CircuitPython lately. A lot of what I've done is fix bugs found by afl. Here's how to try it for yourself:
I recommend that you use a throwaway virtual machine for this, because at one point afl-fuzz learned how to create files in the filesystem! that was a big surprise, waking up to a directory full of filenames like "tesppppppppppppppppppppppppppppptfile"!
First, make sure you can build circuitpython's unix port. The steps are, approximately,
- Clone circuitpython
- git submodule update --init --recursive
- make -C ports/unix -j5 deplibs
- make -C ports/unix -j5
Note that the executable is ports/unix/micropython even when you have cloned circuitpython.
Next, get afl from http://lcamtuf.coredump.cx/afl/. If you can, follow the instructions in llvm_mode/README.llvm to get afl-clang-fast. Now, clean and rebuild:
- make -C ports/unix clean
- make -C ports/unix CC=/path/to/afl-clang-fast -j5 deplibs
- make -C ports/unix CC=/path/to/afl-clang-fast -j5
Prepare the testcases directory for afl-fuzz. I used a number of tests from tests/basic:
- mkdir testcases
- cp tests/basics/*.py testcases
And start the fuzzer:
- /path/to/afl-fuzz -i testcases -o findings -- ports/unix/circuitpython
If you have any good findings, drop by the adafruit circuitpython discord and let us know about them! Even better if you fix them.
Chris Radek has gotten back into the watch repair business! He writes:
After a 15-year break, I'm now accepting repair work again!
I do everything from routine cleaning and oiling (full disassembly and inspection, multi-stage ultrasonic cleaning, reassembly and correct oiling using appropriate modern synthetic oils, timing and adjustment as necessary) of automatic and manual-wind wrist and pocket watches to manufacture of unavailable parts for chronographs or repeaters.
I specialize in Accutron tuning fork watches and I have a large stock of parts and many years of experience working on them.
Please contact me and tell me how I can help you. If you are a collector I've previously worked for, I'd especially like to hear from you.
His work winding new coils for Accutron watches is particularly exciting; he tells me he's heard of just one other person doing this in the last 20 years. These particular watch parts are otherwise irreplacable.
Stream of consciousness updates: More bugs in my search program, found and excised. More, shorter numbers. Maybe all 10-character programs.
A few years ago, possibly in 2014, I saw this code golf problem, which invites you write a short program that prints "2014"—the caveat being, the program may not contain any digits in its source code.
Fuel economy and total mileage both went up in 2017 compared to earlier years. However, due to taking more road trips total fuel usage went up.
This year had my best mileage on a single nontrivial trip, shown as 99.9 MPG on 58.5 miles. This drive included significant downhill portions (descending from 12,000 feet to 6000 feet, if I recall correctly).
poc is a tool in the vein of OpenSCAD for creating 3D models in a high level language with a minimum of boilerplate. It's now live at github, though I don't know how actively I'll deveop or maintain it yet.
Here you can see that the input format is fairly terse, and it has some abilities OpenSCAD doesn't, like selectively filleting certain edges:
with Difference(): Box((-50,-50,-50), (50,50,50)) Cylinder((-100,0,0), (100,0,0), 25) Cylinder((0,-100,0), (0,100,0), 25) Cylinder((0,0,-100), (0,0,100), 25) Fillet(12, [e for e in Edges() if e.boundingBox().min.z > 0])
openscad a lot, but I'm still on the lookout for alternatives.
Recently I ran across occmodel. Its biggest prerequisite, OpenCASCADE, is packaged in Debian Stretch as "liboce"; the rest are fairly lightweight (though compiled) extensions.
So I gave it a try for a small piece, little extension legs for a dish drainer. I plan to add two leg extensions to the antisinkward legs of the dish drainer, to improve its draining behavior. So one key feature is that the captured leg will end up being at an angle to the counter.
My python program has a few "configurables" near the top, inner and outer diameters, heights, and the distance between the legs. From this, I do some basic operations (difference of two cylinders, rotation of that intermediate solid to represent the required angle, then intersection between it and a large cube that represents the half-space 'above the countertop'. Then, just to show I can do something openscad can't do trivially, I fillet every edge by 1mm.
from __future__ import division from math import * from geotools import * from tostl import occ_to_stl # a little homebrew module import os IN=25.4 dist = 12*IN dia = .7*IN od = dia + .25*IN elevation = 1*IN engagement = 1*IN angle = atan2(elevation, dist) outer = Solid().createCylinder((0,0,-elevation), (0,0,elevation+engagement),od/2) inner = Solid().createCylinder((0,0,elevation), (0,0,100),dia/2) outer.cut(inner) outer.rotate(angle, (1,0,0)) b = Solid().createBox((-100,-100,0), (100,100, 100)) outer.common(b) outer.fillet(1) with open("drainboots.stl.new", "wb") as f: occ_to_stl(outer, f) os.rename("drainboots.stl.new", "drainboots.stl")
(I couldn't get a screenshot that did the part much justice)
What is the gap between here and a real OpenSCAD alternative?
First, I'm not confident of the robustness of liboce; I saw some segfaults and since they were dependent on specific numbers in the geometry I am tempted to assign blame there and not to the occmodel wrapper. (not that OpenSCAD is beyond reproach here)
Second, it needs an integrated environment like OpenSCAD has. Maybe one of the python "notebook" interfaces would be suitable for this.
Third, it needs less boilerplate.
Fourth, it needs broad buy-in by users of sites like thingiverse, because OpenSCAD has massive momentum behind it.
.. and only a handful of days in the last year would have come close to saturating a T1 at its nominal 1.544Mb/s. Still, that's a total of around 800GB/year downloaded. Something big would have to change before I could switch to metered cellular data; the upload and download taken together would cost about $1000 a month with my current cellphone provider.
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