19062b4d5f
WIP GCode/SmoothPath.cpp,hpp cache for interpolating extrusion path with arches. Removed Perl test t/geometry.t, replaced with C++ tests. Refactored ExtrusionEntity and derived classes to hold extrusion attributes in new ExtrusionFlow/ExtrusionAttributes classes. Reworked path ordering in G-code export to never copy polylines, but to work with a new "flipped" attribute. Reworked G-code export to interpolate extrusion paths with smooth paths and to extrude those smooth paths. New parameters: arc_fitting, arc_fitting_tolerance Renamed GCode class to GCodeGenerator Moved GCodeWriter.cpp/hpp to GCode/ Moved Wipe from from GCode.cpp,hpp to GCode/Wipe.cpp,hpp Moved WipeTowerIntegration from GCode.cpp,hpp to GCode/WipeTowerIntegration.cpp,hpp New variant of douglas_peucker() to simplify range of iterators in place. Refactored wipe in general and wipe on perimeters / hiding seams. WIP: Convert estimate_speed_from_extrusion_quality() and its application to smooth paths. WIP: Cooling buffer to process G2G3, disable arc fitting for filters that cannot process it.
PrusaSlicer
You may want to check the PrusaSlicer project page. Prebuilt Windows, OSX and Linux binaries are available through the git releases page or from the Prusa3D downloads page. There are also 3rd party Linux builds available.
PrusaSlicer takes 3D models (STL, OBJ, AMF) and converts them into G-code instructions for FFF printers or PNG layers for mSLA 3D printers. It's compatible with any modern printer based on the RepRap toolchain, including all those based on the Marlin, Prusa, Sprinter and Repetier firmware. It also works with Mach3, LinuxCNC and Machinekit controllers.
PrusaSlicer is based on Slic3r by Alessandro Ranellucci and the RepRap community.
See the project homepage and the documentation directory for more information.
What language is it written in?
All user facing code is written in C++, and some legacy code as well as unit tests are written in Perl. Perl is not required for either development or use of PrusaSlicer.
The slicing core is the libslic3r library, which can be built and used in a standalone way.
The command line interface is a thin wrapper over libslic3r.
What are PrusaSlicer's main features?
Key features are:
- multi-platform (Linux/Mac/Win) and packaged as standalone-app with no dependencies required
- complete command-line interface to use it with no GUI
- multi-material (multiple extruders) object printing
- multiple G-code flavors supported (RepRap, Makerbot, Mach3, Machinekit etc.)
- ability to plate multiple objects having distinct print settings
- multithread processing
- STL auto-repair (tolerance for broken models)
- wide automated unit testing
Other major features are:
- combine infill every 'n' perimeters layer to speed up printing
- 3D preview (including multi-material files)
- multiple layer heights in a single print
- spiral vase mode for bumpless vases
- fine-grained configuration of speed, acceleration, extrusion width
- several infill patterns including honeycomb, spirals, Hilbert curves
- support material, raft, brim, skirt
- standby temperature and automatic wiping for multi-extruder printing
- customizable G-code macros and output filename with variable placeholders
- support for post-processing scripts
- cooling logic controlling fan speed and dynamic print speed
Development
If you want to compile the source yourself, follow the instructions on one of these documentation pages:
Can I help?
Sure! You can do the following to find things that are available to help with:
- Add an issue to the github tracker if it isn't already present.
- Look at issues labeled "volunteer needed"
What's PrusaSlicer license?
PrusaSlicer is licensed under the GNU Affero General Public License, version 3. The PrusaSlicer is originally based on Slic3r by Alessandro Ranellucci.
How can I use PrusaSlicer from the command line?
Please refer to the Command Line Interface wiki page.