config.rels", metadata_relations_element)
except Exception as error:
Logger.logException("e", "Error writing zip file")
self.setInformation(str(error))
@ -319,6 +350,25 @@ class ThreeMFWriter(MeshWriter):
return True
@staticmethod
def _storeElementTree(archive: zipfile.ZipFile, file_path: str, root_element: ET.Element):
file = zipfile.ZipInfo(file_path)
file.compress_type = zipfile.ZIP_DEFLATED
archive.writestr(file, b'<?xml version="1.0" encoding="UTF-8"?> \n' + ET.tostring(root_element))
def _makeRelationsTree(self):
return ET.Element("Relationships", xmlns=self._namespaces["relationships"])
@staticmethod
def _getMaterialColor(extruder: "ExtruderStack") -> str:
position = int(extruder.getMetaDataEntry("position", default="0"))
try:
default_color = ExtrudersModel.defaultColors[position]
except IndexError:
default_color = "#e0e000"
color_code = extruder.material.getMetaDataEntry("color_code", default=default_color)
return color_code.upper()
@staticmethod
def _storeMetadataJson(metadata: Dict[str, List[Dict[str, str]]], archive: zipfile.ZipFile, path: str) -> None:
"""Stores metadata inside archive path as json file"""

10
plugins/3MFWriter/__init__.py
View File

@ -28,11 +28,17 @@ def getMetaData():
metaData["mesh_writer"] = {
"output": [
{
"extension": "3mf",
"extension": workspace_extension,
"description": i18n_catalog.i18nc("@item:inlistbox", "3MF file"),
"mime_type": "application/vnd.ms-package.3dmanufacturing-3dmodel+xml",
"mode": ThreeMFWriter.ThreeMFWriter.OutputMode.BinaryMode
},
{
"extension": f"gcode.{workspace_extension}",
"description": i18n_catalog.i18nc("@item:inlistbox", "BambuLab 3MF file"),
"mime_type": "application/vnd.bambulab-package.3dmanufacturing-3dmodel+xml",
"mode": ThreeMFWorkspaceWriter.ThreeMFWorkspaceWriter.OutputMode.BinaryMode
}
]
}
metaData["workspace_writer"] = {
@ -44,7 +50,7 @@ def getMetaData():
"mode": ThreeMFWorkspaceWriter.ThreeMFWorkspaceWriter.OutputMode.BinaryMode
},
{
"extension": "3mf",
"extension": workspace_extension,
"description": i18n_catalog.i18nc("@item:inlistbox", "Universal Cura Project"),
"mime_type": "application/x-ucp",
"mode": ThreeMFWorkspaceWriter.ThreeMFWorkspaceWriter.OutputMode.BinaryMode

2
plugins/GCodeGzWriter/GCodeGzWriter.py
View File

@ -24,7 +24,7 @@ class GCodeGzWriter(MeshWriter):
def __init__(self) -> None:
super().__init__(add_to_recent_files = False)
def write(self, stream: BufferedIOBase, nodes: List[SceneNode], mode = MeshWriter.OutputMode.BinaryMode) -> bool:
def write(self, stream: BufferedIOBase, nodes: List[SceneNode], mode = MeshWriter.OutputMode.BinaryMode, **kwargs) -> bool:
"""Writes the gzipped g-code to a stream.
Note that even though the function accepts a collection of nodes, the

2
plugins/GCodeWriter/GCodeWriter.py
View File

@ -56,7 +56,7 @@ class GCodeWriter(MeshWriter):
self._application = Application.getInstance()
def write(self, stream, nodes, mode = MeshWriter.OutputMode.TextMode):
def write(self, stream, nodes, mode = MeshWriter.OutputMode.TextMode, **kwargs):
"""Writes the g-code for the entire scene to a stream.
Note that even though the function accepts a collection of nodes, the

2
plugins/MakerbotWriter/MakerbotWriter.py
View File

@ -91,7 +91,7 @@ class MakerbotWriter(MeshWriter):
return None
def write(self, stream: BufferedIOBase, nodes: List[SceneNode], mode=MeshWriter.OutputMode.BinaryMode) -> bool:
def write(self, stream: BufferedIOBase, nodes: List[SceneNode], mode=MeshWriter.OutputMode.BinaryMode, **kwargs) -> bool:
metadata, file_format = self._getMeta(nodes)
if mode != MeshWriter.OutputMode.BinaryMode:
Logger.log("e", "MakerbotWriter does not support text mode.")

2
plugins/PostProcessingPlugin/scripts/PurgeLinesAndUnload.py
View File

@ -496,7 +496,7 @@ class PurgeLinesAndUnload(Script):
"""Generates G-code lines for prime blob adjustment."""
gcode_lines = [
f"G1 F{retract_speed} E{retract_distance} ; Unretract",
"G92 E0 ; Reset extruder"
"G92 E0 ; Reset extruder\n"
]
return "\n".join(gcode_lines)

3
plugins/RemovableDriveOutputDevice/RemovableDriveOutputDevice.py
View File

@ -101,7 +101,8 @@ class RemovableDriveOutputDevice(OutputDevice):
self._stream = open(file_name, "wt", buffering = 1, encoding = "utf-8")
else: #Binary mode.
self._stream = open(file_name, "wb", buffering = 1)
job = WriteFileJob(writer, self._stream, nodes, preferred_format["mode"])
writer_args = {"mime_type": preferred_format["mime_type"]}
job = WriteFileJob(writer, self._stream, nodes, preferred_format["mode"], writer_args)
job.setFileName(file_name)
job.progress.connect(self._onProgress)
job.finished.connect(self._onFinished)

