I hereby claim:
- I am lemonad on github.
- I am lemonad (https://keybase.io/lemonad) on keybase.
- I have a public key whose fingerprint is 975E 649F C19F BFF6 3930 CB08 EADA 56A2 FA66 9948
To claim this, I am signing this object:
def S(x): | |
def printx(): | |
print(x) | |
def times_x(multiplier): | |
return multiplier * x | |
def change_x(new_x): | |
nonlocal x | |
x = new_x |
import ctypes | |
class IntStruct(ctypes.Structure): | |
_fields_ = [("ob_refcnt", ctypes.c_long), | |
("ob_type", ctypes.c_void_p), | |
("ob_size", ctypes.c_ulong), | |
("ob_digit", ctypes.c_long)] | |
def __repr__(self): | |
return ("IntStruct(ob_digit={self.ob_digit}, " | |
"refcount={self.ob_refcnt})").format(self=self) |
local WIDTH = 800 | |
local HEIGHT = 600 | |
local shader_code = [[ | |
extern vec2 screen_dims; | |
extern number time; | |
number pi = atan(1.0) * 4.0; | |
vec4 effect(vec4 color, Image image, vec2 uvs, vec2 screen_coords) { | |
vec2 screen_coords_norm = vec2( |
""" | |
Approximates area of Mandelbrot fractal by Monte Carlo sampling. | |
The definition of the Mandelbrot Set is the set of values c \in C where | |
z_{n+1} = z_n^2 + c | |
remains bounded. Most members will be within (-2, 2) x (-2i, 2i) so | |
here this is used as an artificial bounds to simplify the approximation. |
Verifying that +lemonad is my blockchain ID. https://onename.com/lemonad |
I hereby claim:
To claim this, I am signing this object:
{ | |
"name": "hawfin.ch", | |
"author": "Jonas Nockert <jonasnockert@gmail.com>", | |
"description": "It's crunch time!", | |
"version": "0.0.1-225", | |
"dependencies": { | |
"async": "0.1.22", | |
"cookie": "0.0.4", | |
"gravatar": "1.0.6", | |
"imagemagick": "0.1.2", |