This repository contains an API for interfacing with the Form 1/1+ 3D printer.
Contact: [email protected]
OpenFL provides a number of distinct features for doing interesting non-standard things with a Form 1/1+:
- A special version of PreForm that allows setting of custom material settings:
- custom laser powers
- custom laser speeds
- custom motor speeds
- Python bindings for talking with the printer, including reading and writing machine-code ("FLP" files) to/from the printer.
- A Python API for manipulating FLP files.
- A special firmware which adds:
- a wait-on-pin command to allow a print to pause for outside input
- a write-serial command and a write-serial time command to allow logging and to allow the printer to notify other electronics of events
Notes:
- The OpenFL version of PreForm, that allows exposure to be customized, does not require custom firmware or the Python tools.
- The custom PreForm is not required to use the Python tools.
- The custom firmware is required to use the Python printer API.
- The custom firmware is compatible with other versions of PreForm.
In order to use all of the firmware features and to set custom material files for Form 1/1+, you need a special version of PreForm, available here:
- https://downloads.formlabs.com/PreForm/Release/2.3.3/PreForm_2.3.3_release_OpenFL_build_2.dmg
- https://downloads.formlabs.com/PreForm/Release/2.3.3/PreForm_setup_2.3.3_release_OpenFL_build_2.exe
Use that version of PreForm to update the firmware. Next, you can load the custom material file, Form_1+_FLGPCL02_100.ini from the PreForm UI and print with it by selecting the "Load Custom Material..." button:
For more details, see Material file detailed description.
To install dependencies, run
pip install -r requirements.txt
Then, have a look through the examples
subfolder.
Advanced FLP commands are documented in ADVANCED.md
A print can be read from the printer. Each layer is a "block" on the printer, which can be read as a FLP.Packets
object, which is a Python list
.
Here's an example interaction with an uploaded print:
>>> from OpenFL import Printer, FLP
>>> p=Printer.Printer()
>>> assert 0 in p.list_blocks() # If this fails, then there are no layers on the printer
>>> layer = p.read_block_flp(block=0)
>>> assert isinstance(layer, FLP.Packets)
>>> assert isinstance(layer, list)
>>> layer[:11] # This will be different depending on the print
[<XYMoveClockRate(60000 Hz) at 0x106f41610>,
<LayerDone() at 0x106f415d0>,
<ZCurrent(80) at 0x106f41650>,
<TiltCurrent(80) at 0x106f416d0>,
<ZFeedRate(4000 usteps/s) at 0x106f41710>,
<ZMove(2000 usteps) at 0x106f41790>,
<WaitForMovesToComplete() at 0x106f417d0>,
<WaitForMovesToComplete() at 0x106f41750>,
<ZFeedRate(4000 usteps/s) at 0x106f41810>,
<ZMove(-1960 usteps) at 0x106f41850>,
<WaitForMovesToComplete() at 0x106f41890>]
>>> print layer[9]
0x03 ZMove -1960
>>> layer[9].usteps
-1960
>>> layer[9].usteps = 42
>>> layer[9]
<ZMove(42 usteps) at 0x106f41850>
alternately, you could do:
>>> layer[9] = FLP.ZMove(usteps=42) # Overwrite packet
or
del layer[9] # Delete packet from list
layer.insert(9, FLP.ZMove(usteps=42)) # Insert packet
because FLP.Packets is a Python list (i.e., it inherits list) so you can append, insert, concatenate, etc.
Finally, the block can be pushed back to the printer:
p.write_block(0, layer)
SEE NOTICE FILE.
Copyright 2016-2017 Formlabs
Released under the Apache License.