2
plugins/UFPWriter/UFPWriter.py
View File

@ -51,7 +51,7 @@ class UFPWriter(MeshWriter):
# Qt thread. The File read/write operations right now are executed on separated threads because they are scheduled
# by the Job class.
@call_on_qt_thread
def write(self, stream, nodes, mode = MeshWriter.OutputMode.BinaryMode):
def write(self, stream, nodes, mode = MeshWriter.OutputMode.BinaryMode, **kwargs):
archive = VirtualFile()
archive.openStream(stream, "application/x-ufp", OpenMode.WriteOnly)

42
resources/definitions/bambulab_a1.def.json Normal file
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42
resources/definitions/bambulab_a1mini.def.json Normal file
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267
resources/definitions/bambulab_base.def.json Normal file
View File

@ -0,0 +1,267 @@
{
"version": 2,
"name": "BambuLab base definition",
"inherits": "fdmprinter",
"metadata":
{
"visible": false,
"author": "UltiMaker",
"manufacturer": "BambuLab",
"file_formats": "application/vnd.bambulab-package.3dmanufacturing-3dmodel+xml"
},
"overrides":
{
"acceleration_infill": { "value": "acceleration_print" },
"acceleration_layer_0": { "value": 2000 },
"acceleration_prime_tower": { "value": "acceleration_print" },
"acceleration_print": { "value": 20000 },
"acceleration_print_layer_0": { "value": "acceleration_layer_0" },
"acceleration_roofing": { "value": "acceleration_wall_0" },
"acceleration_skirt_brim": { "value": "acceleration_layer_0" },
"acceleration_support": { "value": "acceleration_print" },
"acceleration_support_bottom": { "value": "acceleration_support_interface" },
"acceleration_support_infill": { "value": "acceleration_support" },
"acceleration_support_interface": { "value": "acceleration_support" },
"acceleration_support_roof": { "value": "acceleration_support_interface" },
"acceleration_topbottom": { "value": "acceleration_print" },
"acceleration_travel": { "value": 20000 },
"acceleration_travel_enabled": { "value": true },
"acceleration_travel_layer_0": { "value": "acceleration_layer_0" },
"acceleration_wall": { "value": "acceleration_print/8" },
"acceleration_wall_0": { "value": "acceleration_wall" },
"acceleration_wall_0_roofing": { "value": "acceleration_wall_0" },
"acceleration_wall_x": { "value": "acceleration_print" },
"acceleration_wall_x_roofing": { "value": "acceleration_wall" },
"adhesion_type": { "value": "'skirt'" },
"bottom_thickness": { "value": 0.6 },
"bridge_skin_speed":
{
"unit": "mm/s",
"value": "bridge_wall_speed"
},
"bridge_sparse_infill_max_density": { "value": 50 },
"bridge_wall_min_length": { "value": 10 },
"bridge_wall_speed":
{
"unit": "mm/s",
"value": 50
},
"cool_min_layer_time": { "value": 6 },
"cool_min_speed": { "value": 6 },
"cool_min_temperature": { "value": "material_print_temperature-15" },
"default_material_print_temperature": { "maximum_value_warning": 320 },
"extra_infill_lines_to_support_skins": { "value": "'walls_and_lines'" },
"gradual_flow_enabled": { "value": false },
"hole_xy_offset": { "value": 0.075 },
"infill_overlap": { "value": 10 },
"infill_pattern": { "value": "'zigzag' if infill_sparse_density > 80 else 'gyroid'" },
"infill_sparse_density": { "value": 15 },
"infill_wall_line_count": { "value": "1 if infill_sparse_density > 80 else 0" },
"jerk_infill": { "value": "jerk_print" },
"jerk_layer_0": { "value": "jerk_print/2" },
"jerk_prime_tower": { "value": "jerk_print" },
"jerk_print": { "value": "50" },
"jerk_print_layer_0": { "value": "jerk_layer_0" },
"jerk_roofing": { "value": "jerk_wall_0" },
"jerk_skirt_brim": { "value": "jerk_layer_0" },
"jerk_support": { "value": "jerk_print" },
"jerk_support_bottom": { "value": "jerk_support_interface" },
"jerk_support_infill": { "value": "jerk_support" },
"jerk_support_interface": { "value": "jerk_support" },
"jerk_support_roof": { "value": "jerk_support_interface" },
"jerk_topbottom": { "value": "jerk_print" },
"jerk_travel": { "value": 50 },
"jerk_travel_enabled": { "value": true },
"jerk_travel_layer_0": { "value": "jerk_travel" },
"jerk_wall": { "value": "jerk_print/5" },
"jerk_wall_0": { "value": "jerk_wall" },
"jerk_wall_0_roofing": { "value": "jerk_wall_0" },
"jerk_wall_x": { "value": "jerk_print" },
"jerk_wall_x_roofing": { "value": "jerk_wall_0" },
"line_width": { "value": 0.42 },
"machine_acceleration": { "value": 10000 },
"machine_buildplate_type":
{
"default_value": "textured_pei_plate",
"options":
{
"cool_plate": "Cool Plate",
"engineering_plate": "Engineering Plate",
"high_temp_plate": "High Temp Plate",
"textured_pei_plate": "Textured PEI Plate"
}
},
"machine_center_is_zero": { "default_value": false },
"machine_gcode_flavor": { "default_value": "BambuLab" },
"machine_heated_bed": { "default_value": true },
"machine_max_feedrate_e": { "value": 150 },
"machine_max_feedrate_x": { "value": 500 },
"machine_max_feedrate_y": { "value": 500 },
"machine_max_feedrate_z": { "value": 15 },
"machine_max_jerk_e": { "default_value": 100 },
"machine_max_jerk_xy": { "default_value": 5000 },
"machine_max_jerk_z": { "default_value": 100 },
"machine_nozzle_cool_down_speed": { "default_value": 1.3 },
"machine_nozzle_heat_up_speed": { "default_value": 1.9 },
"machine_nozzle_size": { "default_value": 0.4 },
"machine_show_variants": { "value": true },
"machine_use_extruder_offset_to_offset_coords": { "value": false },
"material_diameter": { "default_value": 1.75 },
"material_flush_purge_length":
{
"default_value": 80,
"enabled": "not prime_tower_enable"
},
"material_flush_purge_speed":
{
"default_value": 500,
"enabled": "not prime_tower_enable"
},
"material_max_flowrate": { "enabled": true },
"max_skin_angle_for_expansion": { "value": 45 },
"meshfix_maximum_resolution": { "value": 0.4 },
"min_infill_area": { "default_value": 10 },
"optimize_wall_printing_order": { "value": false },
"prime_tower_enable": { "default_value": true },
"prime_tower_line_width": { "value": "1.5 * line_width" },
"prime_tower_min_volume": { "default_value": 250 },
"prime_tower_size": { "default_value": 40 },
"relative_extrusion": { "value": true },
"retraction_amount": { "value": 0.5 },
"retraction_combing_max_distance": { "value": 100 },
"retraction_extra_prime_amount": { "value": 0.12 },
"retraction_hop": { "value": 0.2 },
"retraction_hop_after_extruder_switch_height": { "value": 2 },
"retraction_hop_enabled": { "value": true },
"retraction_min_travel": { "value": "5 if support_enable and support_structure=='tree' else line_width * 2" },
"retraction_prime_speed": { "value": 15 },
"retraction_speed": { "value": 30 },
"skin_edge_support_thickness": { "value": 0 },
"skin_material_flow": { "value": 95 },
"skin_overlap": { "value": 0 },
"skin_preshrink": { "value": 0 },
"skirt_brim_speed": { "maximum_value_warning": 500 },
"skirt_line_count": { "value": 5 },
"small_skin_on_surface": { "value": false },
"small_skin_width": { "value": 4 },
"speed_infill":
{
"maximum_value_warning": 500,
"value": "speed_print"
},
"speed_ironing":
{
"maximum_value_warning": 500,
"value": 20
},
"speed_layer_0":
{
"maximum_value_warning": 500,
"value": "speed_print/6"
},
"speed_prime_tower":
{
"maximum_value_warning": 500,
"value": "speed_wall"
},
"speed_print":
{
"maximum_value_warning": 500,
"value": 300
},
"speed_print_layer_0":
{
"maximum_value_warning": 500,
"value": "speed_layer_0"
},
"speed_roofing":
{
"maximum_value_warning": 500,
"value": "speed_wall"
},
"speed_support":
{
"maximum_value_warning": 500,
"value": "speed_wall_0"
},
"speed_support_bottom":
{
"maximum_value_warning": 500,
"value": "speed_support_interface"
},
"speed_support_infill":
{
"maximum_value_warning": 500,
"value": "speed_support"
},
"speed_support_interface":
{
"maximum_value_warning": 500,
"value": 50
},
"speed_support_roof":
{
"maximum_value_warning": 500,
"value": "speed_support_interface"
},
"speed_topbottom":
{
"maximum_value_warning": 500,
"value": "speed_print"
},
"speed_travel":
{
"maximum_value": 500,
"value": 500
},
"speed_travel_layer_0":
{
"maximum_value": 500,
"value": 150
},
"speed_wall":
{
"maximum_value_warning": 500,
"value": "speed_print*2/3"
},
"speed_wall_0":
{
"maximum_value_warning": 500,
"value": "speed_wall"
},
"speed_wall_0_roofing":
{
"maximum_value_warning": 500,
"value": "speed_wall"
},
"speed_wall_x":
{
"maximum_value_warning": 500,
"value": "speed_print"
},
"speed_wall_x_roofing":
{
"maximum_value_warning": 500,
"value": "speed_wall"
},
"support_brim_line_count": { "value": 5 },
"support_infill_rate": { "value": "80 if gradual_support_infill_steps != 0 else 15" },
"support_pattern": { "value": "'gyroid'" },
"support_structure": { "value": "'tree'" },
"switch_extruder_retraction_amount": { "value": 5 },
"travel_avoid_other_parts": { "value": false },
"wall_0_acceleration": { "value": 1000 },
"wall_0_deceleration": { "value": 1000 },
"wall_0_end_speed_ratio": { "value": 100 },
"wall_0_speed_split_distance": { "value": 0.2 },
"wall_0_start_speed_ratio": { "value": 100 },
"wall_0_wipe_dist": { "value": 0 },
"wall_material_flow": { "value": 95 },
"wall_overhang_angle": { "value": 10 },
"wall_overhang_speed_factors": { "default_value": "[25,15,5,5]" },
"wall_x_material_flow": { "value": 100 },
"z_seam_corner": { "value": "'z_seam_corner_weighted'" },
"z_seam_position": { "value": "'backright'" },
"z_seam_type": { "value": "'sharpest_corner'" }
}
}

58
resources/definitions/bambulab_x1.def.json Normal file
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66
resources/definitions/fdmprinter.def.json
View File

@ -214,8 +214,8 @@
},
"machine_buildplate_type":
{
"label": "Build Plate Material",
"description": "The material of the build plate installed on the printer.",
"label": "Build Plate Type",
"description": "The type of build plate installed on the printer.",
"default_value": "glass",
"type": "enum",
"options":
@ -388,7 +388,8 @@
"Makerbot": "Makerbot",
"BFB": "Bits from Bytes",
"MACH3": "Mach3",
"Repetier": "Repetier"
"Repetier": "Repetier",
"BambuLab": "BambuLab"
},
"default_value": "RepRap (Marlin/Sprinter)",
"settable_per_mesh": false,
@ -3421,6 +3422,20 @@
"settable_per_mesh": false,
"settable_per_extruder": true,
"settable_per_meshgroup": false
},
"material_max_flowrate":
{
"default_value": 16,
"description": "Maximum flow rate that the printer can extrude for the material",
"enabled": false,
"label": "Material Maximum Flow Rate",
"maximum_value": "machine_max_feedrate_e * (material_diameter/2)**2 * math.pi",
"minimum_value": "0",
"settable_per_extruder": true,
"settable_per_mesh": false,
"type": "float",
"unit": "mm\u00b3/s",
"value": "16"
}
}
},
@ -4900,7 +4915,7 @@
},
"build_fan_full_at_height":
{
"label": "Build Fan Speed at Height",
"label": "Build Volume Fan Speed at Height",
"description": "The height at which the fans spin on regular fan speed. At the layers below the fan speed gradually increases from Initial Fan Speed to Regular Fan Speed.",
"unit": "mm",
"type": "float",
@ -4915,8 +4930,8 @@
{
"build_fan_full_layer":
{
"label": "Build Fan Speed at Layer",
"description": "The layer at which the build fans spin on full fan speed. This value is calculated and rounded to a whole number.",
"label": "Build Volume Fan Speed at Layer",
"description": "The layer at which the build-volume fans spin on full fan speed. This value is calculated and rounded to a whole number.",
"type": "int",
"default_value": 0,
"minimum_value": "0",
@ -4929,6 +4944,34 @@
}
}
},
"build_volume_fan_speed_0":
{
"label": "Initial Layers Build Volume Fan Speed",
"description": "The fan speed (as a percentage) for the auxiliary or build-volume fan, that is set until the layer specified at 'Build Volume Fan Speed at Layer' is reached. After that, the speed is set by 'Build Volume Fan Speed' instead (so not this 'Initial Layers' one).",
"unit": "%",
"type": "float",
"minimum_value": "0",
"maximum_value": "100",
"default_value": 0,
"enabled": "build_volume_fan_nr != 0",
"settable_per_mesh": false,
"settable_per_extruder": false,
"settable_per_meshgroup": false
},
"build_volume_fan_speed":
{
"label": "Build Volume Fan Speed",
"description": "The fan speed (as a percentage) for the auxiliary or build-volume fan, that is set from the moment that the layer specified at 'Build Volume Fan Speed at Layer' is reached and onwards. Before that, the speed is set by 'Initial Layers Build Volume Fan Speed' instead.",
"unit": "%",
"type": "float",
"minimum_value": "0",
"maximum_value": "100",
"default_value": 100,
"enabled": "build_volume_fan_nr != 0",
"settable_per_mesh": false,
"settable_per_extruder": false,
"settable_per_meshgroup": false
},
"cool_fan_speed":
{
"label": "Fan Speed",
@ -7510,6 +7553,17 @@
"limit_to_extruder": "raft_surface_extruder_nr"
}
}
},
"machine_scan_first_layer":
{
"default_value": false,
"description": "Whether to scan the first layer for layer adhesion problems.",
"enabled": false,
"label": "Scan the first layer",
"settable_per_extruder": false,
"settable_per_mesh": false,
"settable_per_meshgroup": false,
"type": "bool"
}
}
},

19
resources/extruders/bambulab_a1_extruder_0.def.json Normal file
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@ -0,0 +1,19 @@
{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_a1",
"position": "0"
},
"overrides":
{
"extruder_nr": { "default_value": 0 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": ";===== A1 extruder end {extruder_nr} begin =====\nG392 S0\nM1007 S0 ; turn off mass estimation\nM204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X267 F18000\nG1 Y128 F9000\n\nM400\nM106 P1 S0\nM106 P2 S0\n{if material_print_temperature > 142, extruder_nr}\nM104 S{material_print_temperature, extruder_nr}\n{endif}\n\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A0 F{material_flush_purge_speed}\n\nM628 S1\nG92 E0\nG1 E-18 F{material_flush_purge_speed}\nM400\nM629 S1\n\n;===== A1 extruder end {extruder_nr} finish =====\n" },
"machine_extruder_start_code": { "default_value": ";===== A1 extruder start {extruder_nr} begin =====\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A1 F{material_flush_purge_speed} L{material_flush_purge_length} H{machine_nozzle_size} T{material_print_temperature, extruder_nr}\n\nM400\nG92 E0\n\n{if not prime_tower_enable}\n\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n\nM400\nM106 P1 S60\nG1 E6 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n; G1 E-{retraction_amount} F1800\nM400\nM106 P1 S178\nM400 S4\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM622.1 S0\n\nM621 S{extruder_nr}A\nG392 S0\n\nM1007 S1\n;===== A1 extruder start {extruder_nr} finish =====\n" },
"material_diameter": { "default_value": 1.75 },
"switch_extruder_retraction_amount": { "default_value": 18 }
}
}

19
resources/extruders/bambulab_a1_extruder_1.def.json Normal file
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@ -0,0 +1,19 @@
{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_a1",
"position": "1"
},
"overrides":
{
"extruder_nr": { "default_value": 1 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": ";===== A1 extruder end {extruder_nr} begin =====\nG392 S0\nM1007 S0 ; turn off mass estimation\nM204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X267 F18000\nG1 Y128 F9000\n\nM400\nM106 P1 S0\nM106 P2 S0\n{if material_print_temperature > 142, extruder_nr}\nM104 S{material_print_temperature, extruder_nr}\n{endif}\n\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A0 F{material_flush_purge_speed}\n\nM628 S1\nG92 E0\nG1 E-18 F{material_flush_purge_speed}\nM400\nM629 S1\n\n;===== A1 extruder end {extruder_nr} finish =====\n" },
"machine_extruder_start_code": { "default_value": ";===== A1 extruder start {extruder_nr} begin =====\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A1 F{material_flush_purge_speed} L{material_flush_purge_length} H{machine_nozzle_size} T{material_print_temperature, extruder_nr}\n\nM400\nG92 E0\n\n{if not prime_tower_enable}\n\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n\nM400\nM106 P1 S60\nG1 E6 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n; G1 E-{retraction_amount} F1800\nM400\nM106 P1 S178\nM400 S4\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM622.1 S0\n\nM621 S{extruder_nr}A\nG392 S0\n\nM1007 S1\n;===== A1 extruder start {extruder_nr} finish =====\n" },
"material_diameter": { "default_value": 1.75 },
"switch_extruder_retraction_amount": { "default_value": 18 }
}
}

19
resources/extruders/bambulab_a1_extruder_2.def.json Normal file
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@ -0,0 +1,19 @@
{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_a1",
"position": "2"
},
"overrides":
{
"extruder_nr": { "default_value": 2 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": ";===== A1 extruder end {extruder_nr} begin =====\nG392 S0\nM1007 S0 ; turn off mass estimation\nM204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X267 F18000\nG1 Y128 F9000\n\nM400\nM106 P1 S0\nM106 P2 S0\n{if material_print_temperature > 142, extruder_nr}\nM104 S{material_print_temperature, extruder_nr}\n{endif}\n\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A0 F{material_flush_purge_speed}\n\nM628 S1\nG92 E0\nG1 E-18 F{material_flush_purge_speed}\nM400\nM629 S1\n\n;===== A1 extruder end {extruder_nr} finish =====\n" },
"machine_extruder_start_code": { "default_value": ";===== A1 extruder start {extruder_nr} begin =====\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A1 F{material_flush_purge_speed} L{material_flush_purge_length} H{machine_nozzle_size} T{material_print_temperature, extruder_nr}\n\nM400\nG92 E0\n\n{if not prime_tower_enable}\n\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n\nM400\nM106 P1 S60\nG1 E6 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n; G1 E-{retraction_amount} F1800\nM400\nM106 P1 S178\nM400 S4\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM622.1 S0\n\nM621 S{extruder_nr}A\nG392 S0\n\nM1007 S1\n;===== A1 extruder start {extruder_nr} finish =====\n" },
"material_diameter": { "default_value": 1.75 },
"switch_extruder_retraction_amount": { "default_value": 18 }
}
}

19
resources/extruders/bambulab_a1_extruder_3.def.json Normal file
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@ -0,0 +1,19 @@
{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_a1",
"position": "3"
},
"overrides":
{
"extruder_nr": { "default_value": 3 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": ";===== A1 extruder end {extruder_nr} begin =====\nG392 S0\nM1007 S0 ; turn off mass estimation\nM204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X267 F18000\nG1 Y128 F9000\n\nM400\nM106 P1 S0\nM106 P2 S0\n{if material_print_temperature > 142, extruder_nr}\nM104 S{material_print_temperature, extruder_nr}\n{endif}\n\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A0 F{material_flush_purge_speed}\n\nM628 S1\nG92 E0\nG1 E-18 F{material_flush_purge_speed}\nM400\nM629 S1\n\n;===== A1 extruder end {extruder_nr} finish =====\n" },
"machine_extruder_start_code": { "default_value": ";===== A1 extruder start {extruder_nr} begin =====\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A1 F{material_flush_purge_speed} L{material_flush_purge_length} H{machine_nozzle_size} T{material_print_temperature, extruder_nr}\n\nM400\nG92 E0\n\n{if not prime_tower_enable}\n\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n\nM400\nM106 P1 S60\nG1 E6 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n; G1 E-{retraction_amount} F1800\nM400\nM106 P1 S178\nM400 S4\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM622.1 S0\n\nM621 S{extruder_nr}A\nG392 S0\n\nM1007 S1\n;===== A1 extruder start {extruder_nr} finish =====\n" },
"material_diameter": { "default_value": 1.75 },
"switch_extruder_retraction_amount": { "default_value": 18 }
}
}

19
resources/extruders/bambulab_a1mini_extruder_0.def.json Normal file
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{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_a1mini",
"position": "0"
},
"overrides":
{
"extruder_nr": { "default_value": 0 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": ";===== A1mini extruder end {extruder_nr} begin =====\nG392 S0\nM1007 S0 ; turn off mass estimation\nM204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X180 F18000\nG1 Y90 F9000\n\nM400\nM106 P1 S0\nM106 P2 S0\n{if material_print_temperature > 142, extruder_nr}\nM104 S{material_print_temperature, extruder_nr}\n{endif}\n\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A0 F{material_flush_purge_speed}\n\nM628 S1\nG92 E0\nG1 E-18 F{material_flush_purge_speed}\nM400\nM629 S1\n\n;===== A1mini extruder end {extruder_nr} finish =====\n" },
"machine_extruder_start_code": { "default_value": ";===== A1mini extruder start {extruder_nr} begin =====\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A1 F{material_flush_purge_speed} L{material_flush_purge_length} H{machine_nozzle_size} T{material_print_temperature, extruder_nr}\n\nM400\nG92 E0\n\n{if not prime_tower_enable}\n\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n\nM400\nM106 P1 S60\nG1 E5 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n; G1 E-{retraction_amount} F1800\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM622.1 S0\n\nM621 S{extruder_nr}A\nG392 S0\n\nM1007 S1\n;===== A1mini extruder start {extruder_nr} finish =====\n" },
"material_diameter": { "default_value": 1.75 },
"switch_extruder_retraction_amount": { "default_value": 18 }
}
}

19
resources/extruders/bambulab_a1mini_extruder_1.def.json Normal file
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{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_a1mini",
"position": "1"
},
"overrides":
{
"extruder_nr": { "default_value": 1 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": ";===== A1mini extruder end {extruder_nr} begin =====\nG392 S0\nM1007 S0 ; turn off mass estimation\nM204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X180 F18000\nG1 Y90 F9000\n\nM400\nM106 P1 S0\nM106 P2 S0\n{if material_print_temperature > 142, extruder_nr}\nM104 S{material_print_temperature, extruder_nr}\n{endif}\n\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A0 F{material_flush_purge_speed}\n\nM628 S1\nG92 E0\nG1 E-18 F{material_flush_purge_speed}\nM400\nM629 S1\n\n;===== A1mini extruder end {extruder_nr} finish =====\n" },
"machine_extruder_start_code": { "default_value": ";===== A1mini extruder start {extruder_nr} begin =====\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A1 F{material_flush_purge_speed} L{material_flush_purge_length} H{machine_nozzle_size} T{material_print_temperature, extruder_nr}\n\nM400\nG92 E0\n\n{if not prime_tower_enable}\n\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n\nM400\nM106 P1 S60\nG1 E5 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n; G1 E-{retraction_amount} F1800\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM622.1 S0\n\nM621 S{extruder_nr}A\nG392 S0\n\nM1007 S1\n;===== A1mini extruder start {extruder_nr} finish =====\n" },
"material_diameter": { "default_value": 1.75 },
"switch_extruder_retraction_amount": { "default_value": 18 }
}
}

19
resources/extruders/bambulab_a1mini_extruder_2.def.json Normal file
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{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_a1mini",
"position": "2"
},
"overrides":
{
"extruder_nr": { "default_value": 2 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": ";===== A1mini extruder end {extruder_nr} begin =====\nG392 S0\nM1007 S0 ; turn off mass estimation\nM204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X180 F18000\nG1 Y90 F9000\n\nM400\nM106 P1 S0\nM106 P2 S0\n{if material_print_temperature > 142, extruder_nr}\nM104 S{material_print_temperature, extruder_nr}\n{endif}\n\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A0 F{material_flush_purge_speed}\n\nM628 S1\nG92 E0\nG1 E-18 F{material_flush_purge_speed}\nM400\nM629 S1\n\n;===== A1mini extruder end {extruder_nr} finish =====\n" },
"machine_extruder_start_code": { "default_value": ";===== A1mini extruder start {extruder_nr} begin =====\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A1 F{material_flush_purge_speed} L{material_flush_purge_length} H{machine_nozzle_size} T{material_print_temperature, extruder_nr}\n\nM400\nG92 E0\n\n{if not prime_tower_enable}\n\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n\nM400\nM106 P1 S60\nG1 E5 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n; G1 E-{retraction_amount} F1800\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM622.1 S0\n\nM621 S{extruder_nr}A\nG392 S0\n\nM1007 S1\n;===== A1mini extruder start {extruder_nr} finish =====\n" },
"material_diameter": { "default_value": 1.75 },
"switch_extruder_retraction_amount": { "default_value": 18 }
}
}

19
resources/extruders/bambulab_a1mini_extruder_3.def.json Normal file
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{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_a1mini",
"position": "3"
},
"overrides":
{
"extruder_nr": { "default_value": 3 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": ";===== A1mini extruder end {extruder_nr} begin =====\nG392 S0\nM1007 S0 ; turn off mass estimation\nM204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X180 F18000\nG1 Y90 F9000\n\nM400\nM106 P1 S0\nM106 P2 S0\n{if material_print_temperature > 142, extruder_nr}\nM104 S{material_print_temperature, extruder_nr}\n{endif}\n\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A0 F{material_flush_purge_speed}\n\nM628 S1\nG92 E0\nG1 E-18 F{material_flush_purge_speed}\nM400\nM629 S1\n\n;===== A1mini extruder end {extruder_nr} finish =====\n" },
"machine_extruder_start_code": { "default_value": ";===== A1mini extruder start {extruder_nr} begin =====\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\nM620.10 A1 F{material_flush_purge_speed} L{material_flush_purge_length} H{machine_nozzle_size} T{material_print_temperature, extruder_nr}\n\nM400\nG92 E0\n\n{if not prime_tower_enable}\n\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n\nM400\nM106 P1 S60\nG1 E5 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n; G1 E-{retraction_amount} F1800\nM400\nM106 P1 S178\nM400 S3\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nG1 X-3.5 F18000\nG1 X-13.5 F3000\nM400\nM106 P1 S0\n\nM622.1 S0\n\nM621 S{extruder_nr}A\nG392 S0\n\nM1007 S1\n;===== A1mini extruder start {extruder_nr} finish =====\n" },
"material_diameter": { "default_value": 1.75 },
"switch_extruder_retraction_amount": { "default_value": 18 }
}
}

18
resources/extruders/bambulab_x1_extruder_0.def.json Normal file
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{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_x1",
"position": "0"
},
"overrides":
{
"extruder_nr": { "default_value": 0 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": "M204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n\n{if material_print_temperature > 142}\nM104 S{material_print_temperature}\n{endif}\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\nG1 X20 Y50 F21000\nG1 Y-3\n\n;{if toolchange_count == 2}\n; get travel path for change filament\n;M620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\n;M620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\n;M620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n;{endif}\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\n" },
"machine_extruder_start_code": { "default_value": "M620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\n\nG92 E0\n\n; always use highest temperature to flush\n{if material_type == 'PETG'}\nM109 S260\n{elsif material_type == 'PVA'}\nM109 S210\n{else}\nM109 S{material_print_temperature}\n{endif}\n\n{if not prime_tower_enable}\n\nM83\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; FLUSH_START\nM400\nM109 S{material_print_temperature}\nG1 E6 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n;G1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X105 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\n\nG1 X70 F10000\nG1 X80 F15000\nG1 X60\nG1 X80\nG1 X60\nG1 X80 ; shake to put down garbage\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\n\nM621 S{extruder_nr}A\n" },
"material_diameter": { "default_value": 1.75 }
}
}

18
resources/extruders/bambulab_x1_extruder_1.def.json Normal file
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{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_x1",
"position": "1"
},
"overrides":
{
"extruder_nr": { "default_value": 1 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": "M204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n\n{if material_print_temperature > 142}\nM104 S{material_print_temperature}\n{endif}\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\nG1 X20 Y50 F21000\nG1 Y-3\n\n;{if toolchange_count == 2}\n; get travel path for change filament\n;M620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\n;M620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\n;M620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n;{endif}\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\n" },
"machine_extruder_start_code": { "default_value": "M620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\n\nG92 E0\n\n; always use highest temperature to flush\n{if material_type == 'PETG'}\nM109 S260\n{elsif material_type == 'PVA'}\nM109 S210\n{else}\nM109 S{material_print_temperature}\n{endif}\n\n{if not prime_tower_enable}\n\nM83\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; FLUSH_START\nM400\nM109 S{material_print_temperature}\nG1 E6 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n;G1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X105 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\n\nG1 X70 F10000\nG1 X80 F15000\nG1 X60\nG1 X80\nG1 X60\nG1 X80 ; shake to put down garbage\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\n\nM621 S{extruder_nr}A\n" },
"material_diameter": { "default_value": 1.75 }
}
}

18
resources/extruders/bambulab_x1_extruder_2.def.json Normal file
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{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_x1",
"position": "2"
},
"overrides":
{
"extruder_nr": { "default_value": 2 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": "M204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n\n{if material_print_temperature > 142}\nM104 S{material_print_temperature}\n{endif}\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\nG1 X20 Y50 F21000\nG1 Y-3\n\n;{if toolchange_count == 2}\n; get travel path for change filament\n;M620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\n;M620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\n;M620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n;{endif}\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\n" },
"machine_extruder_start_code": { "default_value": "M620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\n\nG92 E0\n\n; always use highest temperature to flush\n{if material_type == 'PETG'}\nM109 S260\n{elsif material_type == 'PVA'}\nM109 S210\n{else}\nM109 S{material_print_temperature}\n{endif}\n\n{if not prime_tower_enable}\n\nM83\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; FLUSH_START\nM400\nM109 S{material_print_temperature}\nG1 E6 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n;G1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X105 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\n\nG1 X70 F10000\nG1 X80 F15000\nG1 X60\nG1 X80\nG1 X60\nG1 X80 ; shake to put down garbage\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\n\nM621 S{extruder_nr}A\n" },
"material_diameter": { "default_value": 1.75 }
}
}

18
resources/extruders/bambulab_x1_extruder_3.def.json Normal file
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{
"version": 2,
"name": "Extruder",
"inherits": "fdmextruder",
"metadata":
{
"machine": "bambulab_x1",
"position": "3"
},
"overrides":
{
"extruder_nr": { "default_value": 3 },
"machine_extruder_change_duration": { "default_value": 29 },
"machine_extruder_end_code": { "default_value": "M204 S9000\n\nG91 ; set relative positioning\nG1 Z3.0 F1200\nG90 ; back to abolute positioning\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n\n{if material_print_temperature > 142}\nM104 S{material_print_temperature}\n{endif}\n\nM620.11 S1 I{extruder_nr} E-18 F1200\nM400\n\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\nG1 X20 Y50 F21000\nG1 Y-3\n\n;{if toolchange_count == 2}\n; get travel path for change filament\n;M620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\n;M620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\n;M620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n;{endif}\n\nM620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\n" },
"machine_extruder_start_code": { "default_value": "M620.1 E F{material_flush_purge_speed} T{material_print_temperature, extruder_nr}\n\nG92 E0\n\n; always use highest temperature to flush\n{if material_type == 'PETG'}\nM109 S260\n{elsif material_type == 'PVA'}\nM109 S210\n{else}\nM109 S{material_print_temperature}\n{endif}\n\n{if not prime_tower_enable}\n\nM83\n; FLUSH_START\n; always use highest temperature to flush\nM400\nM1002 set_filament_type:UNKNOWN\nM109 S{material_print_temperature, extruder_nr}\nM106 P1 S60\nG1 E{material_flush_purge_length / 4.0} F{min(extruderValues('material_flush_purge_speed'))} ; do not need pulsatile flushing for start part\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{min(extruderValues('material_flush_purge_speed'))}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.23} F{material_flush_purge_speed, extruder_nr}\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\nM400\nM1002 set_filament_type:{material_type, extruder_nr}\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; WIPE\nM400\nM106 P1 S178\nM400 S3\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nG1 X-38.2 F18000\nG1 X-48.2 F3000\nM400\nM106 P1 S0\n\nM106 P1 S60\n; FLUSH_START\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\nG1 E{(material_flush_purge_length / 4.0) * 0.18} F{material_flush_purge_speed, extruder_nr}\nG1 E{(material_flush_purge_length / 4.0) * 0.02} F50\n; FLUSH_END\nG1 E-{retraction_amount * 2} F1800\nG1 E{retraction_amount * 2} F300\n\n; FLUSH_START\nM400\nM109 S{material_print_temperature}\nG1 E6 F{material_flush_purge_speed, extruder_nr} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\n\n{endif} ; prime_tower_enable\n\nM400\nG92 E0\n;G1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X105 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\n\nG1 X70 F10000\nG1 X80 F15000\nG1 X60\nG1 X80\nG1 X60\nG1 X80 ; shake to put down garbage\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\n\nM621 S{extruder_nr}A\n" },
"material_diameter": { "default_value": 1.75 }
}
}

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resources/quality/bambu/bambulab_a1_0.4_PLA_standard.inst.cfg Normal file
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[general]
definition = bambulab_a1
name = Standard
version = 4
[metadata]
material = generic_pla
quality_type = normal
setting_version = 25
type = quality
variant = 0.4mm
[values]

15
resources/quality/bambu/bambulab_a1_normal.inst.cfg Normal file
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[general]
definition = bambulab_a1
name = Normal
version = 4
[metadata]
global_quality = True
quality_type = normal
setting_version = 25
type = quality
weight = 0
[values]
layer_height = 0.2

14
resources/quality/bambu/bambulab_a1mini_0.4_PLA_standard.inst.cfg Normal file
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[general]
definition = bambulab_a1mini
name = Standard
version = 4
[metadata]
material = generic_pla
quality_type = normal
setting_version = 25
type = quality
variant = 0.4mm
[values]

15
resources/quality/bambu/bambulab_a1mini_normal.inst.cfg Normal file
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[general]
definition = bambulab_a1mini
name = Normal
version = 4
[metadata]
global_quality = True
quality_type = normal
setting_version = 25
type = quality
weight = 0
[values]
layer_height = 0.2

14
resources/quality/bambu/bambulab_x1_0.4_PLA_standard.inst.cfg Normal file
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[general]
definition = bambulab_x1
name = Standard
version = 4
[metadata]
material = generic_pla
quality_type = normal
setting_version = 25
type = quality
variant = X1 0.4mm
[values]

15
resources/quality/bambu/bambulab_x1_normal.inst.cfg Normal file
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[general]
definition = bambulab_x1
name = Normal
version = 4
[metadata]
global_quality = True
quality_type = normal
setting_version = 25
type = quality
weight = 0
[values]
layer_height = 0.2

13
resources/variants/bambu/bambulab_a1_0.4.inst.cfg Normal file
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[general]
definition = bambulab_a1
name = 0.4mm
version = 4
[metadata]
hardware_type = nozzle
setting_version = 25
type = variant
[values]
machine_nozzle_size = 0.4

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resources/variants/bambu/bambulab_a1mini_0.4.inst.cfg Normal file
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[general]
definition = bambulab_a1mini
name = 0.4mm
version = 4
[metadata]
hardware_type = nozzle
setting_version = 25
type = variant
[values]
machine_nozzle_size = 0.4

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resources/variants/bambu/bambulab_x1_0.4.inst.cfg Normal file
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[general]
definition = bambulab_x1
name = X1 0.4mm
version = 4
[metadata]
hardware_type = nozzle
setting_version = 25
type = variant
[values]
machine_nozzle_size = 0.4